A Review of Bacteria-Animal Lateral Gene Transfer May Inform Our Understanding of Diseases like Cancer

Kelly M Robinson,Karsten B Sieber,Julie C Dunning Hotopp,Ivan Matic

doi:10.1371/journal.pgen.1003877

Kelly M Robinson, Karsten B Sieber + Show 2 more

Open Access

https://doi.org/10.1371/journal.pgen.1003877

Copy DOI

Journal: PLoS Genetics	Publication Date: Oct 17, 2013
Citations: 111	License type: CC BY 4.0

Affiliation: University of Maryland, Baltimore

Abstract

Lateral gene transfer (LGT) from bacteria to animals occurs more frequently than was appreciated prior to the advent of genome sequencing. In 2007, LGT from bacterial Wolbachia endosymbionts was detected in ∼33% of the sequenced arthropod genomes using a bioinformatic approach. Today, Wolbachia/host LGT is thought to be widespread and many other cases of bacteria-animal LGT have been described. In insects, LGT may be more frequently associated with endosymbionts that colonize germ cells and germ stem cells, like Wolbachia endosymbionts. We speculate that LGT may occur from bacteria to a wide variety of eukaryotes, but only becomes vertically inherited when it occurs in germ cells. As such, LGT may happen routinely in somatic cells but never become inherited or fixed in the population. Lack of inheritance of such mutations greatly decreases our ability to detect them. In this review, we propose that such noninherited bacterial DNA integration into chromosomes in human somatic cells could induce mutations leading to cancer or autoimmune diseases in a manner analogous to mobile elements and viral integrations.

Highlights

Many eukaryotic chromosomes contain DNA of microbial origin that arose via lateral gene transfer (LGT)
We synthesize our current understanding of the potential for LGT from bacteria to the somatic human genome by examining (a) LGT in animals with a particular emphasis on bacteria-animal LGT, (b) insertional mutagenesis in the human genome, and (c) the role of microbes in oncogenesis
Of the systems being studied today, recent LGT from bacteria to animals seems to be most prevalent between Wolbachia endosymbionts and their invertebrate hosts

Summary

Introduction

Many eukaryotic chromosomes contain DNA of microbial origin that arose via lateral gene transfer (LGT). Current and future work is presented through two hypotheses about such integrations and their potential role in bacteria-associated chronic human diseases like cancer. The bacterial donors of these bacteria-eukaryote LGTs are proposed to be Citation: Robinson KM, Sieber KB, Dunning Hotopp JC (2013) A Review of Bacteria-Animal Lateral Gene Transfer May Inform Our Understanding of Diseases like Cancer.

Results

Conclusion