P H F R E S E A R C H P A R K O K L A H O M A C I T Y O K
10 P H F R E S E A R C H P A R K O K L A H O M A C I T Y O K 1/3 PHF Research Park consists of seven buildings, over 700,000 square feet of class A wet lab and office space is the home of 31 science based companies. C O N T E N T S Letter from the President 2 4 PHF10 PHF Supports Basic Medical Research 26 Grants Awarded 30 Gifts Received 32 PHF Trustees 34 Making Contributions 36 From Michael D. Anderson, Ph.D. president, Presby terian Health Foundation 2 T here is a law in logic that states anything changed significantly in degree, changes in kind. A simple example, changing water significantly in degree (passing 2l2˚ F) changes the water in kind, from a liquid to a gas, steam. Ten years ago PHF built a structure for a single science based company, UroCor. Ten years passed and today, more than thirty biotech companies make the PHF Research Park their home. The PHF Research Park, and the Foundation, ‘changing significantly in degree have changed in kind.’ Today this biotech center of seven buildings, on Research Parkway, brings a new perspective to Oklahoma City and the State of Oklahoma. In each of three installments, we shall look at the story of “The Power of Ten” by describing ten biotech companies. The ten science-based companies described in this volume have the power to affect for good the course of human health, here and throughout the world. Malcolm Gladwell, in “Outliers: The Story of Success,” delineates the success of Mozart, The Beatles, Bill Gates, Bill Joy (“the Edison of the Internet”), Bobby Fischer (Chess Master). In each case the principal person was not just a “gifted” person or in the case of The Beatles, “persons,” but with great discipline and strict focus these successful persons applied themselves to at least 10,000 hours of preparation over a period of ten years. “The Power of Ten,” ten years, ten thousands hours, can be seen in numerous world class sports stars: Michael Jordan, Tiger Woods (yes, he started young, but he put in his 10,000 hours of disciplined preparation by the time he was nineteen), Jackie Joyner-Kersee, Michael Phelps, Wilma Rudolph, and Chris Evert. “The Power of Ten” applies to many of the disciplined scientists and technicians applying their skills here in the PHF Research Park. It is not uncommon to see ten years of concentrated basic research come to a “Eureka” moment of discovery, and a “Disclosure” is presented in a peer reviewed environment. This step leads to ratification of the “Intellectual Property,” such as filing “Patents,” and continuing the journey of “concept to solution.” The “sound of science” makes us gratefully aware of the movement from imagination to reality. This process, of moving original scientific discovery from the lab to the market place, where the common good of humanity is served, often takes ten years. Here are some of the steps taken on this scientific discovery-to-the-marketplace journey, the journey taken by companies in the PHF Research Park. 1 2 3 4 5 6 Preclinical Research in the laboratory including animal (e.g. laboratory mice) testing to determine effectiveness and safety of the product. Investigational New Drug Application (IND): before a new compound is tested in human trials, the biotech company must file an IND with the Food and Drug Administration. If the FDA does not object, the tests (trials) may proceed. The US has the highest standards in the world. Phase I Human Trials: Scientists with cooperating physicians examine the compound’s safety in a small number of healthy volunteers. (Not infrequently university students are the volunteer subjects.) The scientist carefully study safe dosage levels and how the human body reacts to the protocol. Phase II Human Trials: at this point of development a large number of volunteers, who are patients suffering from the disease or condition being treated, are tested. The physicians and scientists monitor the effectiveness of the compound and carefully document any adverse reactions. Phase III Human Trials are the most complex clinical methods and protocols. At this stage, scientists observe results in diverse populations, in numerous sites, over an extended period of time, using ‘double blind’ procedures, meaning the investigator does not know which subject has received a placebo, or the innovative compound, nor do the subjects know. Science is based on objective observation of evidenced based results, not influenced by subjective opinion. New Drug Application: If the Phase I through III trials are successful, and if the FDA approval is given, the new medicine may be made available to the public. You may see ten companies in the PHF Research Park following these costly six steps. The cost may be $100 million, or ten times that cost in development. One company in the Research Park is nearing the 10X $100MM in development costs. And it is worth it. The research and the development of new therapeutics and innovative medical devises are very costly. However, those costs are minimal, compared to the cost of disease. Consider in your imagination, the costs of Alzheimer’s disease that effects one of every ten persons at the age of 65.... the individual’s cost and suffering, and the family’s costs and suffering. The costs of neuroscience research for that disease and successfully taking that research to the market place to relieve suffering and death is infinitely worthwhile. In ten years we have taken an area of Oklahoma City from neglect to biotech. Here at the Research Park we see a place where Sir Arthur Clarke’s “Paradigm of New Ideas” works. Good, new ideas move through three stages: 1. “It can’t be done!” 2. “Maybe it can be done, but it’s not worth it!” 3. “I knew it was a good idea along!” In the “Power of Ten” you are invited to see imagination move to reality. 3 10 5 seeing. the future. 