Probiotic Therapy with Lactobacillus reuteri Rescues Social and Emotional Recognition Behavior in an Environmental Mouse Model of Autism

Abstract

Introduction: Polybrominated diphenyl ethers (PBDEs) are neuroendocrine disrupting chemicals with adverse neurodevelopmental effects in children. Our group has previously shown that PBDEs produce autistic-like traits in developmentally exposed mice offspring (Kozlova et al. 2022 Arch Tox; PMID: 34687351). Our pilot data suggests that PBDEs reduce hypothalamic oxytocin expression. Moreover, PBDEs are well established disruptors of thyroid hormones. Lactobacillus reuteri (LR) is a beneficial probiotic that can increase oxytocin and thyroid hormones in other ASD mouse models. Therefore, we hypothesized that LR can restore PBDE-induced deficits in social behavior. Methods: C57BL/6N dams were dosed with a commercial mixture of PBDE congeners, DE-71, at 0.1 mg/kg/d (DE-71), or corn oil vehicle control (VEH/CON) for 10 wk (preconception: 4 wk; gestation: 3 wk; lactation: 3 wk). Dams were gavaged with L. reuteri (LR) ATCC 6475 (gift of Biogaia, Sweeden) at 10 8 CFU/mL. Cohort 1 pups (C1-LR) received LR via dam until weaning (PND 21). Cohort 2 pups (C2-LR) continued to receive gavage of LR post-weaning, daily, through 6 mo of age. Results: PCR analysis showed increased gene expression of fecal LR 6475 in feces collected from LR offspring and dams confirming efficacy of maternal LR supplementation. Compared to VEH/CON neither DE-71 nor LR disrupted normal maternal behavior. In offspring, DE-71 produced deficient short- (SRT, 30 min retention) and long-term social recognition memory (SRMT, 24 h retention) in adult females (short- and long-term) and adult males (short-term). LR normalized these deficits. The social recognition deficit was not present at PND 11 as measured on a maternal attachment homing test. On an emotional recognition test DE-71 exposed male and female offspring did not prefer investigation of stimulus mice subjected to 15 min restraint stress vs neutral conditions (normalized with LR). In a marble burying test, compared to VEH/CON, DE-71 exposed offspring showed abnormally elevated scores, which were normalized by LR treatment only in females. Developmental benchmarks that are likely affected by the TH-disruptive effects of DE-71 showed complex interactions between DE-71 and LR. LR normalized delayed (vs VEH/CON) incisor eruption in DE-71 females and improved latency of righting reflex in DE-71 males. LR normalized DE-71-induced hyperactivity on an open field test in females. Ongoing studies are focused on exploring possible mechanisms underlying the normalization provided by LR. However, our early data suggest a potential role of 1) OXT confirmed by increased plasma OXT in DE-71 male (C1-LR) mice and normalized with LR, and 2) maternal THs since LR supplementation elevated plasma T4 in DE-71 pregnant dams. Conclusions: These results suggest that maternal LR treatment during developmental PBDE exposure provides normalization of autistic-like features in a sex-dependent manner. This work is supported by a Danone North America Gut Microbiome, Yogurt and Probiotics Fellowship Grant and a University of California President's Pre-Professoriate Fellowship to E.V.K. This is the full abstract presented at the American Physiology Summit 2023 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.