Combination treatment harnesses cellular recycling system to fight multiple myeloma

· Medical Xpress

by Virginia Commonwealth University

edited by Swati Mestri, reviewed by Andrew Zinin

Swati Mestri

Scientific Editor

Meet our editorial team
Behind our editorial process

Andrew Zinin

Chief Editor

Meet our editorial team
Behind our editorial process Editors' notes

This article has been reviewed according to Science X's editorial process and policies. Editors have highlighted the following attributes while ensuring the content's credibility:

fact-checked

trusted source

proofread

The GIST Add as preferred source


Credit: CC0 Public Domain

New research from VCU Massey Comprehensive Cancer Center provides evidence for a combination treatment strategy that uses cells' waste-removal functions to target multiple myeloma. The findings, published recently in Cell Death & Disease, show how an experimental targeted protein degrader developed at the cancer center enhances the destruction of a specific cancer cell survival protein and works in tandem with existing drugs in preclinical models while showing limited toxicity in cardiac models.

"Treatment resistance remains a major challenge in multiple myeloma," said study senior author Senthil K. Radhakrishnan, Ph.D., a member of the Cancer Biology research program at Massey and professor of pathology at the VCU School of Medicine. "Our findings point to a new way of using the cancer cell's own recycling machinery against it, with the goal of making existing treatments more effective."

The research findings

The research team designed a molecule that uses autophagy to target and degrade an important survival protein—MCL1—on which many multiple myeloma cells depend. The molecule is an autophagy-targeting chimera, or AUTAC.

"We're using the autophagy response to degrade this critical protein and kill cancer cells," Radhakrishnan said. "MCL1 is usually broken down through the proteasome, but we're forcing MCL1 to be degraded through autophagy."

Targeted protein degradation is an up-and-coming treatment strategy. While many current targeted cancer drugs work by preventing the normal functions of different tumor-driving proteins, targeted protein degradation aims to remove the proteins altogether.

When using their molecule in combination with a proteasome inhibitor, the research team observed enhanced activity in preclinical multiple myeloma models.

"After 48 hours, we saw a 50% reduction in multiple myeloma cell viability in preclinical models," said study lead author Ahmed M. Elshazly, B.Pharm, M.Sc., a Ph.D. candidate in the Department of Pathology at the VCU School of Medicine. "We confirmed that our drug, as a complete molecule, is able to induce cancer cell death."

Cardiac safety has been an important concern in the development of therapies targeting MCL1. In the cardiac models examined in this study, the AUTAC showed limited toxicity while retaining activity against cancer cells. Additionally, the research team demonstrated that the treatment strategy effectively degraded MCL1 in non-small cell lung cancer.

What's next?

For multiple myeloma, the research team plans to further optimize the molecule and evaluate improved candidates in additional preclinical studies.

Additionally, these findings could have implications for the development of treatment strategies for other tumors that depend on MCL1, including breast cancer, lung cancer and melanoma, among others.

"We are trying to increase the potency of this molecule using medicinal chemistry. This study is just proof of principle, so we want to continue to improve on it," Radhakrishnan said.

About multiple myeloma

  • Multiple myeloma is a cancer of the white blood cells in the bone marrow known as plasma cells.
  • The American Cancer Society estimates about 36,000 new cases will be diagnosed in the U.S. this year.
  • It is most commonly diagnosed in people ages 65 or older.

What are proteasome inhibitors?

Proteasome inhibitors are a class of targeted therapies that are a cornerstone of treatment for multiple myeloma.

"The proteasome is the machine within cells that degrades proteins that are no longer needed," Radhakrishnan said.

When the proteasome is blocked by inhibitors in multiple myeloma, the myeloma cells die because they can't remove unwanted proteins, and the buildup of proteins becomes toxic to the cancer. However, cancer cells often harness a cellular process called autophagy to clean up the proteins and develop resistance to these drugs when used alone, allowing the cancer to return to a rapidly growing state.

What is autophagy?

Autophagy is a critical cellular cleaning service through which a cell breaks down and recycles irregular proteins and other substances, as well as destroys bacteria and viruses that lead to infection. However, once a cancer has formed, autophagy can sometimes feed cancer cells or protect them from targeted drugs.

Myeloma cells fight back against proteasome inhibitors by invoking autophagy as a survival tactic.

Previously, the school of scientific thought suggested that deliberately blocking autophagy would cause myeloma cells to collapse and die. This study took a different approach, redirecting the autophagy pathway to selectively eliminate the MCL1 protein.

More information

Ahmed M. Elshazly et al, Proteasome inhibition enhances lysosome-mediated targeted protein degradation, Cell Death & Disease (2026). DOI: 10.1038/s41419-026-08835-6

Key medical concepts

Multiple MyelomaAutophagy

Clinical categories

OncologyClinical pharmacology Provided by Virginia Commonwealth University Who's behind this story?

Swati Mestri

Swati Mestri holds a bachelor's degree in Electronics Engineering and has worked as a content editor since 2019. She has experience editing research documents across technology, health care, and materials science, and has a particular interest in technology and space. Full profile →

Andrew Zinin

Master's in physics with research experience. Long-time science news enthusiast. Plays key role in Science X's editorial success. Full profile →

Citation: Combination treatment harnesses cellular recycling system to fight multiple myeloma (2026, July 14) retrieved 14 July 2026 from https://medicalxpress.com/news/2026-07-combination-treatment-harnesses-cellular-recycling.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.