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Biography

Research Scientist– Pfizer, Ann Arbor, MI
Research Scientist – Eli Lilly and Company, Indianapolis, IN
NIH post-doctoral fellow – Vanderbilt University, Nashville, TN (Mentor: Dr. Craig Lindsley)
Research Assistant Professor – St. Louis University, St. Louis, MO
Senior Scientist – Washington University of St. Louis, St. Louis, MO

Education

  • Ph.D. – Medicinal Chemistry-University of Mississippi, School of Pharmacy, University, MS, US
  • M.S. – Medicinal Chemistry-University of Mississippi, School of Pharmacy, University, MS, US
  • B.S. (Honors) – Chemistry –Calcutta University, Calcutta, India
  • B.Tech. – Pharmaceutical Technology-Calcutta University, Calcutta, India

Research

Interests

  • Drug discovery, computational chemistry
  • Neurodegeneration
  • Oncology
  • Metabolic syndrome
  • Dr. Chatterjee’s current research interest focuses on drug-discovery projects related to the development of modulators on Kinase, and Nuclear Hormone receptor targets. We are developing drug molecules to target diseases like Alzheimer’s Disease, Cancer, Obesity, and Type 2 Diabetes. The research involves virtual screening, core medicinal chemistry, structure-activity-relationship, analytical chemistry, and computational chemistry. We utilize these techniques to screen, design, synthesize, and characterize new molecules for the targets.

Publications

  1. Google Scholar,MyNCBI
  2. Current Selected Publications:
  3. “A synthetic ERR agonist alleviates metabolic syndrome”,J. Pharmacol. Expt. Ther.;388(2), 232-243. (2024).DOI:10.1124/jpet.123.001733
  4. "Computational Methods and Tools for Sustainable and Green Approaches in Drug Discovery", inGreen Approaches in Medicinal Chemistry for Sustainable Drug Design, (Second Edition) Banik B.K. Ed.; Vol 2, chapter 27, 603-616, Elsevier, ISBN 978-0-443-16164-3. (2024).DOI10.1016/B978-0-443-16164-3.00024-8
  5. “International Union of Basic and Clinical Pharmacology CXIII: Nuclear Receptor Superfamily—Update 2023.Pharmacol. Rev.;75(6), 1233-1318. (2023).DOI10.1124/pharmrev.121.000436
  6. “Estrogen-Related Receptor Agonism Reverses Mitochondrial Dysfunction and Inflammation in the Aging Kidney”,Am. J. Pathol.; 193(12), 1969-1987, (2023).DOI:10.1016/j.ajpath.2023.07.008
  7. “Development and pharmacological evaluation of a new chemical series of potent pan-ERR agonists, identification of SLU-PP-915.”Eur. J. of Med. Chem., 258, 115582. DOI10.1016/j.ejmech.2023.115582
  8. “Synthetic ERRα/β/γ Agonist Induces an ERRα-Dependent Acute Aerobic Exercise Response and Enhances Exercise Capacity”,ACS Chem. Biol.; 18(4), 756-771, (2023),DOI:10.1021/acschembio.2c00720
  9. “Preparation of substituted purines and naphthyridines as REV-ERB agonists”, WO2022093552, (2022).
  10. “Structural basis of synthetic agonist activation of the nuclear receptor REV-ERB”,Nat. Commun.;13, 7131 (2022),DOI:10.1038/s41467-022-34892-4
  11. “CRTC1/MAML2 directs a PGC-1α-IGF-1 circuit that confers vulnerability to PPARγ inhibition”,Cell Rep.; 34(8), 108768, (2021),DOI:10.1016/j.celrep.2021.108768
  12. “A two-hit model of alcoholic liver disease that exhibits rapid, severe fibrosis”,PLoS One; 16(3), e0249316, (2021),DOI:10.1371/journal.pone.0249316
  13. “LXR-inverse agonism stimulates immune-mediated tumor destruction by enhancing CD8 T-cell activity in triple-negative breast cancer”,Sci. Rep.; 9(1), 19530, (2019),DOI:10.1038/s41598-019-56038-1
  14. “Preparation of substituted isoquinolines Lxr inverse agonists for the treatment of cancer”, WO2017223514, (2017).
  15. “Identification of C3b-​Binding Small-​Molecule Complement Inhibitors Using Cheminformatics”,J. Immunol.;198, 3705-3718.(2017)DOI:10.4049/jimmunol.1601932
  16. “Broad anti-tumor activity of a small molecule that selectively targets the Warburg effect and lipogenesis”,Cancer Cell;28, 42-56.(2015).  DOI:10.1016/j.ccell.2015.05.007
  17. “Discovery and SAR of muscarinic receptor subtype 1 (M1) allosteric activators from a molecular libraries high throughput screen.  Part I:  2,5-dibenzyl-2H-pyrazolo[4,3-c]quinolin-3(5H)-ones as positive allosteric modulators”,Bioorg. Med. Chem. Let.;25(2), 384-388.(2015). DOI:10.1016/j.bmcl.2014.11.011
  18. “Discovery of thienoquinolone derivatives as selective and ATP non-competitive CDK5/p25 inhibitors by structure-based virtual screening”,Bioorg. Med. Chem.;22(22), 6409-6421. (2014). DOI:10.1016/j.bmc.2014.09.043