6 F or people who suffer from debilitating eye disease such as diabetic retinopathy or age-related macular degeneration, a dark future awaits, says Mike Moradi, chief executive officer at Charlesson LLC. “Quite simply, you lose your central vision because you have this build-up of abnormal blood vessels in the back of the eye,” Moradi said in describing the condition that leads to vision loss. “This is the most crucial part of your eyesight. It’s what you use for driving, for reading, for any type of precise task.” “It’s just a horrible, horrible way to live out your golden years.” Current treatments are invasive, painful and temporary for up to 15 million Americans suffering from macular degeneration or diabetic retinopathy. Charlesson plans to reverse the disturbing trends of vision loss among diabetics and the elderly with a drug it is developing called CLT003. Built on the groundbreaking work of University of Oklahoma Health Sciences Center researcher Dr. Jian-Xing “Jay” Ma, Charlesson is perfecting its formulation and raising capital to begin the long rounds of clinical trials. “My hope is we will be able to get this one into the clinic sometime in the next 24 months,” Moradi said. “We are targeting an investigational new drug application ready by the end of 2010.” The company owns intellectual property licensed from OU, as well as technology licensed from UCLA and IP developed in its own PHF Research Park laboratory. Charlesson was awarded $2.9 million in funding from the EDGE Policy Board to advance its compound toward clinical trials. The company has won almost $9 million in research grants since its founding in 2005. Charlesson also operates a rapidly growing contract research organization (CRO), which provides drug screening tests for other researchers and pharmaceutical companies. Charlesson’s CRO already generates a half million dollars annually, and has clients worldwide including Fortune 500 and growth-stage biopharma companies. Demand for its CRO services is such that Moradi anticipates quickly expanding the company’s staff of 20 employees. But Charlesson’s legacy will be built on its drug discovery and development business, in its ability to create new treatments that bypass painful and short term laser treatments for eye disease. Moradi knows first hand the toll that vision loss extracts from people suffering from age related macular degeneration and diabetic macular edema. His mother suffers from diabetic macular edema, providing even more impetus for creating an effective treatment. “Our hope is that we will come up with less invasive ways to treat macular degeneration,” Moradi said. “Today’s standard of care is a needle in the eye every 30 to 60 days. The long term hope is we will move away from needles altogether to eye drops and tablets.” It is a brighter vision of the future for millions of people now seeing their world darkened by eye disease. 7 Mike Moradi Charlesson LLC sweet discoveries. 8 T he technologies developed by Dr. Paul DeAngelis, either solo or jointly with colleague Dr. Paul Weigel at OU, were licensed from OU by Austin, Texas-based Emergent Technologies, Inc., and are the foundation for three PHF Research Park companies under the Emergent umbrella: Hyalose LLC, Choncept LLC and Heparinex. DeAngelis serves as chief scientist for all three “sugar-based” companies, which has the rights to approximately 25 US patents surrounding the synthetic sugar molecules. Emergent recognized the value of designer sugar molecules and their use as “platform technologies” to enable the delivery of diseasefighting drugs or as a non-animal derived substitute for products such as the blood thinner Heparin, which was linked to a series of deaths last year. “Having the ability to ferment or chemically produce these molecules is a big advantage over the current technology,” said Bill Strieber, vice president for New Business Development with Emergent Technologies. Huge potential markets await the applications of the synthetic sugar molecules, from blood thinners to joint injections to drug delivery to skin lotions and much more. Technology from the Emergent companies already is being used in cosmetic products by a European company called Novozymes A/S, and other deals have been signed to develop the designer molecules for different applications. “There are a lot of indications,” DeAngelis said. “And we can re-tool our process to make many different therapeutics, or if we want to make a coating for a medical device implant, we can change around the same basic components and make different molecules for different applications. That’s why it’s a platform.” What are the barriers keeping more of these designer sugar molecules out of the marketplace? “Industrial-sized scale up,” Strieber said. Help is on the way in the form of $1.23 million in EDGE Endowment funding awarded Hyalose last fall in a partnership with Cytovance Biologics. Cytovance operates a cGMP biologics contract manufacturing plant in the Research Park and will provide the clean room environment needed to produce the designer sugars in larger quantities. “We’ve gotten some traction with the EDGE funding to get to the next level to make certain products,” DeAngelis said. “The idea is to make a mid-level manufacturing plant in a good, clean environment. We are making small amounts of materials and delivering them, but some people’s orders are more than we can handle on a quick turn around, so we had to turn them down.” “We will be able to scale up and give them a clean product, in larger amounts so they can take the next step, either to animal tests or safety trials in people.” Sweet. 9 2 Dr. Paul DeAngelis Hyalose LLC production. pipeline. 10 A rmed with a fully validated cGMP manufacturing plant, Cytovance Biologics is destroying some biotechnology industry stereotypes about its Oklahoma location. Yes, contract manufacturing of therapeutic proteins, cell banking and product development for the life sciences industry can be successfully accomplished and marketed in Oklahoma City. “We’ve heard a lot of clients talk about the proximity to being in the Midwest, that they have a great option without having to fly to the two coasts,” said Darren Head, Cytovance’s Chief Executive Officer. “I’m actually starting to see it being a little of a competitive advantage being located in the center of the United States.” With the long process of building and validating a 45,000 square foot, custom cGMP manufacturing plant behind it, Cytovance is focused on marketing its services and establishing itself as a major player in the contract manufacturing industry. Head became the company’s CEO in 2008, and has since added two national sales representatives to its staff of about 40 people. At the end of the year it had about $22 million in contract proposals outstanding. “My biggest fear is not how much we’re going to do next year, it’s how can we do it all next year,” Head said. “We’re looking at expanding the facility so we can bring in two new bioreactors. My challenge is more