Multi-omics integration identifies cell-state-specific repression by PBRM1-PIAS1 cooperation.

IF 11.1 Q1 CELL BIOLOGY Cell genomics Pub Date : 2024-01-10 Epub Date: 2024-01-02 DOI:10.1016/j.xgen.2023.100471
Patric J Ho, Junghun Kweon, Laura A Blumensaadt, Amy E Neely, Elizabeth Kalika, Daniel B Leon, Sanghyon Oh, Cooper W P Stringer, Sarah M Lloyd, Ziyou Ren, Xiaomin Bao
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Abstract

PBRM1 is frequently mutated in cancers of epithelial origin. How PBRM1 regulates normal epithelial homeostasis, prior to cancer initiation, remains unclear. Here, we show that PBRM1's gene regulatory roles differ drastically between cell states, leveraging human skin epithelium (epidermis) as a research platform. In progenitors, PBRM1 predominantly functions to repress terminal differentiation to sustain progenitors' regenerative potential; in the differentiation state, however, PBRM1 switches toward an activator. Between these two cell states, PBRM1 retains its genomic binding but associates with differential interacting proteins. Our targeted screen identified the E3 SUMO ligase PIAS1 as a key interactor. PIAS1 co-localizes with PBRM1 on chromatin to directly repress differentiation genes in progenitors, and PIAS1's chromatin binding drastically diminishes in differentiation. Furthermore, SUMOylation contributes to PBRM1's repressive function in progenitor maintenance. Thus, our findings highlight PBRM1's cell-state-specific regulatory roles influenced by its protein interactome despite its stable chromatin binding.

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多组学整合确定了PBRM1-PIAS1合作对细胞状态的特异性抑制。
PBRM1 经常在上皮源性癌症中发生突变。在癌症发生之前,PBRM1如何调节正常上皮细胞的稳态仍不清楚。在这里,我们以人类皮肤上皮(表皮)为研究平台,展示了PBRM1在不同细胞状态下的基因调控作用存在巨大差异。在祖细胞中,PBRM1主要起抑制末端分化的作用,以维持祖细胞的再生潜能;但在分化状态下,PBRM1则转变为激活因子。在这两种细胞状态之间,PBRM1 保留其基因组结合,但与不同的相互作用蛋白结合。我们的靶向筛选发现 E3 SUMO 连接酶 PIAS1 是一个关键的相互作用因子。PIAS1 与 PBRM1 共同定位在染色质上,直接抑制祖细胞中的分化基因,而 PIAS1 的染色质结合在分化过程中急剧减少。此外,SUMO化也有助于PBRM1在祖细胞维持过程中的抑制功能。因此,我们的研究结果突显了尽管PBRM1的染色质结合稳定,但其细胞状态特异性调控作用受其蛋白相互作用组的影响。
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