Project description:Single-cell transcriptomics of dissociated Bat gut

Project description:Single-cell analysis on spatial transcriptomics from bat gut

Project description:Single-cell transcriptomics of Bat lung, from 8 individuals. (Bat1 includes two multiplexed libraries)

Project description:Single-cell transcriptomics of Bat PBMCs with and without LPS or poly(I:C) stimulation (including multiplexed samples)

Project description:Deficiency of the epigenome modulator histone deacetylase 3 (HDAC3) in brown adipose tissue (BAT) impairs the ability of mice to survive in near-freezing temperatures. Here, we report that short-term exposure to mild cold temperature (STEMCT: 15°C for 24 hours) averted lethal hypothermia of mice lacking HDAC3 in BAT (HDAC3 BAT KO) exposed to 4°C. STEMCT restored the induction of the thermogenic coactivator PGC-1a along with UCP1 at 22°C, which is greatly impaired in HDAC3-deficient BAT, and deletion of either UCP1 or PGC-1a prevented the protective effect of STEMCT. Remarkably, the protection of HDAC3 BAT KO mice from cold intolerance following STEMCT lasted for up to 7 days. Transcriptional activator C/EBPb was induced by short-term cold exposure in mouse and human BAT and, uniquely, remained high for 7 days following STEMCT. Furthermore, analysis of C/EBPb activity revealed increased binding following STEMCT at genes, including the enhancers/promotors of UCP1 and PGC-1a. These results reveal the existence of a cold-adaptive epigenomic memory mediated by C/EBPb that is persistent and HDAC3-independent.

Project description:Deficiency of the epigenome modulator histone deacetylase 3 (HDAC3) in brown adipose tissue (BAT) impairs the ability of mice to survive in near-freezing temperatures. Here, we report that short-term exposure to mild cold temperature (STEMCT: 15°C for 24 hours) averted lethal hypothermia of mice lacking HDAC3 in BAT (HDAC3 BAT KO) exposed to 4°C. STEMCT restored the induction of the thermogenic coactivator PGC-1a along with UCP1 at 22°C, which is greatly impaired in HDAC3-deficient BAT, and deletion of either UCP1 or PGC-1a prevented the protective effect of STEMCT. Remarkably, the protection of HDAC3 BAT KO mice from cold intolerance following STEMCT lasted for up to 7 days. Transcriptional activator C/EBPb was induced by short-term cold exposure in mouse and human BAT and, uniquely, remained high for 7 days following STEMCT. Furthermore, analysis of C/EBPb activity revealed increased binding following STEMCT at genes, including the enhancers/promotors of UCP1 and PGC-1a. These results reveal the existence of a cold-adaptive epigenomic memory mediated by C/EBPb that is persistent and HDAC3-independent.

Project description:Microbiota of Short-tailed Shearwater Chicks

Project description:Gray, short-tailed opossum (laboratory opossum)

Project description:Cupido alcetas (Provençal short-tailed blue)

Project description:Compared to other mammals, bats have increased longevity and higher resistance to cancer and infectious disease, in addition to their capacity for flight. This raises questions about bat metabolism. While prior studies have analyzed the metabolic requirements of flight, no study has integrated metabolomics, transcriptomics, and proteomics to characterize bat metabolism. In this work, we characterize fundamental differences in central metabolism between fibroblast cell lines from a black fruit bat (Pteropus alecto) and human, by analyzing multi-omics data via computational modelling of metabolic flux.