The Role of Gut Microbiota in the Regulation of Standard Metabolic Rate in Female

Overview

Journal PeerJ

Specialties Biology
Environmental Health
General Medicine

Date 2018 May 31

PMID 29844953

Citations 7

Authors

Paul A Ayayee

Andrew Ondrejech

George Keeney

Agusti Munoz-Garcia

Affiliations

Soon will be listed here.

Abstract

Insect gut microbiota contribute significantly to host nutritional ecology. Disrupting insect gut microbial assemblages impacts nutrient provisioning functions, and can potentially affect host standard metabolic rate (SMR), a measure of host energy balance. In this study, we evaluated the effect of disrupting gut microbial assemblages on the SMR of female cockroaches fed dog food (DF, high protein/carbohydrate (p/c) ratio), and cellulose-amended dog food (CADF, 30% dog food, 70% cellulose, low p/c ratio) diets, supplemented with none, low, or high antibiotic doses. Bacterial loads decreased significantly between diet types ( = 0.04) and across antibiotic doses ( = 0.04). There was a significant diet type x antibiotic dose interaction on SMR of females on both diets ( = 0.05) by the end of the seven-day experimental period. In CADF-fed females, SMR decreased linearly with decreasing bacterial load. However, SMR of DF-fed females on the low dose was significantly higher than those in the control and high dose groups. This is interpreted as a diet-dependent response by low dose DF-fed females to the loss of nutritional services provided by gut bacteria. Severe reductions in bacterial load at high doses reduced SMR of females on both diet types. This study provides insights into the potential role of gut bacteria as modulators of host energy expenditure under varying dietary conditions.

Citing Articles

Gut microbiota diversity in a dung beetle (Catharsius molossus) across geographical variations and brood ball-mediated microbial transmission.

Chen H, Wang C, Zhang B, He Z, Yang R, Zhang H PLoS One. 2024; 19(6):e0304908.

PMID: 38905245 PMC: 11192329. DOI: 10.1371/journal.pone.0304908.

Antibiotic-altered gut microbiota explain host memory plasticity and disrupt pace-of-life covariation for an aquatic snail.

Davidson G, Cienfuegos I, Dalesman S ISME J. 2024; 18(1).

PMID: 38811063 PMC: 11136587. DOI: 10.1093/ismejo/wrae078.

Enhanced gut microbiome supplementation of essential amino acids in fed low-protein plant-based diet.

Ayayee P, Petersen N, Riusch J, Rauter C, Larsen T Front Insect Sci. 2024; 4:1396984.

PMID: 38711463 PMC: 11073486. DOI: 10.3389/finsc.2024.1396984.

16S rRNA Gene Sequencing Reveals Specific Gut Microbes Common to Medicinal Insects.

Geng J, Sui Z, Dou W, Miao Y, Wang T, Wei X Front Microbiol. 2022; 13:892767.

PMID: 35651499 PMC: 9149300. DOI: 10.3389/fmicb.2022.892767.

Metagenomic Survey of the Highly Polyphagous Developing in Ancestral and Exotic Hosts Reveals the Lack of a Stable Microbiota in Larvae and the Strong Influence of Metamorphosis on Adult Gut Microbiota.

Aluja M, Zamora-Briseno J, Perez-Brocal V, Altuzar-Molina A, Guillen L, Desgarennes D Front Microbiol. 2021; 12:685937.

PMID: 34413837 PMC: 8367737. DOI: 10.3389/fmicb.2021.685937.

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