Therapies Based on Extensive Neuropathic Pain Research Conducted at UC Riverside and Duke University Target Chronic Pain at Its Source: Matrix Metalloproteinases
SAN DIEGO–(BUSINESS WIRE)–October 28, 2020–
Releviate™ Therapeutics, a bio-pharmaceutical company addressing the needs of patients suffering from chronic pain, signs an exclusive license for two patent pending human monoclonal antibodies developed by researchers at the University of California, Riverside and Duke University. Pre-clinical studies suggest the RLVT-9-01 (anti-MMP-9 antibody) and the RLVT-14-02 (anti-MMP-14 antibody) could directly target the specific matrix metalloproteinases (MMPs) activating neuropathic pain pathways. Extensive recent studies implicate MMP-9, MMP-14 and MMP-2 as causes of chronic pain.
“The University of California, Riverside is proud of its role in researching this scientific advancement, and we look forward to working with Releviate Therapeutics for its next phase of study and, potentially, patient care,” says Brian Suh, director of technology commercialization at the University of California, Riverside.
50 Million Americans Need an Effective Chronic Pain Treatment
Chronic pain afflicts approximately 50 million adults (20%) in the U.S. each year, according to an analysis by the U.S. Centers for Disease Control and Prevention (CDC). According to BCC Research, “the global market for pain management will grow from nearly $36.1 billion in 2017 to $52.0 billion by 2022.” Until now, there hasn’t been a major breakthrough treatment for moderate to severe neuropathic pain conditions since opioids were introduced in 1806, and these are not a sustainable solution for most people, especially in light of the worsening opioid crisis in the U.S. Alternative therapies in this field include repurposed anti-seizure and anti-depressant medications. However, these groups of medications have very limited efficacy in patients with neuropathic pain.
Releviate Therapeutics is using the exclusively licensed RLVT-9-01 and RLVT-14-02 molecules to address unmet needs in chronic pain. RLVT-9-01 targets MMP-9, which recent discoveries implicate as a switch that turns on acute neuropathic pain. RLVT-14-02 targets MMP-14, which has been implicated in triggering chronic neuropathic pain. Releviate Therapeutics will initially investigate the safety and efficacy of blocking each or both MMPs – first for patients with small fiber neuropathy (SFN) and next for patients with diabetic neuropathy (DNP). The human antibody products are highly specific for MMP-9 and MMP-14, respectively, which reduces chances for severe adverse events.
“Releviate Therapeutics is well positioned with the expertise and capabilities to deliver the world’s first new class of chronic pain treatment strategies in over 200 years,” says Sergey Sikora, Releviate Therapeutics’ founder and bio-pharmaceutical industry veteran. “This agreement enables us to immediately start the next phase of our pre-clinical and clinical development of this promising technology.”
About Releviate Therapeutics
Founded in 2020, Releviate™ Therapeutics is a bio-pharmaceutical company addressing the needs of patients suffering from chronic pain. Our treatment strategy deploys specific human monoclonal antibodies to inactivate certain matrix metalloproteinases – MMP-9 and MMP-14 – and potentially improve patient outcomes. Unlike traditional chronic pain medication strategies, Releviate Therapeutics directly targets pain with antibodies whose development is rooted in actual pain pathology and in directly inactivating pain pathways. Initial indications address small fiber neuropathy and diabetic neuropathy. The company has headquarters in San Diego, California, and can be visited online at www.releviatellc.com.
Releviate™ and its logo are trademarks of Releviate Therapeutics in the U.S. and other countries. All other trademarks and registered trademarks are the property of their respective owners.
How startups are scaling communication:
The pandemic is making startups take a close look at ramping up their communication solutions. Learn how