Transcriptomics

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Alteration of in vivo gene expression in Drosophila intestinal stem cells after OXPHOS disruption and the role of FOXO in it.


ABSTRACT: To investigate the in vivo gene expression changes in Drosophila intestinal stem cells (ISCs) when OXPHOS is disrupted and the role of FOXO in regulating this process, we dissected midguts from 4 groups of adult flies: "esg-GAL4,tub-GAL80TS,UAS-nlsGFP/UAS-mitoXhoI;UAS-pAbp-FLAG/+ & homoplasmic mt:CoIsyn" (C group), "esg-GAL4,tub-GAL80TS,UAS-nlsGFP/UAS-mitoXhoI;UAS-pAbp-FLAG/+ & heteroplasmic mt:CoIT300I" (H group, also called M group), "esg-GAL4,tub-GAL80TS,UAS-nlsGFP/UAS-mitoXhoI;UAS-pAbp-FLAG/UAS-FOXO-IR & homoplasmic mt:CoIsyn" (FC group), "esg-GAL4,tub-GAL80TS,UAS-nlsGFP/UAS-mitoXhoI;UAS-pAbp-FLAG/UAS-FOXO-IR & heteroplasmic mt:CoIT300I" (FH group, also called FM group), ~200 midguts per group. The flies were initially obtained and maintained at 18 °C till 2 days after eclosion and were then heat-shocked at 37 ºC for 2 hours and maintained in 29 °C for 5 days. Thus, the ISCs of H and FH group flies were carrying the lethal homoplasmic mitoXhoI-resistant mt:CoIT300I mitochondrial DNAs (mtDNAs) with the wild-type mtDNAs eliminated by mitoXhoI and the OXPHOS disrupted. Meanwhile, the ISCs of C and FC group flies were still carrying wild-type-like but mitoXhoI-resistant mt:CoIsyn mtDNAs. Through the mRNA tagging method with the expressed FLAG-tagged poly(A)-binding protein (pAbp) and anti-FLAG affinity pull-down, We purified and compared mRNA transcriptome profiles (RNA-seq) of different ISCs groups in duplicates. We found about 10% of the mRNAs we detected were either up-regulated or down-regulated in the OXPHOS-disrupted (M group) ISCs compared with control (C group). The down-regulated pool included many genes involved in cell differentiation, proliferation, and growth regulation. The up-regulated pool was enriched in genes participating in various metabolic processes, including glycolysis and fatty acids synthesis. This result suggests a possible metabolic adaptation in response to the OXPHOS deficiency in M group ISCs. Importantly, knockdown of FOXO in OXPHOS-disrupted ISCs restored the expression level of more than 50% of the up- or down-regulated genes, indicating that transcriptional response to OXPHOS deficiency is partially mediated by FOXO. We also noticed that genes whose expressions were altered in OXPHOS-disrupted ISCs included many related to Notch signaling, indicating the mis-regulation of this signaling in these ISCs.

ORGANISM(S): Drosophila melanogaster

PROVIDER: GSE137231 | GEO | 2020/07/22

REPOSITORIES: GEO

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