SATB1（一种全局基因调节因子）的磷酸化在体内作为一种分子开关，调节其转录活性。

Phosphorylation of SATB1, a global gene regulator, acts as a molecular switch regulating its transcriptional activity in vivo.

作者信息

Pavan Kumar P, Purbey Prabhat Kumar, Sinha Chandan Kumar, Notani Dimple, Limaye Amita, Jayani Ranveer S, Galande Sanjeev

机构信息

National Centre for Cell Science, Ganeshkhind, Pune 411007, India.

出版信息

Mol Cell. 2006 Apr 21;22(2):231-43. doi: 10.1016/j.molcel.2006.03.010.

DOI:10.1016/j.molcel.2006.03.010

PMID:16630892

Abstract

SATB1 regulates gene expression by acting as a "docking site" for several chromatin remodeling enzymes and also by recruiting corepressors (HDACs) or coactivators (HATs) directly to promoters. However, how these contrasting effectors act at the level of SATB1 is not clear. We show here that phosphorylation by PKC acts as a switch to determine whether SATB1 interacts with HDAC1 or PCAF. Phosphorylation and dephosphorylation of SATB1 exerted opposing effects on MAR-linked reporter activity in vivo. SATB1 interacted with both CBP/p300 and PCAF HATs; however, these interactions resulted in the acetylation of the PDZ-like domain of SATB1 by PCAF but not by CBP/p300 and resulted in loss of its DNA binding activity. Using the T cell activation model, we provide mechanistic insights into how IL-2 transcription is reciprocally governed by the phosphorylation status of SATB1 and propose that a similar mechanism may dictate the ability of SATB1 to function as a global regulator.

摘要

SATB1 通过作为几种染色质重塑酶的“停靠位点”以及直接将共抑制因子（HDACs）或共激活因子（HATs）募集到启动子区域来调节基因表达。然而，这些作用相反的效应物如何在 SATB1 水平发挥作用尚不清楚。我们在此表明，蛋白激酶 C（PKC）介导的磷酸化作用作为一个开关，决定 SATB1 是与 HDAC1 还是与 PCAF 相互作用。SATB1 的磷酸化和去磷酸化在体内对 MAR 相关的报告基因活性产生相反的影响。SATB1 与 CBP/p300 和 PCAF HATs 都相互作用；然而，这些相互作用导致 SATB1 的 PDZ 样结构域被 PCAF 乙酰化，而不是被 CBP/p300 乙酰化，并导致其 DNA 结合活性丧失。利用 T 细胞激活模型，我们深入了解了 SATB1 的磷酸化状态如何相互调节白细胞介素 -2（IL-2）转录，并提出类似机制可能决定 SATB1 作为全局调节因子发挥功能的能力。

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SATB1（一种全局基因调节因子）的磷酸化在体内作为一种分子开关，调节其转录活性。

Phosphorylation of SATB1, a global gene regulator, acts as a molecular switch regulating its transcriptional activity in vivo.

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