Frontiers in Pharmacology (May 2024)

Selective and brain-penetrant ACSS2 inhibitors target breast cancer brain metastatic cells

  • Emily M. Esquea,
  • Lorela Ciraku,
  • Riley G. Young,
  • Jessica Merzy,
  • Alexandra N. Talarico,
  • Nusaiba N. Ahmed,
  • Mangalam Karuppiah,
  • Anna Ramesh,
  • Adam Chatoff,
  • Claudia V. Crispim,
  • Adel A. Rashad,
  • Simon Cocklin,
  • Nathaniel W. Snyder,
  • Joris Beld,
  • Nicole L. Simone,
  • Nicole L. Simone,
  • Mauricio J. Reginato,
  • Mauricio J. Reginato,
  • Alexej Dick

DOI
https://doi.org/10.3389/fphar.2024.1394685
Journal volume & issue
Vol. 15

Abstract

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Breast cancer brain metastasis (BCBM) typically results in an end-stage diagnosis and is hindered by a lack of brain-penetrant drugs. Tumors in the brain rely on the conversion of acetate to acetyl-CoA by the enzyme acetyl-CoA synthetase 2 (ACSS2), a key regulator of fatty acid synthesis and protein acetylation. Here, we used a computational pipeline to identify novel brain-penetrant ACSS2 inhibitors combining pharmacophore-based shape screen methodology with absorption, distribution, metabolism, and excretion (ADME) property predictions. We identified compounds AD-5584 and AD-8007 that were validated for specific binding affinity to ACSS2. Treatment of BCBM cells with AD-5584 and AD-8007 leads to a significant reduction in colony formation, lipid storage, acetyl-CoA levels and cell survival in vitro. In an ex vivo brain-tumor slice model, treatment with AD-8007 and AD-5584 reduced pre-formed tumors and synergized with irradiation in blocking BCBM tumor growth. Treatment with AD-8007 reduced tumor burden and extended survival in vivo. This study identifies selective brain-penetrant ACSS2 inhibitors with efficacy towards breast cancer brain metastasis.

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