Technologies
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WiSys: T09021US02

Benzodiazepine Derivatives with Reduced Side Effects for Treatment of Neuropathic Pain


INVENTORS -

James Cook, Rahul Edwankar, Shengming Huang, Zhi-Jian Wang, Ojas Namjoshi

OVERVIEWNeuropathic pain encompasses a wide range of painful conditions of diverse origins, including diabetic neuropathy, post herpatic neuralgia, post-surgical nerve injuries and many others. Currently there are five approved drugs on the market to treat the diversity of neuropathic pain conditions; however, they are not effective for all patients and may have adverse side effects.
THE INVENTIONResearchers at the University of Wisconsin-Milwaukee have developed new benzodiazepine derivatives useful in the treatment of neuropathic pain with reduced sedative and ataxic effects. GABA is the major inhibitory neurotransmitter in the central nervous system. Non-selective benzodiazepine drugs, such as valium, act by enhancing the inhibitory effects of GABA at GABAA receptors in the CNS. These drugs broadly target GABAA receptors containing a1, a2, a3, or a5 subunits.

Recently, it was discovered that the various effects of non-selective benzodiazepines are specifically mediated through certain a subunit-containing GABAA receptor populations in the brain. a1-containing GABAA receptors control sedation, whereas the anti-anxiety and anti-pain activity works mainly through a2 and a3 receptors. a5 receptors play critical roles in learning and memory consolidation.

The inventors of this technology have produced GABAA receptor agonists specific for a2 and a3 receptors. Because the compounds do not affect a1 receptors, they have significant neuropathic pain protection without sedative and ataxic effects. In addition, the compounds are anxiolytic and anti-convulsant. The inventors are carrying out pre-clinical testing of these compounds by conducting in vitro studies and animal studies in rats, mice and monkeys. These compounds were found to have significant neuropathic pain protection in mice and rats without causing sedation, muscle relaxation or ataxic effect.
KEY BENEFITS
  • Significant neuropathic pain protection
  • Anxiolytic and anti-convulsant
  • Reduced sedative, hypnotic, muscle relaxant and ataxic effects
STAGE OF DEVELOPMENTLead Compound Developed
Contact Information
For current licensing status, please contact Jennifer Souter at jennifer@wisys.org or (608) 316-4131.
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WiSys Technology Foundation serves the University of Wisconsin System comprehensive campuses by patenting and licensing discoveries to leading companies in Wisconsin, the United States and worldwide. Established in 2000 by the Wisconsin Alumni Research Foundation (WARF) and the UW System, WiSys is building the next generation of patent and licensing opportunities by fostering collaborations among campuses, private research organizations and industry, facilitating high-tech research with grant programs, and promoting student training for employment in a knowledge-based economy. WiSys's income is distributed to the UW campuses, the inventors and their departments to grow future discoveries and educational opportunities.