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Distribution of immunoreactive cells for glial fibrillary acidic protein (GFAP), SRY-box transcription factor 2 (SOX2), or T-box brain protein 2 (TBR2) in the subgranular zone (SGZ), and doublecortin (DCX), tubulin, beta 3 class III (TUBB3), or neuronal nuclei (NeuN) in the SGZ and granule cell layer (GCL) of male offspring at postnatal day (PND) 21 and PND 63 after gestational exposure to valproic acid (VPA) at gestational day (GD) 12 and following alpha-glycosyl isoquercitrin (AGIQ) exposure from GD 13 to adulthood in rats. Representative images from the control group, VPA-alone group, VPA + 0.25% AGIQ group, and VPA + 0.5% AGIQ group on PND 21 (in the order from left to right). Arrowheads indicate immunoreactive cells. Magnification × 400; bar 50 μm. Graphs show the number of immunoreactive cells in the SGZ and/or GCL on PND 21 (left) and PND 63 (right). Values are expressed as the mean + SD. N = 10/group. *P < 0.05, **P < 0.01, significantly different from the control group by Student’s t-test or Aspin–Welch’s t-test. †P < 0.05, significantly different from the VPA-alone group by Dunnett’s test or Aspin–Welch’s t-test with Bonferroni correction
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This study examined the ameliorating effect of alpha-glycosyl isoquercitrin (AGIQ), an antioxidant, on disrupted hippocampal neurogenesis in the dentate gyrus (DG) in a rat model of autism spectrum disorder induced by prenatal valproic acid (VPA) exposure. Dams were intraperitoneally injected with 500 mg/kg VPA on gestational day 12. AGIQ was admin...
Citations
... Previous studies reveal that prenatal VPA exposure was associated with a downregulation of the GRIA2 gene alongside a decrease in the gene expression of the AMPA subunits in rats' brains, an effect which was ameliorated following the antioxidants "N-acetyl cysteine" or "alpha-glycosyl isoquercitrin" treatment (Schiavi et al., 2022;Takashima et al., 2022). Moreover, proteomics revealed a reduced AMPA GluA4 subunit expression in the brain of prenatally VPA-exposed mice associated with increased neuronal nitric oxide synthase expression (Wang et al., 2021). ...
Several reports indicate a plausible role of calcium (Ca2+) permeable AMPA glutamate receptors (with RNA hypo-editing at the GluA2 Q/R site) and the subsequent excitotoxicity-mediated neuronal death in the pathogenesis of a wide array of neurological disorders including autism spectrum disorder (ASD). This study was designed to examine the effects of chronic risperidone treatment on the expression of adenosine deaminase acting on RNA 2 (Adar2), the status of AMPA glutamate receptor GluA2 editing, and its effects on oxidative/nitrosative stress and excitotoxicity-mediated neuronal death in the prenatal valproic acid (VPA) rat model of ASD. Prenatal VPA exposure was associated with autistic-like behaviors accompanied by an increase in the apoptotic marker "caspase-3" and a decrease in the antiapoptotic marker "BCL2" alongside a reduction in the Adar2 relative gene expression and an increase in GluA2 Q:R ratio in the hippocampus and the prefrontal cortex. Risperidone, at doses of 1 and 3 mg, improved the VPA-induced behavioral deficits and enhanced the Adar2 relative gene expression and the subsequent GluA2 subunit editing. This was reflected on the cellular level where risperidone impeded VPA-induced oxidative/nitrosative stress and neurodegenerative changes. In conclusion, the present study confirms a possible role for Adar2 downregulation and the subsequent hypo-editing of the GluA2 subunit in the pathophysiology of the prenatal VPA rat model of autism and highlights the favorable effect of risperidone on reversing the RNA editing machinery deficits, giving insights into a new possible mechanism of risperidone in autism.
Sarcopenia, an age-associated condition, negatively impacts the quality of life. This study investigates the mechanism of Sijunzi decoction (SJZD), a traditional Chinese formula, against sarcopenia. Active compounds and potential targets of SJZD for sarcopenia were gathered from databases. Hub targets were identified using protein-protein interaction networks, with GO and KEGG analyses suggesting potential pathways. Molecular docking was used to assess compound-target affinity. A lipopolysaccharide-induced sarcopenia rat model was used to verify the targets. Sijunzi decoction contains 92 compounds and 47 targets for sarcopenia. The top 10 hub targets comprise AKT1, ALB, INS, IL6, TNF, TP53, VEGFA, SIRT1, CAT and FOS. GO and KEGG analyses indicate involvement in steroid hormone response, vesicle lumen, receptor agonist activity, and FoxO and HIF-1 signaling pathways. Validation experiments showed that SJZD alleviates sarcopenia by downregulating SIRT1, IL-6, TNF and AKT1. Sijunzi decoction treats sarcopenia by targeting SIRT1, IL-6, TNF and AKT1, potentially involving FoxO and HIF-1 signaling pathways. This highlights SJZD's potential for sarcopenia treatment.
Polyinosinic-polycytidylic acid (PIC) provides a model of developmental neuropathy by inducing maternal immune activation. We investigated the effects of an antioxidant, alpha-glycosyl isoquercitrin (AGIQ), on PIC-induced developmental neuropathy in rats, focusing on postnatal hippocampal neurogenesis. On gestational day 15, PIC at 4 mg/kg body weight was administered to dams intravenously. AGIQ either at 0.25% or 0.5% was administered through the diet to dams from gestational day 10 until weaning on day 21 post-delivery and, thereafter, to offspring until postnatal day 77 (adult stage). At weaning, the numbers of TBR2+ cells and PCNA+ cells in the subgranular zone and reelin+ cells in the dentate gyrus hilus in offspring of dams treated with PIC only were decreased compared with untreated controls. In contrast, 0.5% AGIQ ameliorated these changes and increased the transcript levels of genes related to signaling of reelin (Reln and Vldlr), growth factors (Bdnf, Cntf, Igf1, and Igf1r), and Wnt/β-catenin (Wnt5a, Lrp6, Fzd1, and Fzd3). In adults, AGIQ increased the number of FOS+ granule cells at 0.25% and the transcript levels of NMDA-type glutamate receptor genes, Grin2a and Grin2b, at 0.25% and 0.5%, respectively. These results suggest that mid-gestation PIC treatment decreased the abundance of type-2b neural progenitor cells (NPCs) by reducing NPC proliferation in relation with suppression of reelin signaling at weaning. We suggest that AGIQ ameliorated the PIC-induced suppressed neurogenesis by enhancing reelin, growth factor, and Wnt/β-catenin signaling at weaning to rescue NPC proliferation and increased synaptic plasticity by enhancing glutamatergic signaling via NMDA-type receptors after maturation.
