Project description:The neurotoxicity of air pollution is undefined for sex and APOE alleles. These major risk factors of Alzheimer’s disease (AD) were examined in mice given chronic exposure to nPM, a nano-sized subfraction of urban air pollution. In the cerebral cortex, female mice had two-fold more genes responding to nPM than males. Transcriptomic responses to nPM had sex-APOE interactions in AD-relevant pathways. Only APOE3 mice responded to nPM in genes related to Abeta deposition and clearance (Vav2, Vav3, S1009a). Other responding genes included axonal guidance, inflammation (AMPK, NFKB, APK/JNK signaling), and antioxidant signaling (NRF2, HIF1A). Genes downstream of NFKB and NRF2 responded in opposite directions to nPM. Nrf2 knockdown in microglia augmented NFKB responses to nPM, suggesting a critical role of NRF2 in air pollution neurotoxicity. These findings give a rationale for epidemiologic studies of air pollution to consider sex interactions with APOE alleles and other AD-risk genes.

Project description:Gestational exposure to air pollution increases the risk of autism spectrum disorder and cognitive impairments with unresolved molecular mechanisms. This study exposed mice throughout gestation to urban derived nanosized particulate matter (nPM). Young adult male and female offspring were studied for behavioral and metabolic changes using forced swim test, fat gain, glucose tolerance, and hippocampal transcriptome. Gestational nPM exposure caused increased depressive behaviors, decreased neurogenesis in the dentate gyrus, and increased glucose tolerance in adult male offspring. Both sexes gained fat and body weight. Gestational nPM exposure induced 29 differentially expressed genes (DEGs) in adult hippocampus related to cytokine production, IL17a signaling, and dopamine degradation in both sexes. Stratification by sex showed 2-fold more DEGs in males than females (69 vs 37), as well as male-specific enrichment of DEGs mediating serotonin signaling, endocytosis, Gai, and cAMP signaling. Gene co-expression analysis (WCGNA) identified a module of 43 genes with divergent responses to nPM between the sexes. Chronic changes in 14 DEGs (e.g., miR9-1) were associated with depressive behaviors, adiposity and glucose intolerance. These genes enriched neuroimmune pathways such as HMGB1 and TLR4. Based on cerebral cortex transcriptome data of neonates, we traced the initial nPM responses of HMGB1 pathway. In vitro, mixed glia responded to 24 h nPM with lower HMGB1 protein and increased proinflammatory cytokines. This response was ameliorated by TLR4 knockdown. In sum, we identified transcriptional changes that could underlie air pollution mediated behavioral and phenotypic changes. These identified genes merit further studies for therapeutic intervention development.

Project description:Cerebral cortex and blood transcriptome changes in mouse neonates prenatally exposed to air pollution particulate matter

Project description:In this study, we investigated the effects of prenatal bisphenol-A (BPA) exposure on transcriptome profiles in the frontal cortex of the rat offspring. Transcriptome profiling by RNA-seq analysis of frontal cortex tissues isolated from neonatal pups prenatally exposed to BPA revealed that a list of differentially expressed genes (DEGs) associated with autism spectrum disorder (ASD), including Ntng1, Auts2, and Ankrd11 was dysregulated in a sex-specific pattern. The gene ontology analysis revealed that the BPA-responsive genes in the offspring’s frontal cortex were significantly associated with ASD-related neurological functions. These results indicated that prenatal BPA exposure may increase the risk of ASD by impacting ASD-related genes in the offspring’s frontal cortex. We conducted experiments using the frontal cortex from neonatal pups prenatally exposed to BPA or vehicle control (BPA treament; pooled 3 pups frontal cortex, vehicle control; pooled 3 pups frontal cortex). 10-week-old female rats were daily treated with BPA at the concentration of 5,000 microgram/kilogram of maternal body weight or vehicle control from gestation day 1 (GD1) until parturition. Total RNAs were isolated and cDNAs were synthesized. The transcriptome profiles were performed using a high-throughtput RNA-seq.