in how to manage the growth than how to manage the market.” As a cGMP facility, Cytovance offers customers a manufacturing process that produces drugs that can go straight into humans for clinical trials or commercial drug use. And with the 10 scientists on its staff, the company provides product development, creating new cell lines for clients. A third major service is that of cell banking, which ensures a certain supply of cell lines for future therapeutic development use by clients. Cytovance also has established relationships with its Research Park neighbors, including a collaboration with Hyalose LLC, which won a $1.23 million EDGE Endowment grant. The deal calls for Cytovance to provide space for large fermentation equipment that Hyalose will use to develop its synthetic HA sugar molecule manufacturing process. “The Hyalose process gives us an opportunity to get into another kind of manufacturing,” Head said. “We are able to scale them up and meet their needs long term. It’s going to be a neat project, and we are really excited about it.” “And we have three projects sitting right behind it, all that can use that reactor.” Cytovance also extended its good neighbor policy to Selexys Pharmaceuticals, for which it will provide cell line development, process development and manufacturing for two antibodies the company hopes to commercialize. Phase 2 of the Cytovance business plan includes the addition of an 800 liter reactor and, eventually, a reactor up to 3,000 liters. “To get into Phase 3 (trials) and commercial products you have to have that large reactor,” Head said. “That is where you really move into the next level.” Cytovance offers a comprehensive range of development and cGMP manufacturing services for therapeutic recombinant protein and monoclonal antibody products derived from mammalian cell culture. Contracts are coming to Cytovance from across the USA and other countries in Europe and Asia. This Oklahoma based company is developing a sophisticated international clientele. 11 3 Darren Head Cytovance Biologics extinguishing inflammatory disease. 12 F or half a million Americans, daily life is accompanied by searing abdominal pain, cramping and diarrhea so severe that it discourages full pursuit of activities. The condition is known as Crohn’s disease, an autoimmune condition brought on when the body’s immune system begins to attack normal tissue in the colon. There are no effective treatments for Crohn’s disease beyond antibiotics and antiinflammatory drugs that bring temporary relief at best. Help for Crohn’s disease patients may be on the way through a drug under development in the Research Park laboratories of Selexys Pharmaceuticals. Building on groundbreaking technology developed in the OUHSC and OMRF laboratories of Drs. Rod McEver and Rick Cummings, Selexys is pushing its therapeutic treatment toward clinical trials needed for FDA approval. “All of the science at Selexys is focused on developing inhibitors of the selectin pathway of inflammation,” said Selexys CEO Dr. Scott Rollins. “We are developing humanized monoclonal antibodies that bind to selectin molecules and block their function, thereby blocking one of the major inflammation cascades.” Rollins is an Oklahoma native who cofounded Connecticut-based Alexion Pharmaceuticals in the early 1990s and developed and commercialized a groundbreaking, FDA approved drug. That drug, Soliris, treats a rare blood disease known as PNH. Along the way Alexion raised more than $800 million in public and private placements and today has a market cap of $2.6 billion. Rollins returned to Oklahoma in early 2008 to lead the development and commer- cialization efforts of Selexys. The company has raised about $3.5 million to move its drug development forward and expects to file an investigational new drug application with the FDA within a year. That will begin the long process of clinical trials to prove the effectiveness of a drug that also shows promise in treating Sickle Cell disease and a host of other inflammatory diseases. “Crohn’s disease is a $2 billion to $3 billion market, and Sickle Cell disease market is about a billion dollar market,” Rollins said. “Those are big, big markets.” But it won’t be accomplished without serious financial backing. “The biggest obstacle is fund raising,” Rollins said. “I would say we are probably five to seven years from commercial launch for a selectin inhibitor.” 4 4 13 Dr. Scott Rollins Selexys Pharmaceuticals major hope. major disease. 14 A lzheimer’s disease robs its victims of their memories, their ability to live independently and, eventually, their life. It cuts across all ethnic groups and knows no geographic boundaries. Alzheimer’s presents an enormous challenge for the world’s health care and medical research community, claiming increasing numbers of victims as average age of the world population increases. “It is a terrible disease,” said Dr. John Hey, vice president for discovery and preclinical development with CoMentis, the San Francisco-based company that operates a large research laboratory in the Research Park. “Tragically, it’s one of the most rapidly growing diseases because the incidence increases as the percentage of elderly in the population advances. Estimates are that upwards of 10 percent of the population over the age of 65 will develop the disease, and the percent rises to over 40 percent by 85 years of age. The numbers are staggering and the human health toll on patients, family, caregivers and society is enormous. There is no cure available”. Such is the enormity of Alzheimer’s disease that Tokyo-based Astellas Pharma Inc. invested almost $800 million in 2008 in a collaborative agreement with CoMentis to advance a promis- ing drug known as CTS-21166. It’s a big bet on an Alzheimer’s drug that has its roots in the Oklahoma Medical Research Foundation laboratory of Dr. Jordan Tang, who along with fellow researcher Dr. Arun Ghosh of Purdue University discovered a key brain enzyme responsible for the generation of a toxic protein, beta-amyloid, that deposits in the brain of Alzheimer’s patients slowly over time forming plaques, and is crucial for development of Alzheimer’s disease. “All of this technology has grown out of Dr. Tang’s work at OMRF and Dr. Ghosh,” said Hey, who earned his Ph.D. in Pharmacology at the University of Oklahoma Health Sciences Center in 1986 and has worked in pharmaceutical drug development for 20 years. “The