<i>Wolbachia</i> endosymbionts subvert the endoplasmic reticulum to acquire host membranes without triggering ER stress

Fattouh, Nour; Cazevieille, Chantal; Landmann, Frédéric

doi:10.1101/448365

Cited by 9 publications

(11 citation statements)

References 63 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…One of the most strongly associated SNPs is found in a gene associated with the endoplasmic reticulum (ER) membrane (XBP1) [69]. Consistent with this functional prediction, a recent study on a wMel-infected D. melanogaster cell line found that Wolbachia resides within ER-derived membrane near and within the ER itself [70]. Modifying this membrane might therefore enable the host to impact Wolbachia titer on the cellular level.…”

Section: Host Genotypes Associated With Wolbachia Titermentioning

confidence: 73%

Deep data mining reveals variable abundance and distribution of microbial reproductive manipulators within and among diverse host species

Medina

Russell

Aswadhati

et al. 2019

Preprint

View full text Add to dashboard Cite

Bacterial symbionts that manipulate the reproduction of their hosts to increase their successful transmission are important factors in invertebrate ecology and evolution. In light of their use as a biological control agent, studying the genomic and phenotypic diversity of reproductive manipulators can improve efforts to control infectious diseases and contribute to our understanding of host-symbiont evolution. Despite the vast genomic and phenotypic diversity of reproductive manipulators, only a handful of Wolbachia strains are used as biological control agents because little is known about the broad scale infection frequencies of these bacteria in nature. Here we develop a data mining approach to quantify the number of arthropod and nematode host species available on the Sequence Read Archive (SRA) that are infected with Wolbachia and other reproductive manipulators such as Rickettsia and Spiroplasma. Across the entire database, we found reproductive manipulators infected 1733 arthropod and 103 nematode samples, representing 121 and 10 species, respectively. We estimated that Wolbachia infects approximately 24% of all arthropod species and 20% of all nematode species. In contrast, we estimated other reproductive manipulators infect 0-8% of arthropod and nematode species. We show that relative Wolbachia density within hosts, titer, is significantly lower than the titer of the other reproductive manipulators. Considering the fitness costs of high titers, low titer may contribute to enabling Wolbachia's high prevalence across hosts species and mitigate impacts on host biology compared with other reproductive manipulator taxa. Our study demonstrates that data mining is a powerful tool for understanding host-symbiont coevolution and opens an array of previously inaccessible questions for further analysis. IntroductionBacterial symbionts of eukaryotic hosts exhibit an impressive array of phenotypes that interact with host biology. Included among these symbionts are bacteria that alter host reproduction in order to increase their likelihood of transmission to the next host generation [1-4], a strategy termed reproductive manipulation. Depending on the nature of host reproduction, reproductive manipulators are generally transmitted vertically by associating with either the oocyte or developing embryos [5]. Manipulative phenotypes range from strategies that prevent the survival of uninfected offspring, such as cytoplasmic incompatibility, to strategies such as feminization, male killing, and parthenogenesis, that actually change the sex ratio to favor females for overall increased infection rates [1][2][3][4]. These drastic manipulations to normal host biology mean that reproductive manipulators can induce reproductive isolation, drive changes in sexuality, and alter reproductive ecology in their hosts [6][7][8].

show abstract

Section: Host Genotypes Associated With Wolbachia Titermentioning

confidence: 73%

Deep data mining reveals variable abundance and distribution of microbial reproductive manipulators within and among diverse host species

Medina

Russell

Aswadhati

et al. 2019

Preprint

View full text Add to dashboard Cite

show abstract

“…Wolbachia and its host have a long history of co-evolution, and the interaction between both parters is very complex, which has not been clearly clari ed so far [30]. Wolbachia is mainly located in the insect host reproductive system [26], including female ovary and male testis which makes them good materials for studying Wolbachia-host interaction. Previous results based on the transcriptomic data of the testis tissue of the third instar larvae of Drosophila have shown that Wolbachia infection can affect the expression of genes related to spermatogenesis and thus may induce CI [27].…”

Section: Discussionmentioning

confidence: 99%

“…Wolbachia is mainly localized in the reproductive tissues of host [26], which is a good material for studying the interaction between Wolbachia and host. Previous studies have showed that Wolbachia affects the early spermatogenesis process [27].…”

