Bugs as drugs: neglected but a promising future therapeutic strategy in cancer

Future Oncol. 2022 Apr;18(13):1609-1626. doi: 10.2217/fon-2021-1137. Epub 2022 Feb 9.

Abstract

Effective cancer treatment is an urgent need due to the rising incidence of cancer. One of the most promising future strategies in cancer treatment is using microorganisms as cancer indicators, prophylactic agents, immune activators, vaccines or vectors in antitumor therapy. The success of bacteria-mediated chemotherapy will be dependent on the balance of therapeutic benefit and the control of bacterial infection in the body. Additionally, protozoans and viruses have the potential to be used in cancer therapy. This review summarizes how these microorganisms interact with tumor microenvironments and the challenges of a 'bugs as drugs' approach in cancer therapy. Several standpoints are discussed, such as bacteria as vectors for gene therapy that shuttle therapeutic compounds into tumor tissues, their intrinsic antitumor activities and their combination with chemotherapy or radiotherapy. Bug-based cancer therapy is a two-edged sword and we need to find the opportunities by overcoming the challenges.

Keywords: antitumor response; attenuation; bacteria-mediated therapy; biofilms; biosurfactants; cancer therapy.

Plain language summary

Microbe-based cancer treatment strives to address urgent healthcare needs in patients experiencing difficult-to-treat cancers by using tumor-specific infectious microbes. Due to the ease of microbial culturing, microbes can be self-regenerating cancer therapeutics. Despite the fact that bacteria are usually believed to be the primary cause of cancer, the scientific literature has revealed exciting data indicating that bacteria might be efficient cancer prophylactic and therapeutic agents and ideal carriers for targeted cancer therapy. Advanced molecular engineering has recently been applied to bacterial therapy, resulting in increased efficacy with fewer adverse effects.

Publication types

  • Review

MeSH terms

  • Bacteria
  • Drug Delivery Systems
  • Humans
  • Neoplasms* / drug therapy
  • Tumor Microenvironment