Soyoung Ha scite author profile

Maternal immune activation (MIA) contributes to behavioral abnormalities associated with neurodevelopmental disorders in both primate and rodent offspring1-4. In humans, epidemiological studies suggest that exposure of fetuses to maternal inflammation increases the likelihood of developing Autism Spectrum Disorder (ASD)5-7. We recently demonstrated that interleukin-17a (IL-17a) produced by Th17 cells, CD4+ T helper effector cells involved in multiple inflammatory conditions, is required in pregnant mice to induce behavioral as well as cortical abnormalities in the offspring exposed to MIA8. However, it is unclear if other maternal factors are required to promote MIA-associated phenotypes. Moreover, underlying mechanisms by which MIA leads to T cell activation with increased IL-17a in the maternal circulation are not well understood. Here, we show that MIA phenotypes in offspring require maternal intestinal bacteria that promote Th17 cell differentiation. Pregnant mice that had been colonized with the mouse commensal segmented filamentous bacteria (SFB) or human commensal bacteria that induce intestinal Th17 cells were more likely to produce offspring with MIA-associated abnormalities. We also show that small intestine dendritic cells (DCs) from pregnant, but not from non-pregnant, females upon exposure to MIA secrete IL-1β/IL-23/IL-6 and stimulate T cells to produce IL-17a. Overall, our data suggest that defined gut commensal bacteria with a propensity to induce Th17 cells may increase the risk for neurodevelopmental disorders in offspring of pregnant mothers undergoing immune system activation due to infections or autoinflammatory syndromes.

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Effects of Short-Term Corticosteroid Use on Reactogenicity and Immunogenicity of the First Dose of ChAdOx1 nCoV-19 Vaccine

Yang

Baek³

et al. 2021

Front. Immunol.

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The effects of corticosteroid use on the reactogenicity and immunogenicity of ChAdOx1 nCoV-19 (ChAd) vaccine were evaluated. Healthcare workers (HCWs) who took low-dose corticosteroid agents around the time of the first dose of ChAd (ChAdPd group) were recruited and the reactogenicity and immunogenicity were compared with those of ChAd (ChAd group) and BNT162b2 vaccination (BNT group) of HCWs without corticosteroid exposure. The immunogenicity was measured three weeks after vaccination using quantitative anti-SARS-CoV-2 spike protein (S) antibody electrochemiluminescence immunoassay and interferon gamma (IFN-γ) release assay. A total of 67 HCWs comprising 24 ChAd, 29 BNT, and 14 ChAdPd was included. The median total corticosteroid dose of the ChAdPd group was 30 mg prednisolone equivalents (interquartile range (IQR) 20–71.3 mg). HCWs in the ChAdPd group experienced significantly milder reactogenicity (median total score 7.5, IQR 4.0–18.0) compared to those in the ChAd group (median 23.0, IQR 8.0–43.0, P=0.012) but similar to that in the BNT group (median 5.0, IQR 3.0–9.0, P=0.067). The S antibody concentration of the ChAdPd group (62.4 ± 70.0 U/mL) was higher than that of the ChAd group, though without statistical significance (3.45 ± 57.6 U/mL, P=0.192). The cellular immune response was most robust in the ChAdPd group, with significantly higher IFN-γ concentration (5.363 ± 4.276 IU/mL), compared to the ChAd (0.978 ± 1.181 IU/mL, P=0.002) and BNT (1.656 ± 1.925 IU/mL, P=0.009) groups. This finding suggest that short-term corticosteroid reduces reactogenicity of the first dose of ChAd without hindering immunogenicity.

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Soyoung Ha

Bile acid metabolites control TH17 and Treg cell differentiation

Maternal gut bacteria promote neurodevelopmental abnormalities in mouse offspring

Effects of Short-Term Corticosteroid Use on Reactogenicity and Immunogenicity of the First Dose of ChAdOx1 nCoV-19 Vaccine

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