scientists at CoMentis are building upon these ground-breaking discoveries with the goal of developing a disease modifying drug that will stop the progression of the disease. To do this we have built a world class research and drug development engine focusing on Alzheimer’s disease here in Oklahoma.” The drug under development aims to halt the progression of Alzheimer’s in patients, which represents hope for a cure. Building on Dr. Tang’s foundational work we are designing and developing compounds that selectively target and block the brain enzyme responsible for the biochemical cascade that underpins the disease. In experimental animals that have features of the disease our compounds block the disease from progressing and maintain brain function. “What we have done is taken those innovative discoveries and original compounds that Dr. Tang and Dr. Ghosh have come up with and built in all the properties needed to make a good drug. CTS-21166 is the result of this intense drug development work,” Hey explained. CoMentis is a successor to Zapaq, a company created to advance their discoveries and funded by various venture capital groups. Today it employs 23 researchers in Oklahoma City and is expanding its presence in the Research Park with 23,000 square feet of new lab space at 865 Research Parkway, which opened in 2009. Astellas’s investment is expected to carry the company’s drug development through the lengthy clinical trials required to prove its effectiveness. CoMentis has phase I clinical studies already under way in Australia and the U.S. “CoMentis is one of the best-kept secrets in Oklahoma,” Hey said. “We have one of the leading Alzheimer’s drug research and development operations in the world right here.” 5 5 15 Dr. John Hey CoMentis alarming inventions. 16 F or the 70 million Americans who live with hearing loss, the high-pitched tone of a smoke alarm offers no protection in the event of a fire. The sound frequency is far above their range of hearing, and the alarms are placed on a ceiling or high on a wall that is not in proximity to, say, a bed. “Last year, 3,500 people died in fires,” says Dr. David Albert, founder and chief technology officer at Lifetone Technology, a wholly owned subsidiary of InnovAlarm Corp. “Most died at night and died of smoke inhalation.” So Albert invented a device that changes the dynamics of the fire alarm technology. The long-time inventor and serial entrepreneur developed a device that listens for the signals of conventional smoke alarms, and when it detects one emits its alarm on loud broadcast in much lower frequencies. Over the last four years, Albert has won 10 patents for his low-frequency fire alarm products and created the company, Lifetone Technology, to commercialize it. “We have two major revisions to the US fire alarm code that I’ve been a part of,” Albert said. “I was part of a group that got the US government to fund three studies to see if there is a better way to wake people up who are at risk.” Turns out there is. Lifetone Technology will begin selling Lifetone HL™ in 2009. Bedside Fire Alarm and Clock through a network of retailers that specialize in servicing the hearing impaired population. First units will retail for approximately $200 each. “We now have this fully functional alarm clock that you put at your bedside,” Albert said. “It has a lot of unique features that are focused on safety compared to the alarm you have at your bedside now.” Sitting in his Research Park office, Albert picked up a prototype Lifetone HL model that looks very much like a traditional alarm. The Lifetone HL features a large digital display that spells out “FIRE” in the event of an alarm. It also includes more than seven days of battery backup, as well as a “bed shaker” for users with complete hearing loss. Albert worked closely with the Underwriters Laboratories to meet their requirements for UL certification and even helped rewrite National Fire Protection Association code that now specifies alarms at lower frequencies because they are proven to more effectively wake people. Lifetone employs eight people, including engineers from both the University of Oklahoma and Oklahoma State University. The market potential for the product is much larger than the hearing loss population. Potential users include the elderly, families with young children, people who may take sleeping pills and even college students who may go to sleep intoxicated and can’t be awakened by traditional smoke alarms. “Our newly hired national sales manager is already making sales calls and getting phenomenal reception,” Albert said. The next step for Lifetone Technology is a unit that also includes a carbon monoxide alarm monitor, as well as eventually one that includes a weather radio to monitor for weather threats. Albert tosses a traditional smoke detector onto the desktop where he is sitting. “You know what this is?” he asked. “It is incredibly cheap insurance. Our product is nothing more than a little better inexpensive insurance that is scientifically proven.” 17 6 Dr. David Albert Lifetone Technology pure. science. 18 T he human immune system is triggered to defend the body by its own alarm system composed of proteins known as HLA – Human Leukocyte Antigen – according to Dr. William Hildebrand. Sometimes the immune system responds appropriately to viruses or cancer cells and mounts an attack on the intruders. But sometimes the response is a harmful false alarm, such as when the body rejects an organ transplant. A researcher and professor at the University of Oklahoma Health Sciences Center, Hildebrand discovered a way to produce HLA proteins in the mid-1990s. “We began to have a lot of success producing this alarm system so we could characterize good and bad immune responses,” Hildebrand said. “At the same time, people began to say ‘if somebody could make this (HLA protein), we could begin to make organ transplants more successful. ’” Hildebrand’s timing couldn’t have been better. State Questions 680 and 681 had recently passed, which made it easier for universities and faculty researchers to transfer technology to private companies. Hildebrand’s technology became the foundation for Pure Protein, L.L.C. through a license from OU. The intellectual property protection process began immediately using the local patenting firm Dunlap, Codding, and the technology has developed with support from OCAST through the OARS program, investment from Emergent’s