Project description:Feeding-Induced Discordance: Protein-mRNA Correlation Varies by Zone, Sex, and Fasting in Mouse Hepatocytes

Project description:Single nucleus RNA-seq gene expression profiling was carried out for protein coding and lncRNA genes using nuclei extracted from livers from adult male and female mice; from male mice infused with GH continuously for one week, mimicking the female plasma GH pattern; and from male and female mice exposed to TCPOBOP, a xenobiotic agonist ligand of the nuclear receptor CAR, which perturbs sex-biased gene expression in the liver. Our analysis of these rich single nucleus, mouse liver transcriptomic datasets, comprised of 32,000 liver nuclei representing 9 major liver cell types, revealed: 1) the expression of sex-biased genes and their key GH-dependent transcriptional regulators is primarily restricted to hepatocytes and is largely not a feature of liver non-parenchymal cells; 2) many sex-biased transcripts show sex-dependent zonation within the liver lobule; 3) gene expression is substantially feminized in both periportal and pericentral hepatocytes when male mice are infused with GH continuously; 4) sequencing nuclei increases the sensitivity for detecting thousands of nuclear-enriched long-noncoding RNAs (lncRNAs) and enables determination of their liver cell type-specificity, sex-bias and hepatocyte zonation profiles; 5) the periportal to pericentral hepatocyte cell ratio is significantly higher in male than female liver; and 6) TCPOBOP exposure disrupts both sex-specific gene expression and hepatocyte zonation within the liver lobule. These findings highlight the complex interconnections between hepatic sexual dimorphism and zonation at the single-cell level and reveal how endogenous hormones and foreign chemical exposure can alter these interactions across the liver lobule with large effects on both protein-coding genes and lncRNAs.

Project description:Primary aldosteronism (PA) is a common form of endocrine hypertension suspected in the presence of arterial hypertension (HT), hypokalemia and low plasma renin levels. While for a long time the genetic causes of PA have remained mysterious, recent findings have revealed an important role for an altered function of potassium channels in the pathogenesis of this disease. The basis for the unique sensitivity of adrenal zona glomerulosa (ZG) cells for plasma potassium concentration is a very high background potassium conductance, which is dependent on expression at high levels of two 2-pore domain (K2P) potassium channels, Task1 (KCNK3) and Task3 (KCNK9. Recent studies have shown that mice lacking Kcnk3 (Task1) or both Kcnk3 and Kcnk9 have PA. In Kcnk3 null mice, hyperaldosteronism is present in young animals of either sex, but is corrected in males after puberty. Strikingly, in these animals hyperaldosteronism associates with abnormal adrenal cortex functional zonation, since Cyp11b2, the rate-limiting enzyme for aldosterone production, is expressed in the inner region of the adrenal cortex and not in the glomerulosa. Additionally, this phenotype is under the control of sex hormones, as shown by the fact that castration of male Kcnk3 -/- animals prevents normal Cyp11b2 distribution, while testosterone injection in female Kcnk3 null mice restores expression of Cyp11b2 in ZG cells. We took advantage of the unique characteristics of the Kcnk3 null mouse model to search for genes that can modify their phenotype of PA and adrenocortical functional zonation. Using gene expression profiling in the adrenal glands of Kcnk3 null mice and exploiting the possibility of modulation of their phenotype by sexual hormones, we identified a cluster of genes closely associated with hyperaldosteronism in a sex- and hormone-dependent dynamic fashion. Among these genes, we focused our attention on Dkk3 (dickkopf3), encoding a peculiar member of the dickkopf family of Wnt signalling modulators because of its close association with aldosterone-producing cells in humans (11). Inactivation of Dkk3 in the Kcnk3 null background causes extension of the hyperaldosteronemic phenotype and increased expression of Cyp11b2 in the adrenal gland to the male sex, without affecting functional zonation. These data indicate that Dkk3 is a component of the genetic circuitry regulating expression of Cyp11b2 and suggest that it may be implicated in the pathogenesis of low-renin hyperaldosteronism in humans. One color -experiment with 2 strains of mice: C57BL/6 WT or Kcnk3 null (KO): male and female in basal conditions or following hormonal treatment (castration for males and testosterone injection for females), corresponding to 8 groups of animals. Total of 24 samples (n=3).

Project description:The regulatory mechanisms that shapes the hepatic zonation is not well understood. In addition, the concept and significance of of hepatic zonation is well established in rodens, however, its relavence to human liver biology remain elusive. We conducted a comprehensive transcriptome analysis of each zonation within normal human liver vis Laser Capture Microdissection approach. Here, we report a poly A RNA sequencing data of the individual zone of liver tissue as well as the whole liver of the corresponding subjects.

