Early development Paternal gut health may affect the physical and mental health of offspring (Sep 2024) Depletion of the paternal gut microbiome alters sperm small RNAs and impacts offspring physiology and behavior in mice

Michael Harrop

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https://medicalxpress.com/news/2024-09-paternal-gut-health-affect-physical.html
https://www.sciencedirect.com/science/article/abs/pii/S088915912400624X

depletion of the gut microbiota of male mice was associated with changes in their sperm that significantly affected offspring.

"Male mice were given oral antibiotics to deplete their gut microbiota. We discovered that this resulted in epigenetic changes in sperm that could alter neurodevelopment and associated brain function in offspring,"

Male and female offspring in the study had reduced body weight and their gut length was reduced. Female offspring also showed changes in anxiety and depressive-like behaviors.

In earlier studies at The Florey, Professor Hannan's team showed that mouse offspring are affected by changes in their father's sperm caused by bacterial infections and virus-like challenges, as well as diet, exercise and stress.

Highlights​

  • Administration of antibiotics to male mice induced intergenerational impacts on offspring physiology and behavior.
  • F1 offspring of gut microbiome-depleted males displayed sexually dimorphic behavioral changes.
  • The behavioral changes in offspring, induced by paternal gut microbiome depletion, include affective alterations relevant to anxiety and depressive disorders.
  • Gut microbiome depletion caused changes in sperm small RNA profiles, in particular a subset of piRNAs.
  • Gut-germline signaling regulates specific sperm piRNAs associated with changes in offspring development, bodyweight and behavior.

Abstract​

The paternal environment prior to conception has been demonstrated to influence offspring physiology and behavior, with the sperm epigenome (including noncoding RNAs) proposed as a potential facilitator of non-genetic inheritance. Whilst the maternal gut microbiome has been established as an important influence on offspring development, the impact of the paternal gut microbiota on offspring development, health and behavior is largely unknown. Gut microbiota have major influences on immunity, and thus we hypothesized that it may be relevant to paternal immune activation modulating epigenetic inheritance in mice.

Therefore, male C57BL/6J mice (F0) were orally administered non-absorbable antibiotics via drinking water in order to substantially deplete their gut microbiota. Four weeks after administration of the antibiotics (gut microbiome depletion), F0 male mice were then mated with naïve female mice. The F1 offspring of the microbiome-depleted males had reduced body weight as well as altered gut morphology (shortened colon length). F1 females showed significant alterations in affective behaviors, including measures of anxiety and depressive-like behaviors, indicating altered development.

Analysis of small noncoding RNAs in the sperm of F0 mice revealed that gut microbiome depletion is associated with differential expression of 8 different PIWI-interacting RNAs (piRNAs), each of which has the potential to modulate the expression of multiple downstream gene targets, and thus influence epigenetic inheritance and offspring development.

This study demonstrates that the gut-germline axis influences sperm small RNA profiles, offspring physiology, with specific impacts on offspring affective and/or coping behaviors. These findings may have broader implications for other animal species with comparable gut microbiota, intergenerational epigenetics and developmental biology, including humans.
 
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