Oklahoma funds and sales revenue. “We were the first ones to start a company out of the Health Sciences Center after those state questions passed,” said Hildebrand, who today serves as Chief Scientist for Pure Protein. More than 10 years later, Pure Protein is a successful, Research Park-based company that is producing HLA proteins commercially used for both transplantation and vaccine applications. Two subsidiaries – Pure Transplant Solutions and Pure Vaccine Solutions – were spawned to commercialize the technology in both those areas. Researchers are finding even more use of Hildebrand’s immune-alarm system technology. Pure Protein recently signed a deal with a company that will begin making an HLA protein-based assay this year for an often-fatal blood transfusion condition known as TRALI – transfusion related acute lung injury. “It’s equivalent to having an organ rejection from a transplant, but your body is actually rejecting the blood,” said Bill Strieber, an Emergent Technologies official who serves as executive vice president for Pure Protein. The TRALI assay is expected to be launched by the Pure Protein partner company in July (2009) and is projected to be a $200 million market. It is anticipated that blood banks will make wide use of the new technology. “With this order for production of our proteins, we’ve reached a new phase in a true production capacity,” Hildebrand said. “Launching new products within nine months, that’s a big step for us.” 7 7 19 Dr. William Hildebrand Pure Protein, LLC prosthetic. technique. 20 O ne constant has always remained in the evolution of prosthetics: the person who wears an artificial limb must adapt to the physical demands of the device. OrthoCare Innovations is at the forefront of an industry revolution that is pioneering prosthetics that adapt to the wearer. “Currently, most prosthetic devices are comprised of static, inert, components that are not compatible with patients’ physiology,” said OrthoCare CEO Doug McCormack. “They are not forgiving, nor do they change shape or form to adjust to physiological changes in patients, to environmental factors or barriers that a patient might encounter. So, it really requires the patient to adapt to the prosthesis.” McCormack knows first-hand the challenges faced by amputees. He has worn a prosthetic limb since losing his left leg to cancer as a teenager. He has experienced the heat that builds up in the socket where the leg connects to the artificial device. He knows how it feels when a prosthetic knee does not keep pace or buckles at inopportune times while walking. OrthoCare’s ComPAS – Computerized Prosthesis Alignment System – is a giant step toward changing the prosthetic paradigm. “The ComPAS system helps you walk in a more normal gait and helps eliminate, or at a minimum reduce, co-morbidities associated with wearing a prosthesis, such as lower back pain,” McCormack said. “A lot of issues come into play when your device isn’t aligned properly.” Alignment technology is but one of several areas of prosthetic innovation in which OrthoCare is focused. “We are looking at an adaptive socket that changes shape and form to provide a better fit and better function for patients,” McCormack said. “We will be exploring complete microprocessor controlled limb systems that enable the device to really change with the patient.” OrthoCare came to the Research Park in April 2008 with its purchase of Martin Bionics, which already was located here. The medical device and product development company has since won a $1.6 million EDGE Endowment grant that will allow it to begin full scale production and marketing of its ComPAS system and other prosthetic technologies. As part of its EDGE proposal, OrthoCare pledged to establish its corporate headquarters in the Research Park and employ as many as 115 people here within three years. It also is relocating local operations to 840 Research Parkway and expanding its space to approximately 14,000 square feet to facilitate manufacturing of the high-tech prosthesis system. “We anticipate getting into the new space and immediately begin to produce the initial products we have ready for market,” McCormack said. The first customer for the new alignment system is the Department of Defense. OrthoCare also has an understanding with the Veterans Administration to roll the technology out in 12 cities. “We will be doing all final production, assembly and testing here in Oklahoma at the Research Park,” McCormack said. “PHF has been our biggest champion and has made our decision to locate OrthoCare’s operations here an easy one.” 8 8 21 Doug McCormack OrthoCare Innovations case. studies. 22 W hen the medical world sought clues to a series of mysterious deaths last year related to the blood thinner Heparin, a team of Oklahoma City scientists was among the experts asked to investigate. Evidence was examined at the Research Park laboratories of Analytical Research Laboratories, where scientists have weighed evidence in myriad other cases that range from drug formulations to deadly medication errors to development of new drugs to fight disease such as cancer. Founded in 1994, Analytical Research Laboratories is a science company with highly educated and skilled employees who provide pharmaceutical services and testing for clients. “We have a lot of big pharma clients, as well as hospital research institutions such as the Mayo Clinic and Duke University,” said Dr. Tom Kupiec, CEO of Analytical Research Laboratories and two related companies also located in the Research Park. Also under Kupiec’s umbrella of knowledge-based companies are DNA Solutions and the Kupiec Group. “We are commercializing a service and knowledge-based information in the areas of pharma, genetics and forensics,” he said. “In this technology pipeline from basic research to applied research to technology transfer to commercialization, you are either going to have to commercialize a product or a service. Our commercialization product is a service in the area of scientifically tested information.” Business is booming for the niche market companies. For example, DNA Solutions experienced 30 percent revenue growth in 2008. DNA Solutions, begun by a group of Noble Foundation scientists and acquired by Kupiec in 2000, provides genetics testing on both plant, animals and humans. “Its core competency is genetic testing, genetic analysis,” Kupiec said. “We do that through human DNA testing, animal