A new concept for cancer therapy: out-competing the aggressor

Author(s)

Deisboeck, Thomas S.; Wang, Zhihui

Abstract

Cancer expansion depends on host organ conditions that permit growth. Since such microenvironmental nourishment is limited we argue here that an autologous, therapeutically engineered and faster metabolizing cell strain could potentially out-compete native cancer cell populations for available resources which in turn should contain further cancer growth. This hypothesis aims on turning cancer progression, and its microenvironmental dependency, into a therapeutic opportunity. To illustrate our concept, we developed a three-dimensional computational model that allowed us to investigate the growth dynamics of native tumor cells mixed with genetically engineered cells that exhibit a higher proliferation rate. The simulation results confirm in silico efficacy of such therapeutic cells to combating cancer cells on site in that they can indeed control tumor growth once their proliferation rate exceeds a certain level. While intriguing from a theoretical perspective, this bold, innovative ecology-driven concept bears some significant challenges that warrant critical discussion in the community for further refinement.

Date issued

2008-12

URI

http://hdl.handle.net/1721.1/49465

Department

Harvard University--MIT Division of Health Sciences and Technology

Journal

Cancer Cell International

Publisher

BioMed Central Ltd.

Citation

Deisboeck, Thomas, and Zhihui Wang. “A new concept for cancer therapy: out-competing the aggressor.” Cancer Cell International 8.1 (2008): 19.

Version: Final published version

ISSN

1475-2867