Schizophrenia is a brain disorder that affects about 1% of the world's population and out of this number, up to a third of patients are treatment-resistant (TRS). In addition, schizophrenia is associated with suicidal ideation and 9-13% of patients eventually take their own lives. Even more troubling is the fact that 65 to 80 % of outpatients with chronic schizophrenia discontinue their antipsychotic medications, often because of a lack of efficacy or intolerable adverse effects. There is therefore an urgent need for new antipsychotics that promote compliance and ultimately treat the disease including the treatment resistant illness. The long-term goal of this proposal is to develop novel small molecules that promote ?-arrestin-2 recruitment to D2R and simultaneously interact at other CNS receptors involved in the pathophysiology of schizophrenia as new treatment options for schizophrenia. In addition, selected compounds should also not interact appreciably with receptors associated with the known side effects of current drugs. We have identified two lead compounds with this profile, SYA16263 and SYA16268 and they will form the basis of drug development to accomplish this long-term goal.
The specific aims proposed to accomplish this goal, include evaluation of SYA 16263, a newly identified preclinical candidate, in a battery of tests in animal models of psychosis and to demonstrate a lack of adverse events enabling us then to move this drug or the related analog toward the clinic. Because of its newly characterized functional profile, we also plan to conduct a structure functional selectivity relationship study on SYA 16263.
Specific Aim 2 will optimize the binding affinity of SYA 23013 and SYA 29875 two newly discovered agents in our labs, to D2R, 5HT1AR and 5HT7R while minimizing interactions at 5HT2BR, 5HT2CR and H1R (Ki > 500 nM). The design strategy is to obtain high potency compounds that promote b-arrestin-2 recruitment to D2R and function as antagonists (Ki<10 nM) at 5HT1AR, 5HT2AR and 5HT7R.
Specific Aim 3 involves performing in vitro ADME and in vivo pharmacological evaluations of at least 1 agent per year obtained in specific aims 1 and 2 that satisfy stated physicochemical characteristics, including Lipinski's rule of five (Ro5), permeability and metabolic stability. Finally, as a faculty development grant, we also propose a specific Aim 4 which involves orchestrating a Faculty Development Strategy that will lead to obtaining non-SCORE grants. The activities include re-establishing a vibrant collaboration with experts in the field and hiring research associates/technicians to help PI deliver on the proposal aims, to establish a compound screening lab in FAMU; to write and publish ?2 articles per year and to write at least one proposal including an R21 or RO1 per year to non-SCORE funding agencies and ?2 joint RO1 proposals with collaborators.

Public Health Relevance

According to the National Institute of Mental Health, approximately 2.4 million American adults, or about 1.1 percent of the population age 18 and older in a given year, are affected by schizophrenia. Of this number, it is estimated that up to a third of patients are unresponsive to current treatment options. An even more heart-breaking statistics is the fact that between 9-13% of patients eventually takes their own lives because of the illness. Unfortunately, research reports indicate that between 65 - 80% of outpatients discontinue the use of current antipsychotic medications as a result of the side-effects associated with current drugs or their failure to treat their condition. This calls for an urgent effort to identify new agents in the pharmacotherapy of schizophrenia. The long term goal of this proposal therefore, is to develop new agents that have improved therapeutic profiles over the current antipsychotics in use. Obtaining new drugs that minimize adverse side-effects, restore executive functionality to patients and reduce health care costs associated with this debilitating illness will be a significat contribution to the nation and indeed the world. Achieving the specific aims of this proposal will move us closer to reaching the long term goal of providing adequate treatment options for schizophrenia.

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Enhancement Award (SC1)
Project #
5SC1GM116724-04
Application #
9624442
Study Section
Special Emphasis Panel (ZGM1)
Program Officer
Fabian, Miles
Project Start
2016-02-01
Project End
2021-01-31
Budget Start
2019-02-01
Budget End
2021-01-31
Support Year
4
Fiscal Year
2019
Total Cost
Indirect Cost
Name
Florida Agricultural and Mechanical University
Department
Type
Schools of Pharmacy
DUNS #
623751831
City
Tallahassee
State
FL
Country
United States
Zip Code
32307
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Etukala, Jagan R; Zhu, Xue Y; Eyunni, Suresh V K et al. (2016) Development of CNS multi-receptor ligands: Modification of known D2 pharmacophores. Bioorg Med Chem 24:3671-9
Ofori, Edward; Zhu, Xue Y; Etukala, Jagan R et al. (2016) Synthesis and evaluation of the structural elements in alkylated tetrahydroisoquinolines for binding to CNS receptors. Bioorg Med Chem 24:5730-5740