DNA testing, forensics and R and D, which is diagnostics. We are considered a national leader in animal genetics testing.” The Kupiec Group, incorporated in 2006, provides forensics expertise to the legal community. Kupiec and his team of forensic experts have provided testimony in more than 130 court cases nationwide. Kupiec’s knowledge-based companies employs 40 highly skilled people who work closely with other Oklahoma institutions such as the OU Health Sciences Center to bring federal research dollars into the state. “I want to be the largest biotech firm in this region of the country,” he said. o n t h e e d g e Tom Kupiec serves as a member of the EDGE policy board, which last fall made the first awards from the $150 million EDGE Endowment fund. The nine-member board provided $12 million in grants to Oklahoma-based researchers and entrepreneurs. The five projects funded showed promise for creating jobs and economic development in the state. Kupiec, CEO of DNA Solutions and Analytical Research Laboratories, wants to see the EDGE Endowment continue to grow into the $1 billion originally envisioned for it. “I would like to see the EDGE funding come to culmination,” Kupiec said of the EDGE Endowment. Oklahoma City created a template for success with the MAPs project from the 1990s that resulted in new venues and economic development in the city. “We’re benefitting now from our forefathers and city leaders paying the price,” he said. “That’s why we have the canal, have the arts, have the Thunder. “We have all this going on in Oklahoma City because someone thought ahead.” Three of five EDGE awards were made to companies that are located in the Research Park. The awards to Research Park companies were: A cooperative funding proposal to produce sugar-based therapeutics by Hyalose and Cytovance Biologics, Dr. Paul DeAngelis, principal investigator, $1.237 million; A proposal to use nanoparticle-mediated drug delivery for treatment of diabetic retinopathy by Charlesson, Dr. Jian-xing Ma, principal investigator, $2.86 million; And a proposal to develop the Limb Restoration Institute and manufacture advanced prosthetic devices by OrthoCare Innovations, Dr. David Boone, principal investigator, $1.6 million. 9 23 Dr. Tom Kupiec ARL Laboratories synergetic. science. 24 A ltheus Therapeutics is rooted in University of Oklahoma Health Sciences Center research into inflammatory bowel disease, a painful condition that afflicts more than one million Americans. In observing the effects of different drugs on a disease known as colitis, Dr. Richard Harty conceived an idea that eventually became Altheus. He noted that the two drugs appeared to work significantly better when administered together rather than as stand-alone therapies. “Those observations opened up a series of questions about how this might be applied to individuals with inflammatory bowel disease such as ulcerative colitis and Crohn’s disease,” Dr. Harty said. “That started the development of Altheus and the path we are on now.” Harty took his idea to OU’s office of research administration, which pointed him to i2E, the not-for-profit corporation that maintains its headquarters in the Research Park. The wheels were turning and Altheus was created about three years ago. Today, the biopharma company is located in the Research Park with Dr. Harty serving as its chief scientific officer. Trained in internal medicine, Harty formerly was the chief of Division of Gastroenterology in the Department of Medicine at the OU Health Sciences Center. Altheus is working to develop and commercialize drug combination therapies for treating inflammatory bowel disease that includes both oral and enema products. Both of the drugs it is working to combine are FDA approved and generic. Dr. Dennis Hair is director of product development for Altheus. “We have this synergistic combination that is very exciting,” Dr. Hair said. “The idea is to start with the basic chemistry and ask the questions, how do they interact; do they form any reactive side products; how do we make the drug stable; how do we make it safe for people?” All those questions must be answered in a series of clinical trials before FDA approval is won for a treatment that could benefit more than a million people suffering from inflammatory bowel disease. Altheus has raised about $5.2 million to begin the long trial process, and Harty hopes to win FDA approval for clinical trials within the next year. The big challenge, Dr. Hair said, is “time and money.” “We do have a lot of confidence in these products,” he said. “Of course, you can never predict how they are going to perform in humans. But it takes time to get there and it takes money to get there.” In the meantime, Altheus has benefited from the backing of its executive board and the support of like-minded colleagues in the Research Park. “We have the benefit of seeking counsel from colleagues within our scientific community here,” Dr. Harty said. “We’ve invited people over and had conversations. It’s just amazing to have this group of people here.” 10 25 L to R: Dr. Dennis Hair, Dr. Richard Harty Altheus PHF Supports Basic Medical Science •OUCI •PhysicianScientists •EndowedBiomedicalChairs 26 Oklahoma University Cancer Institute H ope for cures and treatment is coming closer to home. OUCI is the only comprehensive cancer treatment center in the State of Oklahoma that has the designation as a National Cancer Institute. There are only sixty-three such designated institutes serving fifty states in the U.S. Formerly, the closest comprehensive cancer institutes involved travel to Houston, St. Louis or Albuquerque, if one wanted to have the highest standard of care and treatment. Now, Oklahoma City is the base of the OUCI, a $210MM project at the Health Sciences Center. PHF has contributed $4MM to this program headed by Robert Mannel, M.D., OUCI Director, and Associate Director, Wade Williams, Ph.D. OUCI means Oklahomans will have state of the art treatment, including certain types of clinical trials that will not be available anywhere else in the state. Cancer kills more people under 85 years of age than any other disease. Hope has just moved closer to home. World renown research and clinical experts are being recruited to the OUCI. For example, Dr. Danny Dhanasekaran, a researcher from Temple University in Philadelphia is one of America’s leading research scientists in cancer. His portfolio includes over one million dollars a year in federal funding because of the quality of his research. Dr. Dhanasekaran is the new Deputy Director of OUCI. The Oklahoma Legislature acknowledged the need of a National Institute of Health, National Cancer Institute designated cancer center. The bill passed supporting this effort called on OU to “provide statewide leadership in cancer research, prevention, information and treatment, and seek to gain national recognition for excellence in the fight against cancer by being named as a comprehensive cancer center by the National Cancer Institute.” Now, this mandate is becoming a reality. 