How the Warburg Effect Supports Aggressiveness and Drug Resistance of Cancer Cells?

Overview

Journal Drug Resist Updat

Specialties Infectious Diseases
Oncology

Date 2018 Jun 3

PMID 29857814

Citations 253

Authors

Philippe Icard

Seth Shulman

Diana Farhat

Jean-Marc Steyaert

Marco Alifano

Hubert Lincet

Affiliations

Soon will be listed here.

Abstract

Cancer cells employ both conventional oxidative metabolism and glycolytic anaerobic metabolism. However, their proliferation is marked by a shift towards increasing glycolytic metabolism even in the presence of O (Warburg effect). HIF1, a major hypoxia induced transcription factor, promotes a dissociation between glycolysis and the tricarboxylic acid cycle, a process limiting the efficient production of ATP and citrate which otherwise would arrest glycolysis. The Warburg effect also favors an intracellular alkaline pH which is a driving force in many aspects of cancer cell proliferation (enhancement of glycolysis and cell cycle progression) and of cancer aggressiveness (resistance to various processes including hypoxia, apoptosis, cytotoxic drugs and immune response). This metabolism leads to epigenetic and genetic alterations with the occurrence of multiple new cell phenotypes which enhance cancer cell growth and aggressiveness. In depth understanding of these metabolic changes in cancer cells may lead to the development of novel therapeutic strategies, which when combined with existing cancer treatments, might improve their effectiveness and/or overcome chemoresistance.

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