Effect of freezing on gut microbiota composition and functionality for in vitro fermentation experiments

The gut microbiota has a profound effect on human health and is modulated by food and bioactive compounds. To study such interaction, in vitro batch fermentations are performed with fecal material, and some experimental designs may require that such fermentations be performed with previously frozen...

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Detalhes bibliográficos
Autores: Pérez-Burillo, S. (Sergio)|||/items/f693a845-e93f-45a7-80a5-d4e63a300f18, Hinojosa-Nogueira, D. (Daniel)|||/items/dc294e4e-8ada-46a9-8d1e-3b71cf8f1ab1, Navajas-Porras, B. (Beatriz)|||/items/485c6801-6407-48d4-82fc-ed59951283be, Balzerani, F. (Francesco)|||/items/8b7a4faf-167a-4631-8dd0-676cfce9e04a, Lerma-Aguilera, A. (Alberto)|||/items/82f9c14c-0114-4159-a2fe-aba2471b2e2d, León, D. (Daniel)|||/items/f71e14ab-fc65-45a0-a0ce-112bf44be162, Pastoriza, S. (Silvia)|||/items/4a2c87c3-76db-4cd2-98a2-5b9fc0fe2bc0, Apaolaza-Emparanza, I.(Iñigo)|||/items/2a505211-8ceb-4c53-a1bc-5fce2aabbf50, Planes-Pedreño, F.J. (Francisco Javier)|||/items/3234f2e5-4407-41e9-9058-1834965f6afa, Francino, M.P. (M. Pilar)|||/items/7da65cad-65d1-4cbc-b71c-b2362bd38f04, Rufián-Henares, J.Á. (Ángel José)|||/items/e6bc3d5e-2e59-491b-8075-528a4288a5cf, Blasco-Aramburu, T. (Telmo)|||/items/d5e49995-9c11-4047-8bbd-748bcf13cb06
Formato: artículo
Fecha de publicación:2021
País:España
Recursos:Consejo Superior de Investigaciones Científicas (CSIC)
Repositorio:Dadun. Depósito Académico Digital de la Universidad de Navarra
Idioma:inglés
OAI Identifier:oai:dadun.unav.edu:10171/115227
Acesso em linha:https://hdl.handle.net/10171/115227
Access Level:acceso abierto
Palavra-chave:Gut microbiota
Freezing
Foods
Bioactive compounds
Storage
Descrição
Resumo:The gut microbiota has a profound effect on human health and is modulated by food and bioactive compounds. To study such interaction, in vitro batch fermentations are performed with fecal material, and some experimental designs may require that such fermentations be performed with previously frozen stools. Although it is known that freezing fecal material does not alter the composition of the microbial community in 16S rRNA gene amplicon and metagenomic sequencing studies, it is not known whether the microbial community in frozen samples could still be used for in vitro fermentations. To explore this, we undertook a pilot study in which in vitro fermentations were performed with fecal material from celiac, cow's milk allergic, obese, or lean children that was frozen (or not) with 20% glycerol. Before fermentation, the fecal material was incubated in a nutritious medium for 6 days, with the aim of giving the microbial community time to recover from the effects of freezing. An aliquot was taken daily from the stabilization vessel and used for the in vitro batch fermentation of lentils. The microbial community structure was significantly different between fresh and frozen samples, but the variation introduced by freezing a sample was always smaller than the variation among individuals, both before and after fermentation. Moreover, the potential functionality (as determined in silico by a genome-scaled metabolic reconstruction) did not differ significantly, possibly due to functional redundancy. The most affected genus was Bacteroides, a fiber degrader. In conclusion, if frozen fecal material is to be used for in vitro fermentation purposes, our preliminary analyses indicate that the functionality of microbial communities can be preserved after stabilization.