August 31, 2015

Inducing metabolic catastrophe in cancer cells

by Rockefeller University Press

Inducing metabolic catastrophe in cancer cells
Eliminating HK2 (shown here), which is a key enzyme for glucose metabolism, may be a way to prevent cancer cells from surviving, according to a new study in JCB. Credit: Xia et al., 2015

A study published in The Journal of Cell Biology describes a way to force cancer cells to destroy a key metabolic enzyme they need to survive.

Cancer cells survive the stressful environment inside a tumor in part through autophagy, the controlled digestion and recycling of damaged components. However, blocking the process doesn't kill , so researchers have been looking for a way to make cells vulnerable to autophagy shutdown.

Researchers at Harvard Medical School in Boston used an cell line that is resistant to the autophagy inhibitor spautin-1 or an upgraded version of this molecule. After screening more than 8,200 compounds, they found that quizartinib was the most effective at enhancing the cells' vulnerability to either of the autophagy blockers. Quizartinib inhibits FLT3, an enzyme that is important for the normal development of and a validated target for (AML). The drug is currently in clinical trial for treatment of AML, but its value beyond has not been well explored.

The team found that quizartinib and the improved version of spautin-1 killed from a variety of cell lines while leaving noncancerous cells unscathed. Treating cancer cells with quizartinib alone inhibited an important metabolic pathway, glycolysis, and activated macroautophagy, the best known type of autophagy in which the cell digests a large portion of its contents. In contrast, cells that received both compounds couldn't initiate macroautophagy, but they switched on chaperone-mediated autophagy, a selective form of the process that eliminates individual molecules.

One of its targets was the enzyme Hexokinase2 (HK2), which is crucial for glucose metabolism and is often overexpressed in cancer cells. By eliminating HK2, quizartinib and the autophagy inhibitor may prevent cancer cells from metabolizing absorbed glucose and mobilizing stored nutrients, thereby triggering cancer cell death. The study provides evidence that combining an FLT3 inhibitor with an autophagy blocker could be a new way to treat cancer.

More information: Xia, H.-g., et al. 2015. J. Cell Biol. dx.doi.org/10.1083/jcb.201503044

Journal information: Journal of Cell Biology
Provided by Rockefeller University Press
Citation: Inducing metabolic catastrophe in cancer cells (2015, August 31) retrieved 19 April 2024 from https://medicalxpress.com/news/2015-08-metabolic-catastrophe-cancer-cells.html
This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no part may be reproduced without the written permission. The content is provided for information purposes only.

Explore further

Cell recycling protects tumor cells from anti-cancer therapy
116 shares

Feedback to editors
Researchers discover new therapeutic target for non-small cell lung cancer

11 hours ago
Immune cells carry a long-lasting 'memory' of early-life pain

12 hours ago
Cannabis legalization and rising sales have not contributed to increase in substance abuse, study finds

12 hours ago
No negative impact from prolonged eye patching on child's development or family stress levels

12 hours ago
COVID-19 booster immunity lasts much longer than primary series alone, study shows

12 hours ago
Study finds that human neuron signals flow in one direction

13 hours ago
A common pathway in the brain that enables addictive drugs to hijack natural reward processing identified

14 hours ago
Scientists identify airway cells that sense aspirated water and acid reflux

14 hours ago
Environment may influence metacognitive abilities more than genetics

14 hours ago
Contracting RSV before age two can cause long-term lung changes and impairment

14 hours ago
Load comments (0)