Filippo M. Cernilogar scite author profile

RNAi pathways have evolved as important modulators of gene expression that act in the cytoplasm by degrading RNA target molecules via the activity of short (21-30nt) RNAs1-6 RNAi components have been reported to play a role in the nucleus as they are involved in epigenetic regulation and heterochromatin formation7-10. However, although RNAi-mediated post-transcriptional silencing (PTGS) is well documented, mechanisms of RNAi-mediated transcriptional gene silencing (TGS) and in particular the role of RNAi components in chromatin, especially in higher eukaryotes, are still elusive. Here we show that key RNAi components Dicer-2 (Dcr2) and and Argonaute-2 (AGO2) AGO2 associate with chromatin, with strong preference for euchromatic, transcriptionally active loci and interact with core transcription machinery. Notably Dcr2 and AGO2 loss of function show that transcriptional defects are accompanied by perturbation of Pol II positioning on promoters. Further, both Dcr2 and Ago2 null mutations as well as missense mutations compromising the RNAi activity impair global Pol II dynamics upon heat shock. Finally, AGO2 RIP-seq experiments reveal that, AGO2 is strongly enriched in small-RNAs encompassing promoter as well as other parts of heat shock and other gene loci on both sense and antisense, with a strong bias for antisense, particularly after heat shock. Taken together our results reveal a new scenario in which Dcr2 and AGO2 are globally associated with transcriptionally active loci and may play a pivotal role in shaping the transcriptome by controlling RNA Pol II processivity.

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Promoter G-quadruplexes and transcription factors cooperate to shape the cell type-specific transcriptome

Lago

Nadai

Cernilogar³

et al. 2021

Nat Commun

167

110

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Cell identity is maintained by activation of cell-specific gene programs, regulated by epigenetic marks, transcription factors and chromatin organization. DNA G-quadruplex (G4)-folded regions in cells were reported to be associated with either increased or decreased transcriptional activity. By G4-ChIP-seq/RNA-seq analysis on liposarcoma cells we confirmed that G4s in promoters are invariably associated with high transcription levels in open chromatin. Comparing G4 presence, location and transcript levels in liposarcoma cells to available data on keratinocytes, we showed that the same promoter sequences of the same genes in the two cell lines had different G4-folding state: high transcript levels consistently associated with G4-folding. Transcription factors AP-1 and SP1, whose binding sites were the most significantly represented in G4-folded sequences, coimmunoprecipitated with their G4-folded promoters. Thus, G4s and their associated transcription factors cooperate to determine cell-specific transcriptional programs, making G4s to strongly emerge as new epigenetic regulators of the transcription machinery.

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The Kidney Contains Ontogenetically Distinct Dendritic Cell and Macrophage Subtypes throughout Development That Differ in Their Inflammatory Properties

Salei

Rambichler

Salvermoser

et al. 2020

JASN

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BackgroundMononuclear phagocytes (MPs), including macrophages, monocytes, and dendritic cells (DCs), are phagocytic cells with important roles in immunity. The developmental origin of kidney DCs has been highly debated because of the large phenotypic overlap between macrophages and DCs in this tissue.MethodsWe used fate mapping, RNA sequencing, flow cytometry, confocal microscopy, and histo-cytometry to assess the origin and phenotypic and functional properties of renal DCs in healthy kidney and of DCs after cisplatin and ischemia reperfusion–induced kidney injury.ResultsAdult kidney contains at least four subsets of MPs with prominent Clec9a-expression history indicating a DC origin. We demonstrate that these populations are phenotypically, functionally, and transcriptionally distinct from each other. We also show these kidney MPs exhibit unique age-dependent developmental heterogeneity. Kidneys from newborn mice contain a prominent population of embryonic-derived MHCIInegF4/80hiCD11blow macrophages that express T cell Ig and mucin domain containing 4 (TIM-4) and MER receptor tyrosine kinase (MERTK). These macrophages are replaced within a few weeks after birth by phenotypically similar cells that express MHCII but lack TIM-4 and MERTK. MHCII+F4/80hi cells exhibit prominent Clec9a-expression history in adulthood but not early life, indicating additional age-dependent developmental heterogeneity. In AKI, MHCIInegF4/80hi cells reappear in adult kidneys as a result of MHCII downregulation by resident MHCII+F4/80hi cells, possibly in response to prostaglandin E2 (PGE2). RNA sequencing further suggests MHCII+F4/80hi cells help coordinate the recruitment of inflammatory cells during renal injury.ConclusionsDistinct developmental programs contribute to renal DC and macrophage populations throughout life, which could have important implications for therapies targeting these cells.

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