Small Molecule Protein Assembly Modulators with Pan-cancer Therapeutic Efficacy

Overview

Journal Open Biol

Specialties Biology
Cell Biology
Molecular Biology

Date 2024 Dec 17

PMID 39689856

Authors

Anuradha F Lingappa

Olayemi Akintunde

Erin Samueli

Connie Ewald

Maya Michon

Niloufar Ziari

Ming Lu

Shao Feng Yu

Markus Froehlich

Phuong Uyen Le

Yuniel Fernandez

Suguna Mallesh

Jim Lin

Anatoliy Kitaygorodskyy

Dennis Solas

Jonathan C Reed

Jaisri R Lingappa

Andreas Muller-Schiffmann

Carsten Korth

Dharma Prasad

Aysegul Nalca

Emily Aston

Brad Fabbri

Sanjeev K Anand

Thomas W Campi

Emma Petrouski

Debendranath Dey

David W Andrews

James L Rubenstein

Vishwanath R Lingappa

Affiliations

Soon will be listed here.

Abstract

Two structurally unrelated small molecule chemotypes, represented by compounds PAV-617 and PAV-951, with antiviral activity in cell culture against Mpox virus (formerly known as monkeypox virus) and human immunodeficiency virus (HIV) respectively, were studied for anti-cancer efficacy. Each exhibited apparent pan-cancer cytotoxicity with reasonable pharmacokinetics. Non-toxicity is demonstrated in a non-cancer cell line and in mice at doses achieving drug exposure at active concentrations. Anti-tumour properties of both chemotypes were validated in mouse xenografts against A549 human lung cancer and, for one of the chemotypes, against HT-29 colorectal cancer. The targets of these compounds are unconventional: each binds to a different transient, energy-dependent multi-protein complex. Treatment with these compounds alters the target multi-protein complexes in a manner that appears to remove a block, crucial for cancer survival and progression, on a homeostatic linkage between uncontrolled proliferation and apoptosis. These compounds provide starting points for development of novel, next-generation, non-toxic, pan-cancer therapeutics.

Citing Articles

Small molecule protein assembly modulators with pan-cancer therapeutic efficacy.

Lingappa A, Akintunde O, Samueli E, Ewald C, Michon M, Ziari N Open Biol. 2024; 14(12):240210.

PMID: 39689856 PMC: 11651915. DOI: 10.1098/rsob.240210.

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