27 PHF Supports Basic Medical Science •OUCI •PhysicianScientists •EndowedBiomedicalChairs 28 Physician Scientists at Oklahoma University & Oklahoma Medical Research Foundation O ne of the principle grants of PHF ($5MM) funds part of the MD/ PhD Program at the University of Oklahoma. This academic and research experience trains new physician scientists. OU and OMRF are co-administrators of the program. Our grant provides a $25,000 stipend per year per student. The MD/ PhD Program consists of two years of medical school curriculum followed by three or four years of graduate study and dissertation research leading to a Ph.D. degree. Two years of clinical studies in the College of Medicine lead to the M.D. degree. Several of the outstanding research faculty members of OUHSC and OMRF are graduates of this program. For example, Dr. Judith James of OMRF (with Dr. Patrick Wilson) received international acclaim for cloning a molecule that targets a specific infectious disease. The scientific journal, “Nature,” published the findings of this team in April 2008. Dr. James was in the first MD/PhD graduating class funded by PHF. 29 M. Dewayne Andrews, M.D., MACP, Executive Dean OU College of Medicine (standing) with MD.PhD. students Lauren Cole, GS1 and Adam Hoffhines, MS3 PHF Supports Basic Medical Science •OUCI •PhysicianScientists •EndowedBiomedicalChairs “10x ROI” Presbyterian Health Foundation GrantsforEndowmentsofChairsandProfessorships at the University of Oklahoma 30 P resbyterian Health Foundation has supported 37 Chairs and Professorships, and 3 annual PHF “Presidential Professor” awards at the University of Oklahoma. The total dollar amount invested in these endowments is $33,068,000, according to the most recent accounting of the University of Oklahoma Foundation. “The Power of Ten:” for every dollar PHF invested in OU professor/scientists, more than ten dollars has come into the State of Oklahoma from outside sources. Some of the research scientists, in the following list, have garnered $5MM, $10MM, $12MM and over $20MM in research grants from out of state sources. This has been a 10x ROI (return on investment) for the Foundation, the University, and for the State of Oklahoma. College of Medicine Arnold and Bess Ungerman Chair in Psychiatry Holder: Dr. Robert B. Nisbet CMRI/Shaun Walters Chair in Developmental and Behavioral Pediatrics Holder: Dr. Mark L. Wolraich Bob G. Eaton Chair in Radiological Sciences Holder: Dr. Susan M. Edwards Dr. and Mrs. W.W. Kerley and Mrs. Cash Cade Chair in Cancer Clinical Research Holder: Dr. C.V. Rao Chair in Child Neurology Holder: Dr. Julie T. Park Ed Miller Chair in Molecular Biology Holder: Dr. Paul Weigel CMRI/C.R. Anthony Centennial Chair in Pediatric Pulmonology Holder: Dr. James A. Royall Frances and Malcolm Robinson Chair in Gastroenterology Holder: Dr. Courtney Houchen CMRI/Jean Gumerson Chair in Clinical Child Psychology Dr. Barbara L. Bonner Francis Duffy Professorship of Oncology Holder: Dr. Mark Huycke CMRI/Presbyterian Health Foundation Chair in Pediatric Graduate Medical Education Holder: Dr. Joan Parkhurst Cain G. Rainey Williams, M.D., Chair in Surgical Breast Oncology Holder: Dr. William C. Dooley Harry Wilkins, M.D., Chair in Neurosurgery Holder: Dr. Timothy Mapstone 31 James P. Luton Chair in Ophthalmology Holder: Dr. Gregory L. Skuta James A. Merrill Chair in Obstetrics and Gynecology Holder: Dr. Joan L. Walker M.G. McCool Chair in Ophthalmology (no incumbent) Patricia Price Browne CMRI Distinguished Chair in Pediatrics Holder: Dr. Terrence L. Stull Presbyterian Health Foundation Chair in Neuroscience Holder: Dr. Beverley Greenwood-Van Meerveld Presbyterian Health Foundation Chair in Otorhinolaryngology Holder: Dr. Lurdes Queimado Presbyterian Health Foundation Chair in Microbiology/Immunology Holder: Dr. William H. Hildebrand Professor of Psychiatry Education Holder: Dr. Theresa S. Garton Stewart Wolf Chair in Internal Medicine Holder: Dr. Michael Bronze Warren M. Crosby, M.D., Chair in Obstetrics and Gynecology Holder: Dr. Elisa A. Crouse Professorship of Obstetrics/Gynecology Medical Student Education Holder: Dr. Gary A. Johnson Professorship of Microbiology (no incumbent) Presbyterian Health Foundation Chair in Pathology Presbyterian Health Foundation Presidential Professor Awarded Annually Presbyterian Health Foundation Presidential Professor Awarded Annually Presbyterian Health Foundation Presidential Professor Awarded Annually Virginia Kerley Cade Chair in Cancer Development Virginia Kerley Cade Chair in Cancer Treatment Holder: Dr. Scott McMeekin College of Allied Health (no incumbent) Ann Taylor Chair in Pediatric and Developmental Disabilities in Physical Therapy Holder: Dr. Irene McEwen Chair in Gynecologic Oncology Stuart Coulter Miller Professorship of Allied Health Holder: Dr. P. Kevin Rudeen Chair in Perinatal Research College of Dentistry CMRI/Edith Kinney Gaylord Chair in Pediatric Diabetes Holder: Dr. Steven Dwight Chernausek Professor of Dentistry (no incumbent) CMRI/James Paul Linn Chair in Pediatrics William E. Brown Chair in Dentistry Holder: Dr. Theresa White Elizabeth Merrick Coe Chair in Breast Imaging James D. Funnel, M.D. – Gary F. Strebel, M.D. Dr. Russell J. Stratton Chair in Dentistry Holder: Dr. Nancy L. Jacobsen gifts received 32 Name Fund Donations: Mike & Lolly Anderson Mr. & Mrs. Blake Arnold Mr. & Mrs. Robert F. Browne Drs. J. Donald & Patricia H. Capra Mr. & Mrs. Kent Carlin Tom & Lois Godkins Mr. & Mrs. Clyde Ingle Judy & Dennis McGrath Friends for Life Donations: Richard Alvarez Bill & Kathy Amalong Analytical Research Laboratories Dr. Petar & Alexandra Alaupovic Gene Binning Dr. & Mrs. John L. Boland Kent Carlin Commercial Real Estate Cytovance Biologics Darr & Collins Richard Dotter, M.D. Ramsey & Susan Drake Ford & Vanessa Drummond Robert Ellis, M.D. Colin & Mary Fitzsimons Rodney Foster Grande Oil & Gas Donald B. Halverstadt, M.D. i2E Willa Johnson L.M. Johnston, Ph.D. Midwest Maintenance Miles Associates Nexus Media Don & Suzy Nicholson Oklahoma City Chamber of Commerce OG&E Electric Services Oklahoma Medical Research Foundation ONG OU Medical Center Thelma R. Parks Price Edwards & Company Quantum Consulting Duane Rictor Streets University of Oklahoma Foundation Kirstin & Ali Barr Nicole Barr Anderson Lee Kirstin Lee Charlie & Sam Sandefer Laura Sandefer Anna, Abby & Lucy Webb Michelle Webb Mike & Lolly Anderson Memorial Donations: Honoree Name/Donor Name Mary Conner Allen Mr. & Mrs. Gene Binning Friends Honoring Friends Donations: Honoree Name/Donor Name William G. “Bill” Bailey Mr. & Mrs. Gene Binning Mike Anderson Lolly Anderson Bettye Bell Mr. & Mrs. Gene Binning Dr. John & Lillian Boland Robert & Karen Browne Jane Hogg-Krizer Dick & Mary Clements Dr. & Mrs. Robert Ellis Betty Catching Mr. & Mrs. Tom R. Gray, III Lolly Anderson Melissa Kizer Judy & Dennis McGrath Gail Chapman Haynes Presbyterian Health Foundation Lolly Anderson Bill Berger Constance Ingles Judy & Dennis McGrath Lolly Anderson Lorraine S. Black Klee, Sally Ashley & Mallory Black Patricia Bowdell Judy & Dennis McGrath Mr. E.L. Brooks W.C. Payne Foundation Russell E. Caston, Jr. Mr. & Mrs. Tom R. Gray, III Robert M. Catching Lolly Anderson Bettie Curtis Mr. & Mrs. Earl Ingram, III William Earl Dahlgren Mr. & Mrs. Gene Binning E.J. Dixon Judy & Dennis McGrath Catherine Dobelbower Judy & Dennis McGrath Jim Dolman Mr. & Mrs. Don Nicholson, II Richard G. Dotter, M.D. Dr. & Mrs. Barton Carl John O. Colton Mr. & Mrs. James Davis Jim & Christy Everest Melissa Kizer Judy & Dennis McGrath Presbyterian Health Foundation Dr. & Mrs. Jerry Vannatta William Egolf Dr. & Mrs. H. Wallace Vandever Rev. Ernest A. Flusche Judy & Dennis McGrath Arch Jack Mike & Lolly Anderson Mr. & Mrs. Van Barbert Mr. & Mrs. Gene Binning Mr. & Mrs. Jordan C. Braun Coggins Family Luann Cravens Jerry Dickinson Mr. & Mrs. Carl Edwards Melissa Kizer Judy & Dennis McGrath Mr. & Mrs. Dwight T. Mitchell, Jr. Presbyterian Health Foundation Mr. & Mrs. David Vance Oklahoma City Chamber of Commerce James Work Connor McGrath Mike & Lolly Anderson Mr. & Mrs. Kent Carlin Bebe Dotter Dr. & Mrs. Robert Ellis Jim & Christy Everest Mr. & Mrs. Tom R. Gray, III Melissa Kizer Presbyterian Health Foundation David & Kim Rainbolt Ellen Sembe Dr. & Mrs. Jerry Vannatta Victor R. Schuelein Mr. & Mrs. Gene Binning Goldie McKelvy Mrs. Gilbert Adler Marguerite Sears Mr. & Mrs. Gene Binning Dr. Victor A. McKusick Drs. John & Charlotte Mulvihill Zach Taylor Mike & Lolly Anderson Mr. & Mrs. Tom R. Gray, III Jack E. Franklin Mrs. Joan N. Fleetwood, Polly & Elizabeth William R. Jackson, Jr. Dr. & Mrs. H. Wallace Vandever Virginia Gill Mr. & Mrs. Tom R. Gray, III Eva Norine Kazan Miles Associates Frank Golzen Charles & Kay Wells Charles Kemnitz Mr. & Mrs. Ron Graber Jean Gumerson Jane Hogg-Krizer June Kimberling Mr. & Mrs. Gene Binning Johnny Dale Hankins Mr. & Mrs. Byron Gambulos Don Lippert Mr. & Mrs. Gene Binning Jeannine Rainbolt Mike & Lolly Anderson Joanna M. Champlin & Shawnee Brittan Melissa Kizer Judy & Dennis McGrath Presbyterian Health Foundation Dr. & Mrs. Jerry Vannatta Mary Heaton Kay Sherwood Donald “Don” Manners Mr. & Mrs. Gene Binning Harold Reedy Mr. & Mrs. Gene Binning Myrna Bayles Howard Don & Sally Sappington John W. Nichols Mr. & Mrs. Claude Arnold Mr. & Mrs. Gene Binning Mr. & Mrs. Cliff Branan Marianne C. Rowsey (Mrs. Paul E. Rowsey, Jr.) Mrs. Joan N. Fleetwood, Polly & Elizabeth James W. Sherburne Mr. & Mrs. Gene Binning Mr. Richard S. Sidwell Mildred I. Sidwell Harry Singleton, M.D. Mike & Lolly Anderson Mr. & Mrs. Gene Binning Dana Waits Gayle Harris Dr. David Watson Mrs. Joan N. Fleetwood, Polly & Elizabeth Viola Walker Tom D. Walker Romanie Walter Judy & Dennis McGrath William Fredric “Bill” Williams Mr. & Mrs. Gene Binning 33 PHF Board of Trustees 34 Carl Edwards, Chairman Michael D. Anderson, Ph.D. William F. Barnes, M.D. William M. Beard Robert S. Ellis, M.D. Christy Everest Clyde Ingle Michael E. Joseph Dennis McGrath David Rainbolt Harry B. Tate, M.D. Jerry B. Vannatta, M.D. G. Rainey Williams, Jr. Stanton L. Young Tom R. Gray, III Advisory Trustee C O R P O R A T E B O A R D Includes all Trustees and the following members: Ray H. Potts William M. Bell Madeleine Cunningham, Ph.D. Randy Hogan Jeanne H. Smith G.T. Blankenship James F. Davis Jill King Karen Browne John Gruel, M.D. William Liedtke III Ted Clemens, Jr., M.D. Donald B. Halverstadt, M.D. Polly Nichols STAFF Michael D. Anderson, Ph.D. President /CEO Dennis McGrath Vice President/CFO J.R. Caton Vice President/Research Park Melissa Kizer Administrative Assistant Judy Jones Secretary 35 In Volume II of the Power of Ten, we shall profile ten more science companies in the PHF Research Park. These companies are producing novel therapeutics and innovative diagnostics that promise very significant rewards in human health and well being. Look for the profiles on: Advancia Biolytx Choncept Crescendo Inoveon Nomadics SIWA Swaasth Therametics TRI Volume III will consist of profiles on all other companies and agencies in the PHF Research Park. make a contribution Tax-deductible gifts to the Presbyterian Health Foundation are used to support medical research, education and health programs. Only income generated by these gifts is used, so donations serve Oklahoma health needs in perpetuity. You can contribute to the Presbyterian Health Foundation through: 36 •FriendsForLifeannualgivingprogram •AWillForLifeenhancinghealthcareforothers through your will •FriendsRemembranceProgramtohelpyou encourage your friends in joy or sorrow, to celebrate or console Your contribution will make a difference in the quality of life and health care, today and tomorrow. Contributions can be made online at: www.phfokc.com, or phone us at 405.319.8150. Thank you. This report is printed on 30% post consumer fiber paper. Printed with 100% vegetable ink. Design by Hit LLC: www.thehitshow.com Photography by Joseph Mills: www.josephmills.com 37 The mission of Presbyterian Health Foundation supports medical research and development that saves and enhances human life. 38 www.phfokc.com www.phfresearchpark.com 655 Research Parkway, Suite 500 Oklahoma City, OK 73104-3603 Telephone: 405.319.8150 Fax: 405.319.8168
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