Aging gut microbiota of wild macaques are equally diverse, less stable, but progressively personalized

Sadoughi, Baptiste; Schneider, Dominik; Daniel, Rolf; Schülke, Oliver; Ostner, Julia

doi:10.1186/s40168-022-01283-2

Cited by 15 publications

(20 citation statements)

References 109 publications

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“…Some of these studies show a large effect of individual identity on the microbiome over a period of two months [1], 1.5 years [2], 2 years [3] or 8 years [4]. However, in two of these cases [2,4], the effects were time dependent. Other longitudinal studies of the microbiome where individuals were repeatedly sampled over long periods of time include individual identity as a random effect in their statistical models to control for individual variation, but do not directly test what proportion of the variation is explained by identity [5][6][7].…”

mentioning

confidence: 99%

“…The individuality of the microbiome has been examined previously over various timescales, but primarily using comparisons of within versus between individual similarity. Some of these studies show a large effect of individual identity on the microbiome over a period of two months [1], 1.5 years [2], 2 years [3] or 8 years [4]. However, in two of these cases [2,4], the effects were time dependent.…”

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confidence: 99%

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Individualized composition or community dynamics? A new statistical approach to assess the individuality of host-associated microbiomes

Mallott

2022

Proc. R. Soc. B.

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confidence: 99%

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confidence: 99%

Individualized composition or community dynamics? A new statistical approach to assess the individuality of host-associated microbiomes

Mallott

2022

Proc. R. Soc. B.

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“…Thus, we also tested for greater intra-and inter-individual variation amongst samples taken in older age groups. Such heterogeneity has previously been identi ed in humans [15,46] and wild macaques (Macaca assamensis) [30]. We extended this research by also testing whether GM variation is greatest during the terminal year due to greater instability.…”

Section: Introductionmentioning

confidence: 63%

“…However, no clear consensus has emerged from this research. Whilst some studies have reported shifts in GM composition [28,29] and greater GM heterogeneity with increasing age [30], others have found that GM dynamics and overall composition remain largely invariable throughout adulthood [31][32][33].…”

Section: Introductionmentioning

confidence: 99%

Assessing longitudinal gut microbiome dynamics in relation to age and senescence in a wild animal population

Worsley,

Davies,

Lee

et al. 2023

Preprint

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Background In humans, gut microbiome (GM) differences are often correlated with, and sometimes causally implicated in, ageing. However, it is unclear how these findings translate in wild animal populations. Furthermore, studies that investigate how GM dynamics change within individuals (as opposed to among individuals), and with declines in physiological condition, are needed to fully understand links between chronological age, senescence, and the GM, but have rarely been done. Here, we use longitudinal data collected from a closed population of Seychelles warblers (Acrocephalus sechellensis) to investigate how bacterial GM alpha diversity, composition, and stability are associated with chronological age and the year leading up to death. We hypothesise that GM diversity and composition will differ, and variability will increase, in older adults, particularly in the terminal year prior to death, as it becomes dysregulated due to host senescence. Results GM alpha diversity and composition remained largely invariable with respect to adult age and did not differ in an individual’s terminal year. Furthermore, there was no evidence that the GM became more heterogenous in senescent age groups (individuals older than 6 years), or in the terminal year. Instead, environmental variables such as season, territory quality, and time of day, were the strongest predictors of GM variation in adult Seychelles warblers. Conclusion We found no evidence to suggest that host senescence is associated with GM restructuring within a natural population. This contrasts with studies on humans, captive animal populations, and some (but not all) studies on non-human primates, suggesting that GM deterioration may not be a universal hallmark of senescence in wild animal species. Further work is needed to disentangle the factors driving variation in GM-senescence relationships across different host taxa.

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“…Although age‐dependent changes to gut microbial composition are known from a variety of wildlife species (Barbosa et al, 2016; Risely et al, 2022; Sadoughi et al, 2022), it remains unknown how changes in composition relate to changes in rhythms. Exploiting systems with high survival rates that have previously been used to model senescence and demography, such as seabirds (Fay et al, 2018; Patrick & Weimerskirch, 2015) or long‐lived mammals (Robinson et al, 2012), may help clarify this question.…”

Section: Relevance Of Microbial Oscillations To Outstanding Questions...mentioning

confidence: 99%

Circadian rhythms of hosts and their gut microbiomes: Implications for animal physiology and ecology

et al. 2023

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1. Daily light-dark cycles shape the circadian physiology and behaviour of nearly all organisms, with variation in circadian phenotypes having cascading effects on individual fitness, species interactions and species co-evolution.2. Recent evidence that circadian rhythms in host immunity and metabolism are synchronised by the gut microbiota suggest that the circadian dynamics of gut microbes are a crucial component of their function. However, there remains little knowledge or understanding of the diurnal dynamics of gut microbiomes in natural populations or the consequences for host physiology and ecology.3. Here, we summarise the hallmarks of gut microbiota oscillations reported to date and the mechanisms by which they synchronise rhythms in host immunity and metabolism. We outline the consequences for diverse biological processes such as host pathogen susceptibility and seasonal switches in metabolism, and discuss how the breakdown of these circadian interactions, for example during senescence or because of light pollution, may affect wildlife infection risk and disease.4. We also provide practical guidelines for the measurement of microbial oscillations in wildlife, highlighting that whilst faecal samples of wild animals are rarely available over a 24-h period, characterising even parts of the gut microbial cycle can be informative.5. An improved understanding of how gut microbial diurnal rhythms manifest in wildlife is essential to fully comprehend their role in shaping variation in host circadian phenotypes and the consequences for host physiology and ecology.

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Aging gut microbiota of wild macaques are equally diverse, less stable, but progressively personalized

Cited by 15 publications

References 109 publications

Individualized composition or community dynamics? A new statistical approach to assess the individuality of host-associated microbiomes

Individualized composition or community dynamics? A new statistical approach to assess the individuality of host-associated microbiomes

Assessing longitudinal gut microbiome dynamics in relation to age and senescence in a wild animal population

Circadian rhythms of hosts and their gut microbiomes: Implications for animal physiology and ecology

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