Gut Microbiota Cannot Compensate the Impact of (quasi) Aposymbiosis in Blattella germanica

Blattella germanica presents a very complex symbiotic system, involving the following two kinds of symbionts: the endosymbiont Blattabacterium and the gut microbiota. Although the role of the endosymbiont has been fully elucidated, the function of the gut microbiota remains unclear. The study of the...

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Published inBiology (Basel, Switzerland) Vol. 10; no. 10; p. 1013
Main Authors Muñoz-Benavent, Maria, Latorre, Amparo, Alemany-Cosme, Ester, Marín-Miret, Jesús, Domínguez-Santos, Rebeca, Silva, Francisco J., Gil, Rosario, García-Ferris, Carlos
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 09.10.2021
MDPI
Subjects
Adults
Antibiotics
aposymbiont
Biology
Blattabacterium
Blattaria
Blattella germanica
Cockroaches
Design
digestive system
endosymbionts
Fitness
gut microbiota
Insects
Intestinal microflora
intestinal microorganisms
Microbiota
Oocytes
Population
rifampicin
Rifampin
Symbionts
symbiosis
Termites
United States > US
Germany
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Abstract Blattella germanica presents a very complex symbiotic system, involving the following two kinds of symbionts: the endosymbiont Blattabacterium and the gut microbiota. Although the role of the endosymbiont has been fully elucidated, the function of the gut microbiota remains unclear. The study of the gut microbiota will benefit from the availability of insects deprived of Blattabacterium. Our goal is to determine the effect of the removal (or, at least, the reduction) of the endosymbiont population on the cockroach’s fitness, in a normal gut microbiota community. For this purpose, we treated our cockroach population, over several generations, with rifampicin, an antibiotic that only affects the endosymbiont during its extracellular phase, and decreases its amount in the following generation. As rifampicin also affects gut bacteria that are sensitive to this antibiotic, the treatment was performed during the first 12 days of the adult stage, which is the period when the endosymbiont infects the oocytes and lacks bacteriocyte protection. We found that after this antibiotic treatment, the endosymbiont population remained extremely reduced and only the microbiota was able to recover, although it could not compensate for the endosymbiont role, and the host’s fitness was drastically affected. This accomplished reduction, however, is not homogenous and requires further study to develop stable quasi-aposymbiotic cockroaches.
AbstractList Blattella germanica presents a very complex symbiotic system, involving the following two kinds of symbionts: the endosymbiont Blattabacterium and the gut microbiota. Although the role of the endosymbiont has been fully elucidated, the function of the gut microbiota remains unclear. The study of the gut microbiota will benefit from the availability of insects deprived of Blattabacterium. Our goal is to determine the effect of the removal (or, at least, the reduction) of the endosymbiont population on the cockroach’s fitness, in a normal gut microbiota community. For this purpose, we treated our cockroach population, over several generations, with rifampicin, an antibiotic that only affects the endosymbiont during its extracellular phase, and decreases its amount in the following generation. As rifampicin also affects gut bacteria that are sensitive to this antibiotic, the treatment was performed during the first 12 days of the adult stage, which is the period when the endosymbiont infects the oocytes and lacks bacteriocyte protection. We found that after this antibiotic treatment, the endosymbiont population remained extremely reduced and only the microbiota was able to recover, although it could not compensate for the endosymbiont role, and the host’s fitness was drastically affected. This accomplished reduction, however, is not homogenous and requires further study to develop stable quasi-aposymbiotic cockroaches.
Simple SummaryThe German cockroach Blattella germanica is a good model to study complex symbiotic relationships because the following two symbiotic systems coexist in a single individual: the endosymbiont Blattabacterium (living inside specialized cells called bacteriocytes) and the gut microbiota. Although the role of the endosymbiont has been fully elucidated, the function of the gut microbiota remains unclear. The study of the gut microbiota will benefit from the availability of insects deprived of Blattabacterium. Our goal is to determine the effect of the removal (or, at least, the reduction) of the endosymbiont population on the cockroach’s fitness, in a normal gut microbiota community. For this purpose, we treated our cockroach population with rifampicin to decrease the amount of endosymbiont in the following generation. As the treatment also affects rifampicin-sensitive gut bacteria, we allowed it to recover for at least 20 days before sampling. We found that after this antibiotic treatment, the endosymbiont population remained extremely reduced and only the microbiota were able to recover, although it could not compensate for the endosymbiont role, and the host’s fitness was drastically affected. This accomplished reduction, however, is not homogenous and requires further study to develop stable quasi-aposymbiotic cockroaches.AbstractBlattella germanica presents a very complex symbiotic system, involving the following two kinds of symbionts: the endosymbiont Blattabacterium and the gut microbiota. Although the role of the endosymbiont has been fully elucidated, the function of the gut microbiota remains unclear. The study of the gut microbiota will benefit from the availability of insects deprived of Blattabacterium. Our goal is to determine the effect of the removal (or, at least, the reduction) of the endosymbiont population on the cockroach’s fitness, in a normal gut microbiota community. For this purpose, we treated our cockroach population, over several generations, with rifampicin, an antibiotic that only affects the endosymbiont during its extracellular phase, and decreases its amount in the following generation. As rifampicin also affects gut bacteria that are sensitive to this antibiotic, the treatment was performed during the first 12 days of the adult stage, which is the period when the endosymbiont infects the oocytes and lacks bacteriocyte protection. We found that after this antibiotic treatment, the endosymbiont population remained extremely reduced and only the microbiota was able to recover, although it could not compensate for the endosymbiont role, and the host’s fitness was drastically affected. This accomplished reduction, however, is not homogenous and requires further study to develop stable quasi-aposymbiotic cockroaches.
