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Liver Selective AMPK Activator to Treat Type 2 Diabetes

Award Information

Agency:
Department of Health and Human Services
Branch:
N/A
Award ID:
Program Year/Program:
2013 / SBIR
Agency Tracking Number:
R43ES023773
Solicitation Year:
2013
Solicitation Topic Code:
NIEHS
Solicitation Number:
PA12-088
Small Business Information
HAGER BIOSCIENCES, INC.
116 RESEARCH DR, STE 265 BETHLEHEM, PA 18015-4731
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Woman-Owned: No
Minority-Owned: Yes
HUBZone-Owned: No
 
Phase 1
Fiscal Year: 2013
Title: Liver Selective AMPK Activator to Treat Type 2 Diabetes
Agency: HHS
Contract: 1R43ES023773-01
Award Amount: $374,488.00
 

Abstract:

DESCRIPTION (provided by applicant): Organophosphate (OP) nerve agents have been deployed as weapons of mass destruction in warfare arenas and in recent terrorist attacks; posing significant risks to military personnel, civilians, first responders and healthcare provider. The classic OP nerve agents such as sarin, soman, tabun, and VX, along with related OP pesticides represent some of the most toxic materials known to humankind. Their toxicity is principally due to their ability to irreversibly bind to acetylcholinesterase (AChE) in the CNS and blood. This process deactivates AChE and renders it unable to process acetylcholine in the synapse; resulting in excitotoxic levels of acetylcholine and hypersensitization of muscarinic and nicotinic receptors. Thisoverload of excitotoxic chemicals incapacitates the victim via cholinergic toxidrome, resulting in seizures, paralysis, mucous secretions, eye irritation, cardiorespiratory depression, GI distress, and eventually, death. Additionally, OP exposure initiates a sequelae of mechanisms leading to delayed neurodegeneration in the CNS; including heightened excitotoxicity at other receptors and transporters and progressive demyelination and degradation of nerve axons. Cases of exposure to OP agents, whether intentional (warfare or terrorism) or accidental (pesticide mishandling), number in excess of 2 million per year; resulting in the deaths of several hundred thousand victims per year worldwide. Currently available countermeasures for OP poisoning involve the simultaneous administration (via autoinjectors) of three different agents: (1) an anticholinergic agent, (2) an anticonvulsant agent, and (3) a pyridinium oxime-bearing AChE reactivator. While the anticholinergic and anticonvulsant agents work to block the effects of excess acetylcholine, the oxime-based reactivator plays the key role of cleaving the phosphorylated serine esteratic site to release the active AChE molecule. However, currently used agents possess poor ADME properties due to their charged nature. Thus, significant deficiencies in current OP countermeasures include: (1) the requirement for simultaneous multi-therapeutic modality treatments with complicated dosing regiments, (2) poor CNS-permeability of currently used pyridinium oximes, and (3) thecomplete lack of efficacy in any of the current treatments to counteract the long-term neurodegenerative sequelae that manifests after prolonged exposure to nerve agents. It has been established that inhibitors of poly(ADP-ribose)polymerase-1 (PARP-1) areuseful neuroprotective agents especially when the neurodegeneration is caused by excitotoxic insult. Inhibitors of PARP-1 have been investigated pre-clinically and clinically for cardiac ischemia, hemorrhagic shock syndrome, stroke, traumatic CNS injury,diabetes, inflammation, and cancer. The prototype PARP-1 inhibitor, benzamide, has been shown to be neuroprotective against soman-induced seizure-related brain damage in the rat. It has been recently suggested that the inherent multiple-pathway complexityof OP-induced long-term neuropathy disorders should be countered with a similarly multi-faceted treatment approach. Hence, the design of small molecules possessing dual- pharmacophores to simultaneously modulate two discreet molecular targets is an important strategy in drug discovery. There is a clear and proven advantage to having a single agent that can modulate multiple targets simultaneously as compared to either a cocktail or a single pill formulated with multi-component agents. A dual acting single agent designed by overlapping pharmacophores would have better ligand efficiency (e.g. reduced MW, LogP) and would provide one dimensional metabolism, pharmacokinetics, and safety profiles as opposed to co-administering two drugs where development metrics are complicated due to possible drug-drug interactions and differential kinetic profiles. It is the aim of this project to discover novel and mechanisticaly unique dual- acting agents which would represent a breakthrough innovative countermeasure against OPchemical threats. Thus, the first innovative aspect of this application is to discover a novel PARP-1 inhibitor that also possesses dual activity as an AChE-reactivator; via merging two known pharmacophores in the same molecule, to provide multiple pharmacological effects and a superior overall pharmacological profile to treat OP-poisoning. A single agent with dual PARP-1 inhibition and AChE-reactivating activity would represent an innovative and novel treatment for OP poisoning because: (1) the PARP-1 inhibition activity would attenuate the excitotoxic cascade of free-radical formation by preserving mitochondrial function and reducing oxidative stress and energetic crisis, and (2) the oxime-bearing fragment would salvage the OP-bound inactivated AChE andthereby reduce excitotoxic acetylcholine levels. The second innovative aspect of our approach is the design and synthesis of dual agents with suitable pharmaceutical profiles, such that they will be able to cross the blood brain barrier, a desired featurethat is lacking from current AChE reactivators. The successful ident

Principal Investigator:

John A. Butera
610-849-5077
Jbutera@hagerbio.com

Business Contact:

John Butera
610-849-5077
jbutera@hagerbio.com
Small Business Information at Submission:

HAGER BIOSCIENCES, INC.
116 RESEARCH DR, STE 265 BETHLEHEM, PA 18015-4731

EIN/Tax ID: 137157335
DUNS: N/A
Number of Employees: N/A
Woman-Owned: No
Minority-Owned: Yes
HUBZone-Owned: No