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1.
Nature ; 549(7672): 351-356, 2017 09 21.
Artigo em Inglês | MEDLINE | ID: mdl-28902842

RESUMO

Type 2 innate lymphoid cells (ILC2s) both contribute to mucosal homeostasis and initiate pathologic inflammation in allergic asthma. However, the signals that direct ILC2s to promote homeostasis versus inflammation are unclear. To identify such molecular cues, we profiled mouse lung-resident ILCs using single-cell RNA sequencing at steady state and after in vivo stimulation with the alarmin cytokines IL-25 and IL-33. ILC2s were transcriptionally heterogeneous after activation, with subpopulations distinguished by expression of proliferative, homeostatic and effector genes. The neuropeptide receptor Nmur1 was preferentially expressed by ILC2s at steady state and after IL-25 stimulation. Neuromedin U (NMU), the ligand of NMUR1, activated ILC2s in vitro, and in vivo co-administration of NMU with IL-25 strongly amplified allergic inflammation. Loss of NMU-NMUR1 signalling reduced ILC2 frequency and effector function, and altered transcriptional programs following allergen challenge in vivo. Thus, NMUR1 signalling promotes inflammatory ILC2 responses, highlighting the importance of neuro-immune crosstalk in allergic inflammation at mucosal surfaces.


Assuntos
Hipersensibilidade/imunologia , Hipersensibilidade/patologia , Inflamação/imunologia , Inflamação/patologia , Pulmão/patologia , Linfócitos/imunologia , Neuropeptídeos/metabolismo , Animais , Feminino , Regulação da Expressão Gênica , Imunidade Inata/imunologia , Interleucina-17/imunologia , Interleucina-33/imunologia , Ligantes , Pulmão/imunologia , Masculino , Camundongos , Camundongos Endogâmicos C57BL , Receptores de Neurotransmissores/biossíntese , Receptores de Neurotransmissores/genética , Receptores de Neurotransmissores/metabolismo , Mucosa Respiratória/imunologia , Mucosa Respiratória/patologia , Transdução de Sinais , Transcrição Gênica
3.
Genome Res ; 27(3): 393-406, 2017 03.
Artigo em Inglês | MEDLINE | ID: mdl-28073919

RESUMO

Following synthesis, RNA can be modified with over 100 chemically distinct modifications, which can potentially regulate RNA expression post-transcriptionally. Pseudouridine (Ψ) was recently established to be widespread and dynamically regulated on yeast mRNA, but less is known about Ψ presence, regulation, and biogenesis in mammalian mRNA. Here, we sought to characterize the Ψ landscape on mammalian mRNA, to identify the main Ψ-synthases (PUSs) catalyzing Ψ formation, and to understand the factors governing their specificity toward selected targets. We first developed a framework allowing analysis, evaluation, and integration of Ψ mappings, which we applied to >2.5 billion reads from 30 human samples. These maps, complemented with genetic perturbations, allowed us to uncover TRUB1 and PUS7 as the two key PUSs acting on mammalian mRNA and to computationally model the sequence and structural elements governing the specificity of TRUB1, achieving near-perfect prediction of its substrates (AUC = 0.974). We then validated and extended these maps and the inferred specificity of TRUB1 using massively parallel reporter assays in which we monitored Ψ levels at thousands of synthetically designed sequence variants comprising either the sequences surrounding pseudouridylation targets or systematically designed mutants perturbing RNA sequence and structure. Our findings provide an extensive and high-quality characterization of the transcriptome-wide distribution of pseudouridine in human and the factors governing it and provide an important resource for the community, paving the path toward functional and mechanistic dissection of this emerging layer of post-transcriptional regulation.


Assuntos
Sequência Conservada , Transferases Intramoleculares/metabolismo , Processamento Pós-Transcricional do RNA , RNA Mensageiro/metabolismo , Animais , Células HEK293 , Humanos , Camundongos , RNA Mensageiro/química
5.
Dev Cell ; 57(24): 2714-2730.e8, 2022 12 19.
Artigo em Inglês | MEDLINE | ID: mdl-36538894

RESUMO

Cancer stem cells (CSCs) may serve as the cellular seeds of tumor recurrence and metastasis, and they can be generated via epithelial-mesenchymal transitions (EMTs). Isolating pure populations of CSCs is difficult because EMT programs generate multiple alternative cell states, and phenotypic plasticity permits frequent interconversions between these states. Here, we used cell-surface expression of integrin ß4 (ITGB4) to isolate highly enriched populations of human breast CSCs, and we identified the gene regulatory network operating in ITGB4+ CSCs. Specifically, we identified ΔNp63 and p73, the latter of which transactivates ΔNp63, as centrally important transcriptional regulators of quasi-mesenchymal CSCs that reside in an intermediate EMT state. We found that the transcriptional program controlled by ΔNp63 in CSCs is largely distinct from the one that it orchestrates in normal basal mammary stem cells and, instead, it more closely resembles a regenerative epithelial stem cell response to wounding. Moreover, quasi-mesenchymal CSCs repurpose this program to drive metastatic colonization via autocrine EGFR signaling.


