Alka Saxena scite author profile

Regulated transcription controls the diversity, developmental pathways and spatial organization of the hundreds of cell types that make up a mammal. Using single-molecule cDNA sequencing, we mapped transcription start sites (TSSs) and their usage in human and mouse primary cells, cell lines and tissues to produce a comprehensive overview of mammalian gene expression across the human body. We find that few genes are truly ‘housekeeping’, whereas many mammalian promoters are composite entities composed of several closely separated TSSs, with independent cell-type-specific expression profiles. TSSs specific to different cell types evolve at different rates, whereas promoters of broadly expressed genes are the most conserved. Promoter-based expression analysis reveals key transcription factors defining cell states and links them to binding-site motifs. The functions of identified novel transcripts can be predicted by coexpression and sample ontology enrichment analyses. The functional annotation of the mammalian genome 5 (FANTOM5) project provides comprehensive expression profiles and functional annotation of mammalian cell-type-specific transcriptomes with wide applications in biomedical research.

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Site-specific DICER and DROSHA RNA products control the DNA-damage response

Francia

Michelini

Saxena

et al. 2012

Nature

490

614

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Non-coding RNAs (ncRNAs) are involved in an increasing number of cellular events1. Some ncRNAs are processed by DICER and DROSHA ribonucleases to give rise to small double-stranded RNAs involved in RNA interference (RNAi)2. The DNA-damage response (DDR) is a signaling pathway that originates from the DNA lesion and arrests cell proliferation3. So far, DICER or DROSHA RNA products have not been reported to control DDR activation. Here we show that DICER and DROSHA, but not downstream elements of the RNAi pathway, are necessary to activate DDR upon oncogene-induced genotoxic stress and exogenous DNA damage, as studied also by DDR foci formation in mammalian cells and zebrafish and by checkpoint assays. DDR foci are sensitive to RNase A treatment, and DICER- and DROSHA-dependent RNA products are required to restore DDR foci in treated cells. Through RNA deep sequencing and studies of DDR activation at an inducible unique DNA double-strand break (DSB), we demonstrate that DDR foci formation requires site-specific DICER- and DROSHA-dependent small RNAs, named DDRNAs, which act in a MRE11-RAD50-NBS1 (MRN) complex-dependent manner. Chemically synthesized or in vitro-generated by DICER cleavage, DDRNAs are sufficient to restore DDR in RNase A-treated cells, also in the absence of other cellular RNAs. Our results describe an unanticipated direct role of a novel class of ncRNAs in the control of DDR activation at sites of DNA damage.

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Transcribed enhancers lead waves of coordinated transcription in transitioning mammalian cells

Arner¹,

Daub²,

Vitting-Seerup³

et al. 2015

Science

548

603

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Although it is generally accepted that cellular differentiation requires changes to transcriptional networks, dynamic regulation of promoters and enhancers at specific sets of genes has not been previously studied en masse. Exploiting the fact that active promoters and enhancers are transcribed, we simultaneously measured their activity in 19 human and 14 mouse time courses covering a wide range of cell types and biological stimuli. Enhancer RNAs, then messenger RNAs encoding transcription factors, dominated the earliest responses. Binding sites for key lineage transcription factors were simultaneously overrepresented in enhancers and promoters active in each cellular system. Our data support a highly generalizable model in which enhancer transcription is the earliest event in successive waves of transcriptional change during cellular differentiation or activation.

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Transcriptional and Functional Analysis of CD1c+ Human Dendritic Cells Identifies a CD163+ Subset Priming CD8+CD103+ T Cells

Bourdely

Anselmi²,

Vaivode³

et al. 2020

Immunity

247

308

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Summary Dendritic cells (DCs) are antigen-presenting cells controlling T cell activation. In humans, the diversity, ontogeny, and functional capabilities of DC subsets are not fully understood. Here, we identified circulating CD88 − CD1c + CD163 + DCs (called DC3s) as immediate precursors of inflammatory CD88 − CD14 + CD1c + CD163 + FcεRI + DCs. DC3s develop via a specific pathway activated by GM-CSF, independent of cDC-restricted (CDP) and monocyte-restricted (cMoP) progenitors. Like classical DCs but unlike monocytes, DC3s drove activation of naive T cells. In vitro , DC3s displayed a distinctive ability to prime CD8 + T cells expressing a tissue homing signature and the epithelial homing alpha-E integrin (CD103) through transforming growth factor β (TGF-β) signaling. In vivo , DC3s infiltrated luminal breast cancer primary tumors, and DC3 infiltration correlated positively with CD8 + CD103 + CD69 + tissue-resident memory T cells. Together, these findings define DC3s as a lineage of inflammatory DCs endowed with a strong potential to regulate tumor immunity.

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NMDA Receptor Regulation Prevents Regression of Visual Cortical Function in the Absence of Mecp2

Durand

Patrizi

Quast

et al. 2012

Neuron

164

245

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SUMMARY Brain function is shaped by postnatal experience and vulnerable to disruption of Methyl-CpG-binding protein, Mecp2, in multiple neurodevelopmental disorders. How Mecp2 contributes to the experience-dependent refinement of specific cortical circuits and their impairment remains unknown. We analyzed vision in gene-targeted mice and observed an initial normal development in the absence of Mecp2. Visual acuity then rapidly regressed after postnatal day P35–40 and cortical circuits largely fell silent by P55-60. Enhanced inhibitory gating and an excess of parvalbumin-positive, perisomatic input preceded the loss of vision. Both cortical function and inhibitory hyperconnectivity were strikingly rescued independent of Mecp2 by early sensory deprivation or genetic deletion of the excitatory NMDA receptor subunit, NR2A. Thus, vision is a sensitive biomarker of progressive cortical dysfunction and may guide novel, circuit-based therapies for Mecp2 deficiency.

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Alka Saxena

A promoter-level mammalian expression atlas

Site-specific DICER and DROSHA RNA products control the DNA-damage response

Transcribed enhancers lead waves of coordinated transcription in transitioning mammalian cells

Transcriptional and Functional Analysis of CD1c+ Human Dendritic Cells Identifies a CD163+ Subset Priming CD8+CD103+ T Cells

NMDA Receptor Regulation Prevents Regression of Visual Cortical Function in the Absence of Mecp2

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