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1.
Nat Immunol ; 21(8): 927-937, 2020 08.
Artigo em Inglês | MEDLINE | ID: mdl-32632289

RESUMO

In response to pathogenic threats, naive T cells rapidly transition from a quiescent to an activated state, yet the underlying mechanisms are incompletely understood. Using a pulsed SILAC approach, we investigated the dynamics of mRNA translation kinetics and protein turnover in human naive and activated T cells. Our datasets uncovered that transcription factors maintaining T cell quiescence had constitutively high turnover, which facilitated their depletion following activation. Furthermore, naive T cells maintained a surprisingly large number of idling ribosomes as well as 242 repressed mRNA species and a reservoir of glycolytic enzymes. These components were rapidly engaged following stimulation, promoting an immediate translational and glycolytic switch to ramp up the T cell activation program. Our data elucidate new insights into how T cells maintain a prepared state to mount a rapid immune response, and provide a resource of protein turnover, absolute translation kinetics and protein synthesis rates in T cells ( https://www.immunomics.ch ).


Assuntos
Ativação Linfocitária/fisiologia , Biossíntese de Proteínas/imunologia , Linfócitos T/imunologia , Humanos , RNA Mensageiro/imunologia , RNA Mensageiro/metabolismo , Fatores de Transcrição/imunologia , Fatores de Transcrição/metabolismo
2.
Nature ; 582(7812): 416-420, 2020 06.
Artigo em Inglês | MEDLINE | ID: mdl-32499641

RESUMO

Regulatory T (Treg) cells are required to control immune responses and maintain homeostasis, but are a significant barrier to antitumour immunity1. Conversely, Treg instability, characterized by loss of the master transcription factor Foxp3 and acquisition of proinflammatory properties2, can promote autoimmunity and/or facilitate more effective tumour immunity3,4. A comprehensive understanding of the pathways that regulate Foxp3 could lead to more effective Treg therapies for autoimmune disease and cancer. The availability of new functional genetic tools has enabled the possibility of systematic dissection of the gene regulatory programs that modulate Foxp3 expression. Here we developed a CRISPR-based pooled screening platform for phenotypes in primary mouse Treg cells and applied this technology to perform a targeted loss-of-function screen of around 500 nuclear factors to identify gene regulatory programs that promote or disrupt Foxp3 expression. We identified several modulators of Foxp3 expression, including ubiquitin-specific peptidase 22 (Usp22) and ring finger protein 20 (Rnf20). Usp22, a member of the deubiquitination module of the SAGA chromatin-modifying complex, was revealed to be a positive regulator that stabilized Foxp3 expression; whereas the screen suggested that Rnf20, an E3 ubiquitin ligase, can serve as a negative regulator of Foxp3. Treg-specific ablation of Usp22 in mice reduced Foxp3 protein levels and caused defects in their suppressive function that led to spontaneous autoimmunity but protected against tumour growth in multiple cancer models. Foxp3 destabilization in Usp22-deficient Treg cells could be rescued by ablation of Rnf20, revealing a reciprocal ubiquitin switch in Treg cells. These results reveal previously unknown modulators of Foxp3 and demonstrate a screening method that can be broadly applied to discover new targets for Treg immunotherapies for cancer and autoimmune disease.


Assuntos
Sistemas CRISPR-Cas , Fatores de Transcrição Forkhead/metabolismo , Linfócitos T Reguladores/metabolismo , Animais , Autoimunidade/imunologia , Células Cultivadas , Fatores de Transcrição Forkhead/biossíntese , Edição de Genes , Regulação da Expressão Gênica , Humanos , Imunoterapia , Masculino , Camundongos , Neoplasias/genética , Neoplasias/imunologia , Neoplasias/patologia , Neoplasias/prevenção & controle , Estabilidade Proteica , Reprodutibilidade dos Testes , Linfócitos T Reguladores/citologia , Linfócitos T Reguladores/imunologia , Ubiquitina Tiolesterase/deficiência , Ubiquitina Tiolesterase/metabolismo , Ubiquitina-Proteína Ligases/deficiência , Ubiquitina-Proteína Ligases/metabolismo
3.
J Parasitol ; 100(6): 737-42, 2014 Dec.
Artigo em Inglês | MEDLINE | ID: mdl-25265042

RESUMO

Despite recent advances in medical technology and a global effort to improve public health and hygiene, parasitic infections remain a major health and economic burden worldwide. The World Health Organization estimates that about 1/3 of the world's population is currently infected with a soil-transmitted helminth, and millions more suffer from diseases caused by protozoan parasites including Plasmodium, Trypanosoma, and Leishmania species. Due to the selective pressure applied by parasitic and other infections, animals have evolved an intricate immune system; however, the current worldwide prevalence of parasitic infections clearly indicates that these pathogens have adapted equally well. Thus, developing a better understanding of the host-parasite relationship, particularly by focusing on the host immune response and the mechanisms by which parasites evade this response, is a critical first step in mitigating the detrimental effects of parasitic diseases. Macrophages are critical contributors during the host response to protozoan parasites, and the success or failure of these cells often tips the balance in favor of the host or parasite. Herein, we briefly discuss macrophage biology and provide an update on our current understanding of how these cells recognize glycosylphosphatidylinositol anchors from protozoan parasites as well as malarial hemozoin.


Assuntos
Glicosilfosfatidilinositóis/fisiologia , Hemeproteínas/fisiologia , Ativação de Macrófagos/fisiologia , Macrófagos/fisiologia , Fagocitose/fisiologia , Animais , Plasmodium/química , Plasmodium/metabolismo , Receptores Toll-Like/fisiologia
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