Review

. 2021 Dec 23:12:817433.

doi: 10.3389/fmicb.2021.817433. eCollection 2021.

Gut Microbiome Regulation of Autophagic Flux and Neurodegenerative Disease Risks

Andrew P Shoubridge^{1

2}, Célia Fourrier³, Jocelyn M Choo^{1

2}, Christopher G Proud^{4

5}, Timothy J Sargeant³, Geraint B Rogers^{1

2}

Affiliations

¹ Microbiome and Host Health, Lifelong Health, South Australian Health and Medical Research Institute, Adelaide, SA, Australia.
² Infection and Immunity, Flinders Health and Medical Research Institute, College of Medicine and Public Health, Flinders University, Bedford Park, SA, Australia.
³ Lysosomal Health in Ageing, Hopwood Centre for Neurobiology, Lifelong Health, South Australian Health and Medical Research Institute, Adelaide, SA, Australia.
⁴ Nutrition, Diabetes and Gut Health, Lifelong Health, South Australian Health and Medical Research Institute, Adelaide, SA, Australia.
⁵ School of Biological Sciences, University of Adelaide, Adelaide, SA, Australia.

PMID: 35003048
PMCID: PMC8733410
DOI: 10.3389/fmicb.2021.817433

Review

Gut Microbiome Regulation of Autophagic Flux and Neurodegenerative Disease Risks

Andrew P Shoubridge et al. Front Microbiol. 2021.

. 2021 Dec 23:12:817433.

doi: 10.3389/fmicb.2021.817433. eCollection 2021.

Authors

Andrew P Shoubridge^{1

2}, Célia Fourrier³, Jocelyn M Choo^{1

2}, Christopher G Proud^{4

5}, Timothy J Sargeant³, Geraint B Rogers^{1

2}

Affiliations

¹ Microbiome and Host Health, Lifelong Health, South Australian Health and Medical Research Institute, Adelaide, SA, Australia.
² Infection and Immunity, Flinders Health and Medical Research Institute, College of Medicine and Public Health, Flinders University, Bedford Park, SA, Australia.
³ Lysosomal Health in Ageing, Hopwood Centre for Neurobiology, Lifelong Health, South Australian Health and Medical Research Institute, Adelaide, SA, Australia.
⁴ Nutrition, Diabetes and Gut Health, Lifelong Health, South Australian Health and Medical Research Institute, Adelaide, SA, Australia.
⁵ School of Biological Sciences, University of Adelaide, Adelaide, SA, Australia.

PMID: 35003048
PMCID: PMC8733410
DOI: 10.3389/fmicb.2021.817433

Abstract

The gut microbiome-brain axis exerts considerable influence on the development and regulation of the central nervous system. Numerous pathways have been identified by which the gut microbiome communicates with the brain, falling largely into the two broad categories of neuronal innervation and immune-mediated mechanisms. We describe an additional route by which intestinal microbiology could mediate modifiable risk for neuropathology and neurodegeneration in particular. Autophagy, a ubiquitous cellular process involved in the prevention of cell damage and maintenance of effective cellular function, acts to clear and recycle cellular debris. In doing so, autophagy prevents the accumulation of toxic proteins and the development of neuroinflammation, both common features of dementia. Levels of autophagy are influenced by a range of extrinsic exposures, including nutrient deprivation, infection, and hypoxia. These relationships between exposures and rates of autophagy are likely to be mediated, as least in part, by the gut microbiome. For example, the suppression of histone acetylation by microbiome-derived short-chain fatty acids appears to be a major contributor to upregulation of autophagic function. We discuss the potential contribution of the microbiome-autophagy axis to neurological health and examine the potential of exploiting this link to predict and prevent neurodegenerative diseases.

Keywords: autophagy; dementia; microbiome; neurodegenerative; pathway; risk exposure.

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Conflict of interest statement

The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

Figures

**Figure 1**
The microbiome and autophagy relationship in intestinal health. The established pathways between the intestinal microbiome and autophagic function that maintain intestinal homeostasis and intestinal health and provide feedback to influence microbiota profiles and function. ATG, autophagy-related genes; ER, endoplasmic reticulum; NF-κB, nuclear factor-κB; RNA, ribonucleic acid.

**Figure 2**
The microbiome-autophagy-brain axis. Active communication pathways between the gut microbiome and autophagic activity that connect modifiable exposures and host health to ultimately affect brain health. HDACs, histone deacetylases; SCFAs, short-chain fatty acids; TLRs, Toll-like receptors.

See this image and copyright information in PMC

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Gut Microbiome Regulation of Autophagic Flux and Neurodegenerative Disease Risks

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Gut Microbiome Regulation of Autophagic Flux and Neurodegenerative Disease Risks

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