Section: Introductionmentioning

confidence: 99%

The Association of Wolbachia on the Gene Expression in Drosophila Adult Testis

Dou

Xiao²,

Huang

2020

Preprint

View full text Add to dashboard Cite

Abstract Background: Wolbachia is a type of intracellular symbiotic bacteria widely distributed in arthropods including most insects and nematodes. These maternally inherited bacteria can regulate the host's reproductive system in various ways for their own vertical transmission. Since the identification of Wolbachia in many insects, the relationship between Wolbachia and host has attracted great interest. Wolbachia must rely on the host cells to survive, and they can also improve the fitness of the host through a variety of ways. However, the molecular basis of interaction between Wolbachia and their host has not been well resolved so far. Results: We performed transcriptome sequencing on testis tissues of adults of Wolbachia-infected and Wolbachia-free Drosophila melanogaster. Comparison of gene expression profiles revealed 471 significantly differentially expressed genes that involved in cell metabolism, cell membrane component correlation and hydrolysis process.Conclusions: Our results show that lipid and carbohydrate metabolism are more active in Wolbachia-infected testis than in Wolbachia free testis. This work strengthens our general understanding of the Wolbachia-host intracellular relationship and may provide a new perspective for Wolbachia-mediated virus-blocking.

show abstract

“…Thus, Wolbachia may alter host protein synthesis as well as ubiquitination-mediated proteolysis to obtain amino acids as their primary source of nutrition. Consistent with using host protein synthesis and degradation pathways for its own nutrition, Wolbachia induces the reorganization of host cell endoplasmic reticulum (ER) and surrounds itself with ER-derived membrane (Fattouh et al 2019), creating a niche near translation and proteolysis machinery. Given that ubiquitination and protein turnover is involved in host cellular differentiation (Kimata 2019), Wolbachia may have co-opted its nutrition-provisioning genes for host manipulation.…”

Section: B Other Known Strategies Of Wolbachia-mediated Control Of mentioning

confidence: 99%

“…Reciprocal control over host/symbiont processes works through endogenous and mimicked mechanisms (dashed lines). B) An example of how host-symbiont interactions (straight arrows) function with endogenous mechanisms (curved arrows) to cause phenotypic changes in cell state, such as symbiont-induced formation of an intracellular replicative niche derived from the endoplasmic reticulum membrane, as has been reported for Wolbachia (Fattouh et al 2019) and a variety of other symbionts (see text). The theory of bacterial endosymbiont genome evolution posits that upon host restriction, bacterial chromosomes begin degrading due to the accumulation of deleterious mutations and the subsequent deletion of pseudogenized regions.…”

Section: C Exploring Overlooked Mechanisms: Future Prospects In Wolmentioning

confidence: 99%

Trends in symbiont-induced host cellular differentiation

Russell¹,

Castillo²

2020

Preprint

View full text Add to dashboard Cite

Bacteria participate in a wide diversity of symbiotic associations with eukaryotic hosts that require precise interactions for bacterial recognition and persistence. Most commonly, host-associated bacteria interfere with host gene expression to modulate the immune response to the infection. However, many of these bacteria also interfere with host cellular differentiation pathways to create a hospitable niche, resulting in the formation of novel cell types, tissues, and organs. In both of these situations, bacterial symbionts must interact with eukaryotic regulatory pathways. Here, we detail what is known about how bacterial symbionts, from pathogens to mutualists, control host cellular differentiation across the central dogma, from epigenetic chromatin modifications, to transcription and mRNA processing, to translation and protein modifications. We identify four main trends from this survey. First, mechanisms for controlling host gene expression appear to evolve from symbionts co-opting cross-talk between host signalling pathways. Second, symbiont regulatory capacity is constrained by the processes that drive reductive genome evolution in host-associated bacteria. Third, the regulatory mechanisms symbionts exhibit correlate with the cost/benefit nature of the association. And, fourth symbiont mechanisms for interacting with host genetic regulatory elements are not bound by native bacterial capabilities. Using this knowledge, we explore how the ubiquitous intracellular Wolbachia symbiont of arthropods and nematodes may modulate host cellular differentiation to manipulate host reproduction. Our survey of the literature on how infection alters gene expression in Wolbachia and its hosts revealed that, despite their intermediate-sized genomes, different strains appear capable of a wide diversity of regulatory manipulations. Given this and Wolbachia’s diversity of phenotypes and eukaryotic-like proteins, we expect that many symbiont-induced host differentiation mechanisms will be discovered in this system.

show abstract

Wolbachia endosymbionts subvert the endoplasmic reticulum to acquire host membranes without triggering ER stress

Cited by 9 publications

References 63 publications

Deep data mining reveals variable abundance and distribution of microbial reproductive manipulators within and among diverse host species

Deep data mining reveals variable abundance and distribution of microbial reproductive manipulators within and among diverse host species

The Association of Wolbachia on the Gene Expression in Drosophila Adult Testis

Trends in symbiont-induced host cellular differentiation

Contact Info

Product

Resources

About