Rifampicin treatment of Blattella germanica evidences a fecal transmission route of their gut microbiota

Eukaryotes have established symbiotic relationship with microorganisms, which enables them to accomplish functions that they cannot perform alone. In the German cockroach, Blattella germanica, the obligate endosymbiont Blattabacterium coexists with a rich gut microbiota. The transmission of Blattaba...

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Published in	FEMS microbiology ecology Vol. 94; no. 2; p. 1
Main Authors	Rosas, Tania, García-Ferris, Carlos, Domínguez-Santos, Rebeca, Llop, Pablo, Latorre, Amparo, Moya, Andrés
Format	Journal Article
Language	English
Published	England Oxford University Press 01.02.2018
Subjects	Adult adults Animals Anti-Bacterial Agents - pharmacology antibiotic resistance Antibiotics Bacterial Typing Techniques Blattabacterium Blattella germanica Blattellidae - microbiology Cockroaches Composition effects Diet digestive system Dosage and administration Ecology endosymbionts Eukaryotes eukaryotic cells feces Feces - microbiology Flavobacteriaceae - drug effects Flavobacteriaceae - isolation & purification Gametocytes Gastrointestinal Microbiome - drug effects Humans Intestinal microflora intestinal microorganisms Male Microbiology Microbiota Microorganisms neonates Oocytes Patient outcomes Phylogeny Populations rifampicin Rifampin Rifampin - pharmacology Symbiosis Germany endosymbiont antibiotic treatment, microbiota transmission gut microbiota insect symbiosis
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Abstract	Eukaryotes have established symbiotic relationship with microorganisms, which enables them to accomplish functions that they cannot perform alone. In the German cockroach, Blattella germanica, the obligate endosymbiont Blattabacterium coexists with a rich gut microbiota. The transmission of Blattabacterium is vertical, but little is known about how the gut microbiota colonizes newborn individuals. In this study, we treated B. germanica populations with rifampicin, a broad-spectrum antibiotic, during two generations and analyzed gut bacterial composition and the Blattabacterium load in control and rifampicin-treated populations. Rifampicin exerted a drastic effect on gut microbiota composition, which recovered in the second generation in the case where the antibiotic was not added to the diet. Furthermore, we observed that bacterial species present in the diet, and particularly in the feces, contribute significantly to establishing the gut microbiota. Finally, the Blattabacterium population remained unaffected by the antibiotic treatment of adults during the first generation but was strongly reduced in the second generation, suggesting that this intracellular symbiont is sensitive to rifampicin only during the infection of the mature oocytes, when it is in an extracellular stage.
AbstractList	Eukaryotes have established symbiotic relationship with microorganisms, which enables them to accomplish functions that they cannot perform alone. In the German cockroach, Blattella germanica, the obligate endosymbiont Blattabacterium coexists with a rich gut microbiota. The transmission of Blattabacterium is vertical, but little is known about how the gut microbiota colonizes newborn individuals. In this study, we treated B. germanica populations with rifampicin, a broad-spectrum antibiotic, during two generations and analyzed gut bacterial composition and the Blattabacterium load in control and rifampicin-treated populations. Rifampicin exerted a drastic effect on gut microbiota composition, which recovered in the second generation in the case where the antibiotic was not added to the diet. Furthermore, we observed that bacterial species present in the diet, and particularly in the feces, contribute significantly to establishing the gut microbiota. Finally, the Blattabacterium population remained unaffected by the antibiotic treatment of adults during the first generation but was strongly reduced in the second generation, suggesting that this intracellular symbiont is sensitive to rifampicin only during the infection of the mature oocytes, when it is in an extracellular stage.Eukaryotes have established symbiotic relationship with microorganisms, which enables them to accomplish functions that they cannot perform alone. In the German cockroach, Blattella germanica, the obligate endosymbiont Blattabacterium coexists with a rich gut microbiota. The transmission of Blattabacterium is vertical, but little is known about how the gut microbiota colonizes newborn individuals. In this study, we treated B. germanica populations with rifampicin, a broad-spectrum antibiotic, during two generations and analyzed gut bacterial composition and the Blattabacterium load in control and