SATB1-mediated chromatin landscape in T cells.

Tomas Zelenka, Charalampos Spilianakis
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引用次数: 16

Abstract

The regulatory circuits that define developmental decisions of thymocytes are still incompletely resolved. SATB1 protein is predominantly expressed at the CD4+CD8+cell stage exerting its broad transcription regulation potential with both activatory and repressive roles. A series of post-translational modifications and the presence of potential SATB1 protein isoforms indicate the complexity of its regulatory potential. The most apparent mechanism of its involvement in gene expression regulation is via the orchestration of long-range chromatin loops between genes and their regulatory elements. Multiple SATB1 perturbations in mice uncovered a link to autoimmune diseases while clinical investigations on cancer research uncovered that SATB1 has a promoting role in several types of cancer and can be used as a prognostic biomarker. SATB1 is a multivalent tissue-specific factor with a broad and yet undetermined regulatory potential. Future investigations on this protein could further uncover T cell-specific regulatory pathways and link them to (patho)physiology.

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satb1介导的T细胞染色质景观。
决定胸腺细胞发育决定的调控回路仍未完全解决。SATB1蛋白主要在CD4+CD8+细胞阶段表达,发挥其广泛的转录调控潜力,具有激活和抑制作用。一系列翻译后修饰和潜在的SATB1蛋白同种异构体的存在表明其调控潜力的复杂性。其参与基因表达调控的最明显机制是通过基因及其调控元件之间的远程染色质环的协调。小鼠中多次SATB1扰动揭示了与自身免疫性疾病的联系,而癌症研究的临床研究发现SATB1在几种类型的癌症中具有促进作用,可以用作预后生物标志物。SATB1是一种多价组织特异性因子,具有广泛但尚未确定的调节潜力。未来对该蛋白的研究可能会进一步揭示T细胞特异性调控途径,并将其与病理生理学联系起来。
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