Comparative metagenomic analysis of plasmid encoded functions in the human gut microbiome

Jones, Brian V.; Sun, Funing; Marchesi, Julian R.

doi:10.1186/1471-2164-11-46

Cited by 62 publications

(110 citation statements)

References 59 publications

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“…While the relative abundance of plasmids or pollution-related accessory genes has been compared between polluted and clean control sites, no studies have so far compared gene contents of plasmids (64,(69)(70)(71)(72). The recently developed metagenomics approaches to assess the "plasmidome" or "metamobilome" (73,74) present one way to assess accessory gene content independent of what the plasmids encode, but obtaining reliable, closed genome sequences for large self-transmissible plasmids is still a challenge (75). Using the triparental mating approach, we showed the presence of diverse self-transmissible plasmids that do not carry known host-beneficial genes in natural environments.…”

Section: Discussionmentioning

confidence: 99%

Diverse Broad-Host-Range Plasmids from Freshwater Carry Few Accessory Genes

Brown

Sen

Yano

et al. 2013

Appl Environ Microbiol

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c Broad-host-range self-transferable plasmids are known to facilitate bacterial adaptation by spreading genes between phylogenetically distinct hosts. These plasmids typically have a conserved backbone region and a variable accessory region that encodes host-beneficial traits. We do not know, however, how well plasmids that do not encode accessory functions can survive in nature. The goal of this study was to characterize the backbone and accessory gene content of plasmids that were captured from freshwater sources without selecting for a particular phenotype or cultivating their host. To do this, triparental matings were used such that the only required phenotype was the plasmid's ability to mobilize a nonconjugative plasmid. Based on complete genome sequences of 10 plasmids, only 5 carried identifiable accessory gene regions, and none carried antibiotic resistance genes. The plasmids belong to four known incompatibility groups (IncN, IncP-1, IncU, and IncW) and two potentially new groups. Eight of the plasmids were shown to have a broad host range, being able to transfer into alpha-, beta-, and gammaproteobacteria. Because of the absence of antibiotic resistance genes, we resampled one of the sites and compared the proportion of captured plasmids that conferred antibiotic resistance to their hosts with the proportion of such plasmids captured from the effluent of a local wastewater treatment plant. Few of the captured plasmids from either site encoded antibiotic resistance. A high diversity of plasmids that encode no or unknown accessory functions is thus readily found in freshwater habitats. The question remains how the plasmids persist in these microbial communities.

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Section: Discussionmentioning

confidence: 99%

Diverse Broad-Host-Range Plasmids from Freshwater Carry Few Accessory Genes

Brown

Sen

Yano

et al. 2013

Appl Environ Microbiol

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“…The aph (2′′)-Ib gene was associated with mobile elements and was harboured by a strain from the genus Subdoligranulum that includes members of the group of anaerobic commensal microbiota. Our results suggested that these genetic mobile elements can be mobilized and/or have been acquired through horizontal gene transfer, as reported previously for members of the Firmicutes (Jones et al, 2010), which could contribute to the risk of transfer of antibiotic resistance genes from commensals to potential pathogens. It cannot be excluded that the increase of aminoglycoside resistance genes may also be an effect of the SDD therapy since tobramycin is used as part as the cocktail administrated to the patients.…”

Section: Antibiotic Therapy and The Human Gut Microbiotasupporting

confidence: 55%

“…This observation suggests that these resistance genes may be part of larger genetic elements that can be mobilised and/or which have been acquired through horizontal gene transfer. Evidence for the extensive transfer of antibiotic resistance genes in the gut microbiota has been observed before in Bacteroidetes and Firmicutes (Shoemaker et al, 2001;Jones et al, 2010). Consequently, the enrichment of antibiotic resistance genes in the patient's gut microbiota during SDD and their association with mobile genetic elements is a cause of concern as this may facilitate transfer of resistance genes to aerobic nosocomial pathogens.…”

