Melding biology and physical sciences yields deeper understanding of cancer

Killer T cells surround a cancer cell. Credit: NIH

An evolving understanding of cancer that incorporates the physical properties of tumors and their surrounding tissues into existing biologic and genetic models can direct cancer researchers down previously uncharted avenues, potentially leading to new drugs and new treatment strategies, say investigators from Massachusetts General Hospital (MGH), Harvard Medical School (HMS) and the Ludwig Center at HMS.

"We believe that progress in relies on close collaboration between biologists, oncologists, physical scientists and engineers. A comprehensive understanding of the physical hallmarks of cancer requires a rigorous and broad perspective spanning the physical and biological sciences," says Rakesh K. Jain, Ph.D., an investigator in the Edwin L. Steele Laboratories in the Department of Radiation Oncology at MGH and HMS.

In a review published in the journal Science, Jain and Steele Laboratories colleagues Hadi T. Nia, Ph.D., and Lance L. Munn, Ph.D., describe four distinct physical hallmarks of cancer that affect both and the , contributing to both growth and the development of resistance to powerful cancer drugs.

One widely accepted model of cancer holds that a normal cell goes rogue because of genetic mutations or an environmental insult. In this model, the altered cell starts replicating out of control and takes over normal tissues, displaying eight hallmarks that include the ability to promote and sustain the growth of tumors, evade immune system attempts to suppress growth, stimulate to tumors and both invade local tissues and metastasize (spread) elsewhere in the body.

But this model fails to take into account how physical processes affect tumor progression and treatment, say the authors. In addition to the aforementioned eight biological hallmarks of cancer proposed by Robert Weinberg, Ph.D., from MIT, and Douglas Hanahan, Ph.D., from the Swiss Federal Institute of Technology in Lausanne, Jain and colleagues propose adding four distinct physical hallmarks that capture the biomechanical abnormalities in tumors: elevated solid stress; elevated interstitial fluid pressure; increased stiffness and altered material properties; and altered tissue micro-architecture.

Three decades of research in the Steele Laboratories led to the discovery and clinical translation of the first two hallmarks. "Solid stresses are created as proliferating and migrating cells push and stretch solid components of the surrounding tissue. They are large enough to compress blood and lymphatic vessels in and around tumors, impairing blood flow and the delivery of oxygen, drugs and immune cells," Jain says.

Elevated interstitial fluid pressure is caused by abnormally permeable blood vessels in tumors leaking blood plasma into tissues surrounding the tumor, and by insufficient drainage of lymphatic fluid. The interstitial fluid carries various growth factors with it, causing edema (swelling), elution (release) of drugs and growth factors, and facilitating cancer invasion of local and distant tissues.

Increased stiffness is caused by the deposition of cellular matrix (scaffolding) and remodeling of tissues. This stiffness has traditionally been used as a diagnostic marker for , and more recently it has come to be recognized as a marker for prognosis. Increased stiffness activates signaling pathways that promote proliferation, invasiveness and metastasis of cancer cells, Jain explains.

"Finally, when normal architecture is disrupted by cancer growth and invasion, micro-architecture is altered," he says. "Stromal (supporting) cells, cancer cells and extracellular matrix adopt new organization. This changes the interactions between an individual cell and its surrounding matrix and , which affects signaling pathways associated with invasion and metastasis."

Jain says that with the review article in Science, he and his colleagues hope to bridge the gap between the physical and "by exploring the biological origins and repercussions of the physical hallmarks of cancer from the perspectives of cancer biologists and oncologists—who work to understand and overcome the physical abnormalities at the bench and in the clinic—and from the perspectives of physicists and engineers who develop new models and strategies for research, diagnosis and treatment."

More information: Hadi T. Nia et al, Physical traits of cancer, Science (2020). DOI: 10.1126/science.aaz0868

Journal information: Science
Citation: Melding biology and physical sciences yields deeper understanding of cancer (2020, October 30) retrieved 20 July 2024 from
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

How to prevent the spread of tumor cells via the lymph vessels


Feedback to editors