Project description:Prenatal exposure to synthetic corticosteroids can significantly alter postnatal development through changes in neurotransmitters and their receptors, and thus having long-lasting behavioral effects. Some of these changes have been observed in animal experiments, others also in humans prenatally exposed to synthetic corticosteroids. Here, we focused on transcriptomic changes within the prefrontal cortex of female rats prenatally exposed to either betamethasone or saline. The transcriptome has been assessed by novel computational tools to determine complex changes that may have life-long effects on phenotype, i.e., behavior. We analyzed how composition, topology and modulatory networks of the genomic fabric of the dopaminergic, GABAergic, and glutamatergic synapse (the transcriptome of the most interconnected and stably expressed gene network responsible for specific transmission) are afected by the prenatal exposure to corticosteroids and postnatal ketamine-induced seizures. One sex (F) x two prenatal exposures (B = betamethasone, S = saline) x two postnatal treatments (K = ketamine, S = saline). Biological replicates: 4 FSS, 4 FBS, 4 FBK.

Project description:Strain and sex variations are studied at the gene expression level. RNAs are extracted from two tissues (cerebral cortex and brain stem), three strains (DBA, A/J, C57BL/6) and both male and female are studied

Project description:Strain and sex variations are studied at the gene expression level. RNAs are extracted from two tissues (cerebral cortex and brain stem), three strains (DBA, A/J, C57BL/6) and both male and female are studied

Project description:Purpose: The goal of this study is to examine the DEGs in the ispsi-lateral cerebral cortex of post-stroke brain using RNA-seq compared with control (sham).

Project description:Microglia modulate cerebral blood flow and cerebrovascular reactivity, but the mechanisms remain elusive. Here we show that pharmacological or genetic method induced microglia-ablation, which causes reduction of the microglia-expressed ATP/ADP-hydrolyzing ectonucleotidase CD39, elevates the cerebral blood flow baseline, while reducing the cerebral blood flow change to whisker stimulation and intra-cisterna magna injection of ATP, but not adenosine. Microglia P2ry12 inhibition with clopidogrel increased basal cerebral blood flow and the effect was abolished in microglia specific CD39 knockout mice. P2ry12 knockout mice show reduced cerebral blood flow changes to whisker stimulation or intra-cisterna magna injection of ATP. Microglia-specific deletion of CD39 or its pharmacological inhibition reproduces the effects of microglia ablation on cerebral blood flow and attenuates whisker stimulation-induced adenosine concentration increase in contralateral barrel cortex. These results suggest that microglia-dependent adenosine production is an integral component of the brain purinergic signaling system that governs neurovascular coupling.

Project description:Ozone is known to cause lung injury and resident cells of the respiratory tract, i.e., epithelial cells and macrophages, respond to inhaled ozone in a variety of ways that affect their survival, morphology, and functioning. However, complete understanding of sex-associated and cell type-specific gene expression changes in response to ozone exposure is still limited. Through transcriptome profiling, we aimed to analyze gene expression alterations and biological pathways enrichment in three distinct cell type-enriched compartments of ozone-exposed murine lungs. We chronically exposed adult males and females to 0.8ppm ozone or filtered air. RNA-Seq was performed on airway epithelium-enriched airways, parenchyma, and purified airspace macrophages. Differential gene expression and biological pathway analyses were performed and supported by cellular and immunohistochemical analyses. While majority of differentially expressed genes (DEGs) in ozone-exposed versus air-exposed groups were common between both sexes, sex-specific DEGs were also identified in all the three tissue compartments. As compared to ozone-exposed males, ozone-exposed females had significant alterations in gene expression in three compartments. Pathways relevant to cell division and DNA repair were enriched in the ozone-exposed airways indicating ozone-induced airway injury and repair which was further supported by immunohistochemical analyses. In addition to cell division and DNA repair pathways, inflammatory pathways were also enriched within the parenchyma supporting contribution by both epithelial and immune cells. Finally, immune response and cytokine-cytokine receptor interactions were enriched in macrophages, indicating ozone-induced macrophage activation. Lastly, our analyses also revealed the overall upregulation of mucoinflammation and mucous cell metaplasia-associated pathways.