Section: Discussionmentioning

confidence: 99%

Interplay between gut microbiota and antibiotics

Gonzalez¹

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The human body is colonized by a vast number of microorganisms collectively defined as the microbiota. In the gut, the microbiota has important roles in health and disease, and can serve as a host of antibiotic resistance genes. Disturbances in the ecological balance, e.g. by antibiotics, can affect the diversity and dynamics of the microbiota. The extent of the disturbance induced by antibiotics is influenced by, among other factors, the class of antibiotic, the dose, and administration route. One of the most common consequences of excessive antibiotic use is the emergence of antibiotic resistant bacteria and the dissemination of the corresponding resistance genes to other microbial inhabitants of the gut community, in addition to affecting the colonization resistance and promoting the overgrowth of pathogens. These effects are particularly relevant for Intensive Care Unit (ICU) patients, which are frequently exposed to a high risk of hospital-acquired infections associated with antibiotic resistant bacteria.Due to the important roles that members of the gut microbiota play in the host, including their role as potential hubs for the dissemination of antibiotic resistance, recent research has focused on determining the composition and function of gut microorganisms and the antibiotic resistance genes associated with them.The objectives of the research described in this thesis were to study the diversity and dynamics of the gut microbiota and resistome in ICU patients receiving antibiotic prophylactic therapy, and to assess the colonization dynamics with antibiotic resistant bacteria focusing on the commensal microbiota as a reservoir of antibiotic resistance genes by using culture dependent and independent techniques. Furthermore, the genetic background involved in the subsistence phenotype was investigated to disentangle the links between resistance and subsistence.Bacteria harbor antibiotic resistance genes that participate in a range of processes such as resisting the toxic effects of antibiotics, but could also aid in the utilization of antibiotics as sole carbon source, referred to as antibiotic subsistence phenotype.In chapter 2, the potential of gut bacteria from healthy human volunteers and zoo animals to subsist on antibiotics was investigated.Various gut isolates of Escherichia coli and Cellulosimicrobium spp. displayed the subsistence phenotype, mainly with aminoglycosides. Although no antibiotic degradation could be detected, the number of colony forming units increased during growth in medium with only the antibiotic as a carbon source. By using different approaches to study the aminoglycoside subsistence phenotype, we observed that laboratory strains carrying the aminoglycoside 3'phosphotransferase II gene also displayed the subsistence phenotype on aminoglycosides and that glycosylhydrolases seem to be involved in the subsistence phenotype. As the zoo animals for which the subsistence phenotype was investigated also included a number of nonhuman primates, the applicability of Human Intesti...

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“…The intestinal microbiota (a term that has now replaced the old denomination of "microflora" [1,2]) is an ecosystem formed by a variety of ecological niches, made of several bacterial species and a very large amount of strains [3][4][5][6][7][8]. The microbiota is in close contact with the intestinal mucosa or epithelial interface which is, after the respiratory area, the largest surface of the body, occupying approximately 250-400 m 2 .…”

Section: Introductionmentioning

confidence: 99%

“…The human gut microbiota is currently the focus of very advanced research techniques -including studies on the bacterial genome (microbiome) -whose results are published in prestigious scientific journals [3][4][5][6][7][8]. Two major projects, based on systematic DNA sequencing of the microbiota, are currently in progress: (a) the Human Microbiome Project (HMP), in the USA and (b) the Metagenomics of the Human Intestine (metaHIT), held in Europe.…”

Section: Introductionmentioning

confidence: 99%

Probiotics and health: An evidence-based review

Aureli

Capurso

Castellazzi

et al. 2011

Pharmacological Research

232

131

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a b s t r a c tThe intestinal microbiota is an ecosystem formed by a variety of ecological niches, made of several bacterial species and a very large amount of strains. The microbiota is in close contact with the intestinal mucosa or epithelial interface which is, after the respiratory area, the largest surface of the body, occupying approximately 250-400 m 2 . The physiological activities of the microbiota are manifold and are just being unraveled. Based on the observations of the multiple roles played by the microbiota in health and disease, the notion of modifying it with appropriate formulations, i.e. probiotics, is being tested in several settings.This review summarizes the current knowledge on probiotics and discusses both limitations and acquired evidence to support their use in preventive and therapeutic medicine.

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Comparative metagenomic analysis of plasmid encoded functions in the human gut microbiome

Cited by 62 publications

References 59 publications

Diverse Broad-Host-Range Plasmids from Freshwater Carry Few Accessory Genes

Diverse Broad-Host-Range Plasmids from Freshwater Carry Few Accessory Genes

Interplay between gut microbiota and antibiotics

Probiotics and health: An evidence-based review

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