Project description:To understand the roles of molecules in functional differentiation among adult human tissues, we performed a systematic survey of mRNA, protein, and protein phosphorylation as well as miRNA expression, in three tissues: cerebellum, prefrontal cortex and liver. We found that tissues were clearly distinct from one another at all levels. Furthermore, our results showed that miRNA differently expressed between tissues have significant, but modest effect on expression of mRNA and somewhat stronger effect on expression of proteins among the tissues. Notably, miRNA preferentially targeted gene regulators, transcription factors and kinases, in all three tissues studied. Following this path, we found that miRNA effect was further amplified through expression changes of target transcription factors and kinases, leading to further changes in their targets’ expression and phosphorylation levels. Importantly, miRNA regulation leads to reduced, rather than increased gene expression variation among individuals between two brain regions. These observations uncover the complexity of miRNA regulatory interactions and are compatible with suggested role of miRNA in gene expression canalization.

Project description:Lack of change in microRNA expression in adult mouse liver following treatment with benzo(a)pyrene (BaP), as detected using Agilent miRNA arrays. We have investigated the effect of exposure to 150 mg/kg benzo(a)pyrene (BaP) for 3 days on mRNA and miRNA expression levels in adult mouse liver. We used Agilent miRNA array platforms to assess effects of BaP exposure on miRNA expression levels. Our results indicate a distinct lack of effect of BaP of miRNA expression, despite widespread changes in mRNA levels. Keywords: Toxicology, miRNA

Project description:To understand the roles of molecules in functional differentiation among adult human tissues, we performed a systematic survey of mRNA, protein, and protein phosphorylation as well as miRNA expression, in three tissues: cerebellum, prefrontal cortex and liver. We found that tissues were clearly distinct from one another at all levels. Furthermore, our results showed that miRNA differently expressed between tissues have significant, but modest effect on expression of mRNA and somewhat stronger effect on expression of proteins among the tissues. Notably, miRNA preferentially targeted gene regulators, transcription factors and kinases, in all three tissues studied. Following this path, we found that miRNA effect was further amplified through expression changes of target transcription factors and kinases, leading to further changes in their targets’ expression and phosphorylation levels. Importantly, miRNA regulation leads to reduced, rather than increased gene expression variation among individuals between two brain regions. These observations uncover the complexity of miRNA regulatory interactions and are compatible with suggested role of miRNA in gene expression canalization.

Project description:We have investigated the effect of exposure to 150 mg/kg benzo(a)pyrene (BaP) for 3 days on mRNA and miRNA expression levels in adult mouse liver. We used Agilent miRNA array platforms to assess effects of BaP exposure on miRNA expression levels. Our results indicate a distinct lack of effect of BaP of miRNA expression, despite widespread changes in mRNA levels. The data in the attached array files were used a positive control for the Agilent platform, to indicate that the platform was able to detect significant differences in abundance of miRNA between two samples with great differences in miRNA content. Keywords: Toxicology, miRNA

Project description:we used genome-wide transcriptome analysis to profile the mRNA, long noncoding RNA (lncRNA), and microRNA (miRNA) expression of B10 cells, an antigen-specific Cd1dhiCd5+Cd19hiIl10 competent regulatory B cell. Potential key upstream regulators (including transcription factors, cytokines, trans-membrane receptors, and kinases) for Breg biogenesis and function were identified.

Project description:Effect of fasting on human skeletal muscle mRNA levels

Project description:To understand the roles of molecules in functional differentiation among adult human tissues, we performed a systematic survey of mRNA, protein, and protein phosphorylation as well as miRNA expression, in three tissues: cerebellum, prefrontal cortex and liver. We found that tissues were clearly distinct from one another at all levels. Furthermore, our results showed that miRNA differently expressed between tissues have significant, but modest effect on expression of mRNA and somewhat stronger effect on expression of proteins among the tissues. Notably, miRNA preferentially targeted gene regulators, transcription factors and kinases, in all three tissues studied. Following this path, we found that miRNA effect was further amplified through expression changes of target transcription factors and kinases, leading to further changes in their targets’ expression and phosphorylation levels. Importantly, miRNA regulation leads to reduced, rather than increased gene expression variation among individuals between two brain regions. These observations uncover the complexity of miRNA regulatory interactions and are compatible with suggested role of miRNA in gene expression canalization. Adult human post-mortem tissue samples: cerebellum, prefrontal cortex and liver, were collected. Each tissue contains three individuals totalling 9 samples in this datasets. RNA extracted from these dissected tissue was hybridized to Agilent Human miRNA Microarray.

Project description:Exp5 is a nuclear export factor in the animal miRNA biogenesis pathway. This experiment examined how reduced Exp5 levels affected miRNA expression profiles.

Project description:To understand the roles of molecules in functional differentiation among adult human tissues, we performed a systematic survey of mRNA, protein, and protein phosphorylation as well as miRNA expression, in three tissues: cerebellum, prefrontal cortex and liver. We found that tissues were clearly distinct from one another at all levels. Furthermore, our results showed that miRNA differently expressed between tissues have significant, but modest effect on expression of mRNA and somewhat stronger effect on expression of proteins among the tissues. Notably, miRNA preferentially targeted gene regulators, transcription factors and kinases, in all three tissues studied. Following this path, we found that miRNA effect was further amplified through expression changes of target transcription factors and kinases, leading to further changes in their targetsM-bM-^@M-^Y expression and phosphorylation levels. Importantly, miRNA regulation leads to reduced, rather than increased gene expression variation among individuals between two brain regions. These observations uncover the complexity of miRNA regulatory interactions and are compatible with suggested role of miRNA in gene expression canalization. Adult human post-mortem tissue samples: cerebellum, prefrontal cortex and liver, were collected. Each tissue contains three individuals totalling 9 samples in this datasets. RNA extracted from these dissected tissue was hybridized to Affymetrix Human Exon 1.0 ST arrays.

Project description:We explored sex-biased effects of the primary stress glucocorticoid hormone corticosterone on the miRNA expression profile in the rat hippocampus. Adult adrenalectomized (ADX) female and male rats received a single corticosterone (10 mg/kg) or vehicle injection and after 6 h, hippocampi were collected for miRNA, mRNA and Western blot analyses. miRNA profiling microarrays showed a basal sex-biased miRNA profile in ADX rat hippocampi. Additionally, acute corticosterone administration triggered a sex-biased differential expression of miRNAs derived from genes located in several chromosomes and clusters on the X and 6 chromosomes. Putative promoter analysis unveiled that most corticosterone-responsive miRNA genes contained motifs for either direct or indirect glucocorticoid actions in both sexes. The evaluation of transcription factors indicated that almost 50 % of miRNA genes sensitive to corticosterone in both sexes was under glucocorticoid receptor regulation. Transcription factor-miRNA regulatory network analyses identified several transcription factors that regulate, activate or repress miRNA expression. Validated target mRNA analysis of corticosterone-responsive miRNAs showed a more complex miRNA-mRNA interaction network in males compared to females. Enrichment analysis revealed that several hippocampal-relevant pathways were affected in both sexes, such as neurogenesis and neurotrophin signaling. The evaluation of selected miRNA targets from these pathways displayed a strong sex difference in the hippocampus of ADX-vehicle rats. Corticosterone treatment did not change the levels of the miRNA targets and their corresponding tested proteins. Our data indicate that corticosterone exerts a sex-biased effect on hippocampal miRNA expression, which may engage in sculpting the basal sex differences observed at higher levels of hippocampal functioning.