Assuntos
Células-Tronco Mesenquimais , Neoplasias , Humanos , Linhagem Celular Tumoral , Células-Tronco Neoplásicas/metabolismo , Transdução de Sinais , Transição Epitelial-Mesenquimal , Neoplasias/patologia
6.
Cell Rep ; 25(11): 2992-3005.e5, 2018 12 11.
Artigo em Inglês | MEDLINE | ID: mdl-30540934

RESUMO

Long-term hematopoietic stem cells (LT-HSCs) maintain hematopoietic output throughout an animal's lifespan. However, with age, the balance is disrupted, and LT-HSCs produce a myeloid-biased output, resulting in poor immune responses to infectious challenge and the development of myeloid leukemias. Here, we show that young and aged LT-HSCs respond differently to inflammatory stress, such that aged LT-HSCs produce a cell-intrinsic, myeloid-biased expression program. Using single-cell RNA sequencing (scRNA-seq), we identify a myeloid-biased subset within the LT-HSC population (mLT-HSCs) that is prevalent among aged LT-HSCs. We identify CD61 as a marker of mLT-HSCs and show that CD61-high LT-HSCs are uniquely primed to respond to acute inflammatory challenge. We predict that several transcription factors regulate the mLT-HSCs gene program and show that Klf5, Ikzf1, and Stat3 play an important role in age-related inflammatory myeloid bias. We have therefore identified and isolated an LT-HSC subset that regulates myeloid versus lymphoid balance under inflammatory challenge and with age.


Assuntos
Envelhecimento/patologia , Células-Tronco Hematopoéticas/metabolismo , Inflamação/patologia , Animais , Biomarcadores/metabolismo , Inflamação/genética , Ligantes , Camundongos Endogâmicos C57BL , Modelos Biológicos , Células Mieloides/metabolismo , Receptores Toll-Like/metabolismo , Transcrição Gênica
7.
Nat Cell Biol ; 19(7): 844-855, 2017 Jul.
Artigo em Inglês | MEDLINE | ID: mdl-28650479

RESUMO

Leukaemogenesis requires enhanced self-renewal, which is induced by oncogenes. The underlying molecular mechanisms remain incompletely understood. Here, we identified C/D box snoRNAs and rRNA 2'-O-methylation as critical determinants of leukaemic stem cell activity. Leukaemogenesis by AML1-ETO required expression of the groucho-related amino-terminal enhancer of split (AES). AES functioned by inducing snoRNA/RNP formation via interaction with the RNA helicase DDX21. Similarly, global loss of C/D box snoRNAs with concomitant loss of rRNA 2'-O-methylation resulted in decreased leukaemia self-renewal potential. Genomic deletion of either C/D box snoRNA SNORD14D or SNORD35A suppressed clonogenic potential of leukaemia cells in vitro and delayed leukaemogenesis in vivo. We further showed that AML1-ETO9a, MYC and MLL-AF9 all enhanced snoRNA formation. Expression levels of C/D box snoRNAs in AML patients correlated closely with in vivo frequency of leukaemic stem cells. Collectively, these findings indicate that induction of C/D box snoRNA/RNP function constitutes an important pathway in leukaemogenesis.


Assuntos
Proliferação de Células , Autorrenovação Celular , Transformação Celular Neoplásica/metabolismo , Subunidade alfa 2 de Fator de Ligação ao Core/metabolismo , Leucemia/metabolismo , Proteína de Leucina Linfoide-Mieloide/metabolismo , Proteínas de Fusão Oncogênica/metabolismo , RNA Nucleolar Pequeno/metabolismo , Ribonucleoproteínas/metabolismo , Animais , Transformação Celular Neoplásica/genética , Transformação Celular Neoplásica/patologia , Proteínas Correpressoras , Subunidade alfa 2 de Fator de Ligação ao Core/genética , RNA Helicases DEAD-box/genética , RNA Helicases DEAD-box/metabolismo , Regulação Leucêmica da Expressão Gênica , Predisposição Genética para Doença , Células HEK293 , Células HL-60 , Humanos , Células K562 , Leucemia/genética , Leucemia/patologia , Metilação , Camundongos Endogâmicos C57BL , Camundongos Knockout , Proteína de Leucina Linfoide-Mieloide/genética , Proteínas de Fusão Oncogênica/genética , Fenótipo , Mapas de Interação de Proteínas , Proteínas Proto-Oncogênicas c-myc/genética , Proteínas Proto-Oncogênicas c-myc/metabolismo , RNA Ribossômico/genética , RNA Ribossômico/metabolismo , RNA Nucleolar Pequeno/genética , Proteína 1 Parceira de Translocação de RUNX1 , Proteínas Repressoras/genética , Proteínas Repressoras/metabolismo , Ribonucleoproteínas/genética , Transdução de Sinais , Fatores de Tempo , Fatores de Transcrição/genética , Fatores de Transcrição/metabolismo , Células U937
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