rifampicin-treated populations. Rifampicin exerted a drastic effect on gut microbiota composition, which recovered in the second generation in the case where the antibiotic was not added to the diet. Furthermore, we observed that bacterial species present in the diet, and particularly in the feces, contribute significantly to establishing the gut microbiota. Finally, the Blattabacterium population remained unaffected by the antibiotic treatment of adults during the first generation but was strongly reduced in the second generation, suggesting that this intracellular symbiont is sensitive to rifampicin only during the infection of the mature oocytes, when it is in an extracellular stage. Eukaryotes have established symbiotic relationship with microorganisms, which enables them to accomplish functions that they cannot perform alone. In the German cockroach, Blattella germanica, the obligate endosymbiont Blattabacterium coexists with a rich gut microbiota. The transmission of Blattabacterium is vertical, but little is known about how the gut microbiota colonizes newborn individuals. In this study, we treated B. germanica populations with rifampicin, a broad-spectrum antibiotic, during two generations and analyzed gut bacterial composition and the Blattabacterium load in control and rifampicin-treated populations. Rifampicin exerted a drastic effect on gut microbiota composition, which recovered in the second generation in the case where the antibiotic was not added to the diet. Furthermore, we observed that bacterial species present in the diet, and particularly in the feces, contribute significantly to establishing the gut microbiota. Finally, the Blattabacterium population remained unaffected by the antibiotic treatment of adults during the first generation but was strongly reduced in the second generation, suggesting that this intracellular symbiont is sensitive to rifampicin only during the infection of the mature oocytes, when it is in an extracellular stage. Eukaryotes have established symbiotic relationship with microorganisms, which enables them to accomplish functions that they cannot perform alone. In the German cockroach, Blattella germanica, the obligate endosymbiont Blattabacterium coexists with a rich gut microbiota. The transmission of Blattabacterium is vertical, but little is known about how the gut microbiota colonizes newborn individuals. In this study, we treated B. germanica populations with rifampicin, a broad-spectrum antibiotic, during two generations and analyzed gut bacterial composition and the Blattabacterium load in control and rifampicin-treated populations. Rifampicin exerted a drastic effect on gut microbiota composition, which recovered in the second generation in the case where the antibiotic was not added to the diet. Furthermore, we observed that bacterial species present in the diet, and particularly in the feces, contribute significantly to establishing the gut microbiota. Finally, the Blattabacterium population remained unaffected by the antibiotic treatment of adults during the first generation but was strongly reduced in the second generation, suggesting that this intracellular symbiont is sensitive to rifampicin only during the infection of the mature oocytes, when it is in an extracellular stage. Keywords: insect symbiosis; gut microbiota; endosymbiont; antibiotic treatment, microbiota transmission
Audience	Academic
Author	Rosas, Tania García-Ferris, Carlos Domínguez-Santos, Rebeca Moya, Andrés Latorre, Amparo Llop, Pablo
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Keywords	endosymbiont antibiotic treatment, microbiota transmission gut microbiota insect symbiosis
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Snippet	Eukaryotes have established symbiotic relationship with microorganisms, which enables them to accomplish functions that they cannot perform alone. In the...
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SubjectTerms	Adult adults Animals Anti-Bacterial Agents - pharmacology antibiotic resistance Antibiotics Bacterial Typing Techniques Blattabacterium Blattella germanica Blattellidae - microbiology Cockroaches Composition effects Diet digestive system Dosage and administration Ecology endosymbionts Eukaryotes eukaryotic cells feces Feces - microbiology Flavobacteriaceae - drug effects Flavobacteriaceae - isolation & purification Gametocytes Gastrointestinal Microbiome - drug effects Humans Intestinal microflora intestinal microorganisms Male Microbiology Microbiota Microorganisms neonates Oocytes Patient outcomes Phylogeny Populations rifampicin Rifampin Rifampin - pharmacology Symbiosis
Title	Rifampicin treatment of Blattella germanica evidences a fecal transmission route of their gut microbiota
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