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

Robinson, Kelly; Sieber, Karsten B.; Hotopp, Julie C. Dunning

doi:10.1371/journal.pgen.1003877

Cited by 53 publications

(44 citation statements)

References 81 publications

(95 reference statements)

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“…These findings are consistent with recent evidence showing that exogenous DNA integrates in human somatic genomes more frequently in tumors than normal samples31. It is possible that viral and/or bacterial integrations by lateral gene transfer may lead to altered gene expression mainly in AML and breast cancers, as supported by recent data32. This would provide an additional avenue for viral/bacteria-associated oncogenesis, beyond inflammation-induced damage33.…”

Section: Resultssupporting

confidence: 91%

Intronless WNT10B-short variant underlies new recurrent allele-specific rearrangement in acute myeloid leukaemia

Lazzaroni

Giacco

Biasci

et al. 2016

Sci Rep

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Defects in the control of Wnt signaling have emerged as a recurrent mechanism involved in cancer pathogenesis and acute myeloid leukaemia (AML), including the hematopoietic regeneration-associated WNT10B in AC133bright leukaemia cells, although the existence of a specific mechanism remains unproven. We have obtained evidences for a recurrent rearrangement, which involved the WNT10B locus (WNT10BR) within intron 1 (IVS1) and flanked at the 5′ by non-human sequences whose origin remains to be elucidated; it also expressed a transcript variant (WNT10BIVS1) which was mainly detected in a cohort of patients with intermediate/unfavorable risk AML. We also identified in two separate cases, affected by AML and breast cancer respectively, a genomic transposable short form of human WNT10B (ht-WNT10B). The intronless ht-WNT10B resembles a long non-coding RNA (lncRNA), which suggests its involvement in a non-random microhomology-mediated recombination generating the rearranged WNT10BR. Furthermore, our studies supports an autocrine activation primed by the formation of WNT10B-FZD4/5 complexes in the breast cancer MCF7 cells that express the WNT10BIVS1. Chemical interference of WNT-ligands production by the porcupine inhibitor IWP-2 achieved a dose-dependent suppression of the WNT10B-FZD4/5 interactions. These results present the first evidence for a recurrent rearrangement promoted by a mobile ht-WNT10B oncogene, as a relevant mechanism for Wnt involvement in human cancer.

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Section: Resultssupporting

confidence: 91%

Intronless WNT10B-short variant underlies new recurrent allele-specific rearrangement in acute myeloid leukaemia

Lazzaroni

Giacco

Biasci

et al. 2016

Sci Rep

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“…Many animal hosts that harbor or once harbored Wolbachia have evidence of Wolbachia DNA in their genomes (Bordenstein, 2007;Dunning Hotopp, 2011;Dunning Hotopp et al, 2007), probably because Wolbachia are uniquely poised for symbiont-to-host gene exchange since they target the germ-line stem cell niche during host oogenesis (Fast et al, 2011;Robinson, Sieber & Dunning Hotopp, 2013;Toomey et al, 2013). Wolbachia nuclear inserts can be quite large and cover a substantial portion of a Wolbachia genome.…”

Section: Discussionmentioning

confidence: 99%

Wolbachia co-infection in a hybrid zone: discovery of horizontal gene transfers from two Wolbachia supergroups into an animal genome

2015

Draw Science

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Hybrid zones and the consequences of hybridization have contributed greatly to our understanding of evolutionary processes. Hybrid zones also provide valuable insight into the dynamics of symbiosis since each subspecies or species brings its unique microbial symbionts, including germline bacteria such as Wolbachia, to the hybrid zone. Here, we investigate a natural hybrid zone of two subspecies of the meadow grasshopper Chorthippus parallelus in the Pyrenees Mountains. We set out to test whether co-infections of B and F Wolbachia in hybrid grasshoppers enabled horizontal transfer of phage WO, similar to the numerous examples of phage WO transfer between A and B Wolbachia co-infections. While we found no evidence for transfer between the divergent co-infections, we discovered horizontal transfer of at least three phage WO haplotypes to the grasshopper genome. Subsequent genome sequencing of uninfected grasshoppers uncovered the first evidence for two discrete Wolbachia supergroups (B and F) contributing at least 448 kb and 144 kb of DNA, respectively, into the host nuclear genome. Fluorescent in situ hybridization verified the presence of Wolbachia DNA in C. parallelus chromosomes and revealed that some inserts are subspecies-specific while others are present in both subspecies. We discuss our findings in light of symbiont dynamics in an animal hybrid zone.

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“…The mitochondria are not the only issues and it is clear by other studies that the bacterial RNA will be transcribed and taken into the nuclear genome as well (Lebkowski et al, 1984;Robinson et al, 2013). There has been significant evidence that bacteria can adapt to the blood cells and try to live with and within mammalian cells (Domingue and Schlegel, 1977;Tedeschi and Amici, 1972;Tedeschi et al, 1976b;Tedeschi et al, 1978).…”

Section: Lateral Gene Transfer (Genetic Effects)mentioning

confidence: 99%

Microbial influences on hormesis, oncogenesis, and therapy: A review of the literature

Clanton

Saucier

Ford

et al. 2015

Environmental Research

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

Cited by 53 publications

References 81 publications

Intronless WNT10B-short variant underlies new recurrent allele-specific rearrangement in acute myeloid leukaemia

Intronless WNT10B-short variant underlies new recurrent allele-specific rearrangement in acute myeloid leukaemia

Wolbachia co-infection in a hybrid zone: discovery of horizontal gene transfers from two Wolbachia supergroups into an animal genome

Microbial influences on hormesis, oncogenesis, and therapy: A review of the literature

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