# Brain serotonin and serotonin transporter expression in male and female postnatal rat offspring in response to perturbed early life dietary exposures

**Authors:** Xin Ye, Shubhamoy Ghosh, Bo-Chul Shin, Amit Ganguly, Liesbeth Maggiotto, Jonathan P. Jacobs, Sherin U. Devaskar

PMC · DOI: 10.3389/fnins.2024.1363094 · Frontiers in Neuroscience · 2024-03-21

## TL;DR

This study shows how early life diet changes in mothers affect brain serotonin levels and gut bacteria in rat offspring, with differences between males and females.

## Contribution

The study reveals sex-specific effects of maternal diet on postnatal brain serotonin and gut microbiome in rats.

## Key findings

- High fat+high fructose diets reduced serotonin in male rat offspring at postnatal day 2.
- Maternal dietary changes caused sex-specific shifts in gut microbiome composition linked to serotonin levels.
- Serotonin transporter levels were altered in female rats under combined dietary stress.

## Abstract

Serotonin (5-HT) is critical for neurodevelopment and the serotonin transporter (SERT) modulates serotonin levels. Perturbed prenatal and postnatal dietary exposures affect the developing offspring predisposing to neurobehavioral disorders in the adult. We hypothesized that the postnatal brain 5-HT-SERT imbalance associated with gut dysbiosis forms the contributing gut-brain axis dependent mechanism responsible for such ultimate phenotypes.

Employing maternal diet restricted (IUGR, n=8) and high fat+high fructose (HFhf, n=6) dietary modifications, rodent brain serotonin was assessed temporally by ELISA and SERT by quantitative Western blot analysis. Simultaneously, colonic microbiome studies were performed.

At early postnatal (P) day 2 no changes in the IUGR, but a ~24% reduction in serotonin (p = 0.00005) in the HFhf group occurred, particularly in the males (p = 0.000007) revealing a male versus female difference (p = 0.006). No such changes in SERT concentrations emerged. At late P21 the IUGR group reared on HFhf (IUGR/HFhf, (n = 4) diet revealed increased serotonin by ~53% in males (p = 0.0001) and 36% in females (p = 0.023). While only females demonstrated a ~40% decrease in serotonin (p = 0.010), the males only trended lower without a significant change within the HFhf group (p = 0.146). SERT on the other hand was no different in HFhf or IUGR/RC, with only the female IUGR/HFhf revealing a 28% decrease (p = 0.036). In colonic microbiome studies, serotonin-producing Bacteriodes increased with decreased Lactobacillus at P2, while the serotonin-producing Streptococcus species increased in IUGR/HFhf at P21. Sex-specific changes emerged in association with brain serotonin or SERT in the case of Alistipase, Anaeroplasma, Blautia, Doria, Lactococcus, Proteus, and Roseburia genera.

We conclude that an imbalanced 5-HT-SERT axis during postnatal brain development is sex-specific and induced by maternal dietary modifications related to postnatal gut dysbiosis. We speculate that these early changes albeit transient may permanently alter critical neural maturational processes affecting circuitry formation, thereby perturbing the neuropsychiatric equipoise.

## Linked entities

- **Proteins:** SLC6A4 (solute carrier family 6 member 4)
- **Chemicals:** serotonin (PubChem CID 5202), 5-HT (PubChem CID 5202)
- **Species:** Rattus norvegicus (taxon 10116)

## Full-text entities

- **Genes:** Slc6a4 (solute carrier family 6 member 4) [NCBI Gene 25553] {aka SERT}
- **Diseases:** neuropsychiatric (MESH:C000631768), gut dysbiosis (MESH:D064806), neurobehavioral disorders (MESH:D019954)
- **Species:** Streptococcus (genus) [taxon 1301], Lactobacillus (genus) [taxon 1578], Lactococcus (lactic streptococci, genus) [taxon 1357], Rattus norvegicus (brown rat, species) [taxon 10116]

## Full text

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## Figures

4 figures with captions in the complete paper: https://tomesphere.com/paper/PMC10991790/full.md

## References

49 references — full list in the complete paper: https://tomesphere.com/paper/PMC10991790/full.md

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Source: https://tomesphere.com/paper/PMC10991790