Blattella germanica presents a very complex symbiotic system, involving the following two kinds of symbionts: the endosymbiont Blattabacterium and the gut microbiota. Although the role of the endosymbiont has been fully elucidated, the function of the gut microbiota remains unclear. The study of the gut microbiota will benefit from the availability of insects deprived of Blattabacterium. Our goal is to determine the effect of the removal (or, at least, the reduction) of the endosymbiont population on the cockroach's fitness, in a normal gut microbiota community. For this purpose, we treated our cockroach population, over several generations, with rifampicin, an antibiotic that only affects the endosymbiont during its extracellular phase, and decreases its amount in the following generation. As rifampicin also affects gut bacteria that are sensitive to this antibiotic, the treatment was performed during the first 12 days of the adult stage, which is the period when the endosymbiont infects the oocytes and lacks bacteriocyte protection. We found that after this antibiotic treatment, the endosymbiont population remained extremely reduced and only the microbiota was able to recover, although it could not compensate for the endosymbiont role, and the host's fitness was drastically affected. This accomplished reduction, however, is not homogenous and requires further study to develop stable quasi-aposymbiotic cockroaches.Blattella germanica presents a very complex symbiotic system, involving the following two kinds of symbionts: the endosymbiont Blattabacterium and the gut microbiota. Although the role of the endosymbiont has been fully elucidated, the function of the gut microbiota remains unclear. The study of the gut microbiota will benefit from the availability of insects deprived of Blattabacterium. Our goal is to determine the effect of the removal (or, at least, the reduction) of the endosymbiont population on the cockroach's fitness, in a normal gut microbiota community. For this purpose, we treated our cockroach population, over several generations, with rifampicin, an antibiotic that only affects the endosymbiont during its extracellular phase, and decreases its amount in the following generation. As rifampicin also affects gut bacteria that are sensitive to this antibiotic, the treatment was performed during the first 12 days of the adult stage, which is the period when the endosymbiont infects the oocytes and lacks bacteriocyte protection. We found that after this antibiotic treatment, the endosymbiont population remained extremely reduced and only the microbiota was able to recover, although it could not compensate for the endosymbiont role, and the host's fitness was drastically affected. This accomplished reduction, however, is not homogenous and requires further study to develop stable quasi-aposymbiotic cockroaches.
Author Silva, Francisco J.
Domínguez-Santos, Rebeca
García-Ferris, Carlos
Alemany-Cosme, Ester
Marín-Miret, Jesús
Latorre, Amparo
Muñoz-Benavent, Maria
Gil, Rosario
AuthorAffiliation 2 Genomic and Health Area, Foundation for the Promotion of Sanitary and Biomedical Research of the Valencia Region, 46020 Valencia, Spain
3 Department of Biochemistry and Molecular Biology, University of Valencia, Burjassot, 46100 Valencia, Spain
1 Institute for Integrative Systems Biology, University of Valencia and Spanish Research Council, Paterna, 46980 Valencia, Spain; maria.munoz-benavent@uv.es (M.M.-B.); amparo.latorre@uv.es (A.L.); esacos@alumni.uv.es (E.A.-C.); jesus.marin@uv.es (J.M.-M.); rebeca.dominguez@uv.es (R.D.-S.); francisco.silva@uv.es (F.J.S.)
AuthorAffiliation_xml – name: 2 Genomic and Health Area, Foundation for the Promotion of Sanitary and Biomedical Research of the Valencia Region, 46020 Valencia, Spain
– name: 1 Institute for Integrative Systems Biology, University of Valencia and Spanish Research Council, Paterna, 46980 Valencia, Spain; maria.munoz-benavent@uv.es (M.M.-B.); amparo.latorre@uv.es (A.L.); esacos@alumni.uv.es (E.A.-C.); jesus.marin@uv.es (J.M.-M.); rebeca.dominguez@uv.es (R.D.-S.); francisco.silva@uv.es (F.J.S.)
– name: 3 Department of Biochemistry and Molecular Biology, University of Valencia, Burjassot, 46100 Valencia, Spain
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  article-title: Unraveling assemblage, functions and stability of the gut microbiota of Blattella germanica by antibiotic treatment
  publication-title: Front. Microbiol.
  doi: 10.3389/fmicb.2020.00487
– ident: ref_3
  doi: 10.3390/microorganisms9020464
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Snippet Blattella germanica presents a very complex symbiotic system, involving the following two kinds of symbionts: the endosymbiont Blattabacterium and the gut...
Simple SummaryThe German cockroach Blattella germanica is a good model to study complex symbiotic relationships because the following two symbiotic systems...
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StartPage 1013
SubjectTerms Adults
Antibiotics
aposymbiont
Biology
Blattabacterium
Blattaria
Blattella germanica
Cockroaches
Design
digestive system
endosymbionts
Fitness
gut microbiota
Insects
Intestinal microflora
intestinal microorganisms
Microbiota
Oocytes
Population
rifampicin
Rifampin
Symbionts
symbiosis
Termites
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Title Gut Microbiota Cannot Compensate the Impact of (quasi) Aposymbiosis in Blattella germanica
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Volume 10
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