UF1DA054817
Cooperative Agreement
Overview
Grant Description
Preclinical Development of Novel Dual OXR/KOR Antagonists for Treatment of Substance Use Disorder - Abstract (Project Summary)
Substance use disorder (SUD), characterized by the repeated use of an addictive substance leading to loss of intake control, represents a serious public health and socio-economic burden with over 164 million people affected worldwide. SUD-related costs in the US surpass $750 billion USD annually, with over $272 billion of that attributed to the abuse of illicit drugs and prescription opioids. Of these, cocaine and related stimulants cause some of the most serious morbidity. More than 20% of fatal drug overdoses (2018) in the US involved cocaine, representing over 14,666 deaths. Mortality from cocaine use disorder (CUD) has tripled in the US from 2012 to 2018. Nonetheless, there are currently no approved drugs for the treatment of CUD, making it a serious global health threat and unmet medical need.
Orexin neuropeptides (OX-A and OX-B) are endogenous ligands for two GPCRs, OX1R and OX2R. Their role in sleep/wake cycle and arousal has been studied, and the use of OXR antagonists for insomnia has been clinically validated with marketed drugs for sleep disorders (i.e.: suvorexant). In addition to circadian cycle modulation, orexins also exert their effects through actions on the mesocorticolimbic dopamine (DA) system and thus are intricately involved with motivated behavior, arousal, and reward-seeking, key components of addiction behavior. While both OX1R and OX2R signaling are implicated in the sleep/arousal effects, most or all the attenuation of stress-adaptive responses and addiction/reward-seeking behavior is attributed to OX1R signaling.
First-generation OXR antagonists (suvorexant) are dual-acting (DORAs), inhibiting both OX1R and OX2R with similar potencies. Recently reported OX1R antagonist tool compounds tend to be modestly selective for OX1R (~50-fold) but possess poor physical properties. Designing ligands that can modulate two or more orthogonal signaling pathways simultaneously could provide a synergistic biological response in complicated disease states like stress-related mood disorders including depression, anxiety, and SUD. As such, the goal of this application is to develop a series of first-in-class, potent/highly selective OX1R antagonists (SORAs) as dual-targeted ligands which also modulate other targets - that would provide an innovative treatment for CUD without the sleep-inducing liabilities seen with existing DORAs. We have already discovered, and patented, potent multi-targeted preclinical small molecule leads with the following profiles: i) highly selective (>1000-fold) OX1R antagonists with dual mechanism of action and ii) OX1R-preferring antagonists which also modulate other targets.
Thus, the 1st specific aim of this U01 application is to conduct in vitro pharm profiling studies of 6 selected OX1R-dual targeted leads including microsomal stability, solubility, Caco-2 permeability, MDR1-MDCK efflux ratio, and plasma & brain protein binding, initiate a med chem multi-parameter lead optimization campaign; select up to 6 lead compounds that emerge with optimal overall profiles for in vivo PK/PD studies. The 2nd specific aim is to assess up to 2-4 emerging compounds with optimal pharmacology and PK/PD profiles in 2 rodent behavioral models relevant for CUD/SUD. The 3rd specific aim is to identify up to 2 leads and a structurally distinct backup compound which meet pre-defined metrics and perform comprehensive preclinical studies including CYP induction, met ID, transporters inhibition, CYP phenotyping, PXR activation, and human hepatocyte stability, initiate non-GMP scale-ups (50 – 200 g) of up to 2 NCES for dose range-finding studies to support rat PK/PD. The 4th specific aim is to identify and select a lead with the best overall profile to be declared as a clinical development candidate(s) and start all IND-enabling studies.
Substance use disorder (SUD), characterized by the repeated use of an addictive substance leading to loss of intake control, represents a serious public health and socio-economic burden with over 164 million people affected worldwide. SUD-related costs in the US surpass $750 billion USD annually, with over $272 billion of that attributed to the abuse of illicit drugs and prescription opioids. Of these, cocaine and related stimulants cause some of the most serious morbidity. More than 20% of fatal drug overdoses (2018) in the US involved cocaine, representing over 14,666 deaths. Mortality from cocaine use disorder (CUD) has tripled in the US from 2012 to 2018. Nonetheless, there are currently no approved drugs for the treatment of CUD, making it a serious global health threat and unmet medical need.
