Selective Small Molecule Targeting of Anti-Apoptotic MCL-1

Selective Small Molecule Targeting of Anti-Ap ...
Nicole Cohen, Nicole Cohen
Locate

My Reading Lists:

Create a new list

Check-In

×Close
Add an optional check-in date. Check-in dates are used to track yearly reading goals.
Today


Buy this book

Last edited by MARC Bot
September 12, 2024 | History

Selective Small Molecule Targeting of Anti-Apoptotic MCL-1

BCL-2 family proteins are key regulators of the mitochondrial apoptotic pathway in health and disease. Anti-apoptotic members such as BCL-2, BCL-XL, and MCL-1 have been implicated in the initiation, progression, and chemoresistance of human cancer. Small molecules and peptides have successfully targeted the anti-apoptotic BCL-2/BCL-XL groove that binds and sequesters pro-apoptotic BH3 death helices. Such compounds induce tumor cell apoptosis and are being advanced in clinical trials as promising next-generation cancer therapeutics. Notably, selective antagonists such as ABT-737 are highly effective at inducing apoptosis in BCL-2/BCL-XL-dependent cancers but are rendered inactive by overexpression of MCL-1, a formidable chemoresistance protein that lies outside the molecule's binding spectrum. By screening a library of stabilized alpha-helices of BCL-2 domains (SAHBs), we previously discovered that the MCL-1 BH3 helix is itself a potent and exclusive MCL-1 inhibitor. Here, we deployed this chemically-constrained peptidic inhibitor of MCL-1, MCL-1 SAHB, in a competitive binding screen to identify selective small molecule inhibitors of MCL-1. Rigorous in vitro binding and functional assays were used to validate the compounds and their mechanisms of action, and most notably, MCL-1 inhibitor molecule 1 (MIM1) displayed exquisite selectivity in these assays. NMR analysis documented that MIM1 engages the canonical BH3-binding pocket of MCL-1. Importantly, MIM1 selectively triggers caspase 3/7 activation and apoptosis of a cancer cell line that is dependent on induced overexpression of MCL-1 but showed no activity in the isogenic cell line that is driven instead by overexpressed BCL-XL. Thus, a selective stapled peptide inhibitor of MCL-1 was successfully applied to identify a high fidelity small molecule inhibitor of MCL-1 that exhibits anti-cancer activity in the specific context of MCL-1 dependence.

Publish Date
Language
English

Buy this book

Book Details


Edition Notes

Thesis Ph.D. Harvard University 2012

ID Numbers

Open Library
OL53811905M

Community Reviews (0)

Feedback?
No community reviews have been submitted for this work.

Lists

This work does not appear on any lists.

History

Download catalog record: RDF / JSON / OPDS | Wikipedia citation
September 12, 2024 Created by MARC Bot Imported from harvard_bibliographic_metadata record