Project description:The mammalian liver is composed of repeating hexagonal units termed lobules. Spatially-resolved single-cell transcriptomics revealed that about half of hepatocyte genes are differentially expressed across the lobule. Technical limitations impede reconstructing similar global spatial maps of other hepatocyte features. Here, we used zonated surface markers to sort hepatocytes from defined lobule zones with high spatial resolution. We applied transcriptomics, miRNA array measurements and Mass spectrometry proteomics to reconstruct spatial atlases of multiple zonated hepatocyte features. We found that protein zonation largely overlapped mRNA zonation, with the periportal HNF4α as an exception. We identified zonation of miRNAs such as miR-122, and inverse zonation of miRNAs and their hepatocyte target genes, implying potential regulation through zonated mRNA degradation. These targets included the pericentral Wnt receptors Fzd7 and Fzd8 and the periportal Wnt inhibitors Tcf7l1 and Ctnnbip1. Our approach facilitates reconstructing spatial atlases of multiple cellular features in the liver and other structured tissues.

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.

Project description:The expression level for 15 887 transcripts in lymphoblastoid cell lines from 19 monozygotic twin pairs (10 male, 9 female) were analysed for the effects of genotype and sex. On an average, the effect of twin pairs explained 31% of the variance in normalized gene expression levels, consistent with previous broad sense heritability estimates. The effect of sex on gene expression levels was most noticeable on the X chromosome, which contained 15 of the 20 significantly differentially expressed genes. A high concordance was observed between the sex difference test statistics and surveys of genes escaping X chromosome inactivation. Notably, several autosomal genes showed significant differences in gene expression between the sexes despite much of the cellular environment differences being effectively removed in the cell lines. A publicly available gene expression data set from the CEPH families was used to validate the results. The heritability of gene expression levels as estimated from the two data sets showed a highly significant positive correlation, particularly when both estimates were close to one and thus had the smallest standard error. There was a large concordance between the genes significantly differentially expressed between the sexes in the two data sets. Analysis of the variability of probe binding intensities within a probe set indicated that results are robust to the possible presence of polymorphisms in the target sequences. Keywords: Monozygotic twin pair Expression Profiles

Project description:Varroa destructor is one of the major parasitic pests in modern beekeeping worldwide. Since it shifted host from Asian to Western honey bees, it was shown to weaken colonies by feeding on both immature and adult stages while transmitting several deadly viruses in the process. Nutrition, an overlooked aspect of parasite biology, is thus a key to comprehend the V. destructor life cycle and its impacts on its honey bee host. We explored the feeding physiology of this ectoparasite both through artificial feeding and by dissecting their gut and analysing their protein content especially in terms of host-derived nutrients. We found that the mite requires higher quantities of carbohydrates than proteins and that the nature of these proteins is crucial for its survival. The abundance of these essential nutrients such as Vitellogenin or Hexamerin varies throughout the bee development and could directly impact the parasite physiology. The analysis and identification of key proteins required for the mite’s survival and reproduction will pave the way for the development of more specific control strategies.

Project description:Liver plays major roles in vital functions including responses to energy deprivation. It is known that body composition and fuel metabolism differs between genders. However there are many unclear aspects related to metabolic pathways affected by feeding level and gender, which could be addressed by transcriptome analyses. To date, no published study in porcine liver has investigated the effects of both gender and feeding level on global gene expression level.We performed a gene expression analysis, using microarrays, in hepatic samples of pigs of the obese Iberian breed to analyze feeding level and gender effects. Results showed that feeding level leads to small expression differences, while gender leads to larger ones. Biological interpretation of the differentially expressed genes conditional on feeding level showed an overrepresentation of genes implicated in general metabolic processes, responses to stimulus and stress, oxidoreductase activity, calcium ion binding and lipid, organic acid and carbohydrate metabolisms. We validated the expression difference of PHYHD1 by qRT-PCR; however we could not validate the expression differences of other relevant genes. Curiously, validation of PGK1, considered reference gene, confirmed expression differences conditional on feeding level and gender. The annotation of the differentially expressed probes for gender effect allowed to observe sex-chromosome enrichment and dosage compensation phenomena in liver. Biological interpretation showed overrepresentation of genes related with oxidoreductase and transferase activities, lipid, organic acid, carbohydrate and steroid metabolisms and genes related with metabolites generation and energy and electron transport. Aside from 13 consistently across tissue differentially expressed genes between gender, gender hepatic expression dimorphism of key genes involved in lipid, carbohydrate and protein metabolisms and antioxidant capacity were also detected. A deeper qRT-PCR analysis showed a downregulation in entire males of all major genes implicated in hepatic degradation processes of androstenone and skatole. We have identified changes in hepatic gene expression conditional on feeding and gender. Reduction of around 25% in feeding level do not lead to great differences but gender effect leads not only to a larger number of differentially expressed probes, but much larger expression differences. Validation of microarray results is needed mainly for small expression differences. Experiment Overall Design: Eight liver samples from eight animals at slaughter, 211 days old, four males and four females, four under high feeding level and four under 25% restriction.

Project description:Identify genetic programs impacted by increasing protein SUMOylation and controlling adrenal cortex zonation