Presentations

  • Google Scholar
  • ,
  • MyNCBI
  • Current Selected Publications
  • :
  • “A synthetic ERR agonist alleviates metabolic syndrome”,
  • J. Pharmacol. Expt. Ther.
  • ;
  • 388(2), 232-243. (
  • 2024
  • ).
  • DOI:
  • 10.1124/jpet.123.001733
  • "Computational Methods and Tools for Sustainable and Green Approaches in Drug Discovery", in
  • Green Approaches in Medicinal Chemistry for Sustainable Drug Design, (Second Edition) Banik B.K. Ed.; Vol 2, chapter 27, 603-616, Elsevier, ISBN 978-0-443-16164-3. (
  • 2024
  • ).
  • DOI
  • 10.1016/B978-0-443-16164-3.00024-8
  • “International Union of Basic and Clinical Pharmacology CXIII: Nuclear Receptor Superfamily—Update 2023.
  • Pharmacol. Rev.
  • ;
  • 75
  • (6), 1233-1318. (
  • 2023
  • ).
  • DOI
  • 10.1124/pharmrev.121.000436
  • Estrogen-Related Receptor Agonism Reverses Mitochondrial Dysfunction and Inflammation in the Aging Kidney”,
  • Am. J. Pathol.
  • ; 193(12), 1969-1987, (
  • 2023
  • ).
  • DOI:
  • 10.1016/j.ajpath.2023.07.008
  • “Development and pharmacological evaluation of a new chemical series of potent pan-ERR agonists, identification of SLU-PP-915.”
  • Eur. J. of Med. Chem.
  • , 258, 115582. DOI
  • 10.1016/j.ejmech.2023.115582
  • “Synthetic ERRα/β/γ Agonist Induces an ERRα-Dependent Acute Aerobic Exercise Response and Enhances Exercise Capacity”,
  • ACS Chem. Biol.
  • ; 18(4), 756-771, (
  • 2023
  • ),
  • DOI:
  • 10.1021/acschembio.2c00720
  • “Preparation of substituted purines and naphthyridines as REV-ERB agonists”, WO2022093552, (
  • 2022
  • ).
  • “Structural basis of synthetic agonist activation of the nuclear receptor REV-ERB”,
  • Nat. Commun.
  • ;
  • 13
  • , 7131 (
  • 2022
  • ),
  • DOI:
  • 10.1038/s41467-022-34892-4
  • “CRTC1/MAML2 directs a PGC-1α-IGF-1 circuit that confers vulnerability to PPARγ inhibition”,
  • Cell Rep.
  • ; 34(8), 108768, (
  • 2021
  • ),
  • DOI:
  • 10.1016/j.celrep.2021.108768
  • “A two-hit model of alcoholic liver disease that exhibits rapid, severe fibrosis”,
  • PLoS One
  • ; 16(3), e0249316, (
  • 2021
  • ),
  • DOI:
  • 10.1371/journal.pone.0249316
  • “LXR-inverse agonism stimulates immune-mediated tumor destruction by enhancing CD8 T-cell activity in triple-negative breast cancer”,
  • Sci. Rep.
  • ; 9(1), 19530, (
  • 2019
  • ),
  • DOI:
  • 10.1038/s41598-019-56038-1
  • “Preparation of substituted isoquinolines Lxr inverse agonists for the treatment of cancer”, WO2017223514, (
  • 2017
  • ).
  • Identification of C3b-​Binding Small-​Molecule Complement Inhibitors Using Cheminformatics
  • ”,
  • J. Immunol.
  • ;
  • 198
  • , 3705-3718
  • .
  • (
  • 2017
  • )DOI:
  • 10.4049/jimmunol.1601932
  • “Broad anti-tumor activity of a small molecule that selectively targets the Warburg effect and lipogenesis”,
  • Cancer Cell
  • ;
  • 28
  • , 42-56
  • .
  • (
  • 2015
  • ).  DOI:
  • 10.1016/j.ccell.2015.05.007
  • “Discovery and SAR of muscarinic receptor subtype 1 (M1) allosteric activators from a molecular libraries high throughput screen.  Part I:  2,5-dibenzyl-2
  • H
  • -pyrazolo[4,3-
  • c
  • ]quinolin-3(5
  • H
  • )-ones as positive allosteric modulators”,
  • Bioorg. Med. Chem. Let.
  • ;
  • 25
  • (2), 384-388.
  • (
  • 2015
  • ). DOI:
  • 10.1016/j.bmcl.2014.11.011
  • “Discovery of thienoquinolone derivatives as selective and ATP non-competitive CDK5/p25 inhibitors by structure-based virtual screening”,
  • Bioorg. Med. Chem
  • .;
  • 22
  • (22), 6409-6421
  • . (
  • 2014
  • ). DOI:
  • 10.1016/j.bmc.2014.09.043

Professional Affiliations & Memberships

  • American Chemical Society
  • American Association of College of Pharmacy
  • International Alzheimer’s Association (ISTAART)

Awards

  • Awarded Intramural CFRD Grant $ 8328.00 for 2024-2025 at NDMU;
  • Awarded Intramural CFRD Grant $ 6000.00 for 2023-2024 at NDMU