Design and synthesis of aminopyridine containing biaryls reducing c-MYC protein levels in cells

Design and synthesis of aminopyridine containing biaryls reducing c-MYC protein levels in cells

[Display omitted] The c-MYC oncogene transcription factor has been implicated in cell cycle regulation controlling cell growth and proliferation. It is tightly regulated in normal cells, but has been shown to be deregulated in cancer cells, and is thus an attractive target for oncogenic therapies. B...

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Veröffentlicht in:Bioorganic & medicinal chemistry letters 2023-08, Vol.92, p.129385-129385, Article 129385
Hauptverfasser: Di Marco, Christina N., Terrell, Lamont, Sanchez, Robert, Rueda, Lourdes, Shuster, Leanna, Nartey, Eldridge N., McHugh, Charles, Mack, James F., Shu, Arthur, Tian, Xinrong, Medina, Jesus R., Rivero, Ralph, Manetsch, Roman, Heerding, Dirk, Mangatt, Biju
Format: Artikel
Sprache:eng
Schlagworte:
Benzimidazole
Biaryl
c-MYC
Imidazopyridazine
Oncogene
Structure–activity relationship (SAR)
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Zusammenfassung:[Display omitted] The c-MYC oncogene transcription factor has been implicated in cell cycle regulation controlling cell growth and proliferation. It is tightly regulated in normal cells, but has been shown to be deregulated in cancer cells, and is thus an attractive target for oncogenic therapies. Building upon previous SAR, a series of analogues containing benzimidazole core replacements were prepared and evaluated, leading to the identification of imidazopyridazine compounds that were shown to possess equivalent or improved c-MYC HTRF pEC50 values, lipophilicity, solubility, and rat pharmacokinetics. The imidazopyridazine core was therefore determined to be superior to the original benzimidazole core and a viable alternate for continued lead optimization and medicinal chemistry campaigns.
ISSN:0960-894X
1464-3405
DOI:10.1016/j.bmcl.2023.129385