Comparative Analysis of Gut Microbiota in Centenarians and Young People: Impact of Eating Habits and Childhood Living Environment.

Epp Sepp,Madis Jaagura,Jelena Štšepetova,Siiri Kõljalg,Indrek Soidla,Helgi Kolk,Tiiu Rööp,Mirjam Vallas,Mare Ainsaar,Imbi Smidt,Marika Mikelsaar,Reet Mändar

doi:10.3389/fcimb.2022.851404

Abstract

The composition of centenarians’ gut microbiota has consistently been used as a model for healthy aging studies. However, there is an incomplete understanding of how childhood living conditions and eating habits affect the development and composition of gastrointestinal microbiota in centenarians with good cognitive functions. We compared the gut microbiota as well as the living and eating habits of the oldest-old group and the young people group. The richness and diversity of microbiota and the abundance of hereditary and environmental microbes were higher in people with longevity than young people. People with longevity ate more potatoes and cereal products. In their childhood, they had more exposure to farm animals and did not have sewers compared with young people. Young people’s gut microbiota contained more butyrate-producing bacteria and bacteria that characterized an animal-based Western diet. These results expand our understanding of the effects of childhood environment and diet on the development and stability of the microbiota in people with longevity.

Highlights

IntroductionThe world’s population is aging and this poses a significant burden to both the economy and healthcare systems around the world
The richness and diversity of microbiota were significantly higher in centenarians and oldest-old than in young people (Figure 1)
Our study revealed substantial differences in the gut microbiota between the Estonian longevity group and young people

Summary

Introduction

The world’s population is aging and this poses a significant burden to both the economy and healthcare systems around the world. The problem arises on how to sustain health in the aging. Centenarians (around 100 years of age) pertain to people with the longest life span as a result of their conscious effort to maintain their health. Several studies have explored the role of gut microbiota in healthy aging and longevity (O'Toole and Jeffery, 2018). The composition of the human gut microbiota is mainly linked to human genetic background and epigenetic modulators such as environment, diet, aging, and development of society (Shenderov, 2012; Mangiola et al, 2018; Nagpal et al, 2018; Coman and Vodnar, 2020)

Objectives

Methods

Results

Conclusion