Orexin neuropeptides (OX-A and OX-B) are endogenous ligands for two GPCRs, OX1R and OX2R. Their role in sleep/wake cycle and arousal has been studied, and the use of OXR antagonists for insomnia has been clinically validated with marketed drugs for sleep disorders (i.e.: suvorexant). In addition to circadian cycle modulation, orexins also exert their effects through actions on the mesocorticolimbic dopamine (DA) system and thus are intricately involved with motivated behavior, arousal, and reward-seeking, key components of addiction behavior. While both OX1R and OX2R signaling are implicated in the sleep/arousal effects, most or all the attenuation of stress-adaptive responses and addiction/reward-seeking behavior is attributed to OX1R signaling.
First-generation OXR antagonists (suvorexant) are dual-acting (DORAs), inhibiting both OX1R and OX2R with similar potencies. Recently reported OX1R antagonist tool compounds tend to be modestly selective for OX1R (~50-fold) but possess poor physical properties. Designing ligands that can modulate two or more orthogonal signaling pathways simultaneously could provide a synergistic biological response in complicated disease states like stress-related mood disorders including depression, anxiety, and SUD. As such, the goal of this application is to develop a series of first-in-class, potent/highly selective OX1R antagonists (SORAs) as dual-targeted ligands which also modulate other targets - that would provide an innovative treatment for CUD without the sleep-inducing liabilities seen with existing DORAs. We have already discovered, and patented, potent multi-targeted preclinical small molecule leads with the following profiles: i) highly selective (>1000-fold) OX1R antagonists with dual mechanism of action and ii) OX1R-preferring antagonists which also modulate other targets.
Thus, the 1st specific aim of this U01 application is to conduct in vitro pharm profiling studies of 6 selected OX1R-dual targeted leads including microsomal stability, solubility, Caco-2 permeability, MDR1-MDCK efflux ratio, and plasma & brain protein binding, initiate a med chem multi-parameter lead optimization campaign; select up to 6 lead compounds that emerge with optimal overall profiles for in vivo PK/PD studies. The 2nd specific aim is to assess up to 2-4 emerging compounds with optimal pharmacology and PK/PD profiles in 2 rodent behavioral models relevant for CUD/SUD. The 3rd specific aim is to identify up to 2 leads and a structurally distinct backup compound which meet pre-defined metrics and perform comprehensive preclinical studies including CYP induction, met ID, transporters inhibition, CYP phenotyping, PXR activation, and human hepatocyte stability, initiate non-GMP scale-ups (50 – 200 g) of up to 2 NCES for dose range-finding studies to support rat PK/PD. The 4th specific aim is to identify and select a lead with the best overall profile to be declared as a clinical development candidate(s) and start all IND-enabling studies.
Awardee
Funding Goals
NOT APPLICABLE
Grant Program (CFDA)
Awarding Agency
Place of Performance
Pennsylvania
United States
Geographic Scope
State-Wide
Related Opportunity
Analysis Notes
Amendment Since initial award the End Date has been extended from 09/29/24 to 09/29/25.
Hager Biosciences was awarded
Development of Dual OXR/KOR Antagonists Treatment of Substance Use Disorder
Cooperative Agreement UF1DA054817
worth $5,598,515
from the National Institute of Neurological Disorders and Stroke in September 2021 with work to be completed primarily in Pennsylvania United States.
The grant
has a duration of 4 years and
was awarded through assistance program 93.279 Drug Abuse and Addiction Research Programs.
The Cooperative Agreement was awarded through grant opportunity Grand Opportunity in Medications Development for Substance-Use Disorders (U01 Clinical Trial Optional).
Status
(Ongoing)
Last Modified 9/20/24
Period of Performance
9/30/21
Start Date
9/29/25
End Date
Funding Split
$5.6M
Federal Obligation
$0.0
Non-Federal Obligation
$5.6M
Total Obligated
Activity Timeline
Transaction History
Modifications to UF1DA054817
Additional Detail
Award ID FAIN
UF1DA054817
SAI Number
UF1DA054817-3671874366
Award ID URI
SAI UNAVAILABLE
Awardee Classifications
Small Business
Awarding Office
75N600 NIH NATIONAL INSITUTE ON DRUG ABUSE
Funding Office
75NQ00 NIH NATIONAL INSTITUTE OF NEUROLOGICAL DISORDERS AND STROKE
Awardee UEI
N3NHX7AYNHN3
Awardee CAGE
56S02
Performance District
PA-90
Senators
Robert Casey
John Fetterman
John Fetterman
Modified: 9/20/24