白血病突变蛋白PHF6和PHIP形成一种染色质复合物，可抑制急性髓系白血病干性。

Leukemia-mutated proteins PHF6 and PHIP form a chromatin complex that represses acute myeloid leukemia stemness.

作者信息

Pawar Aishwarya S, Somers Patrick, Alex Aleena, George Subin S, Antony Charles, Verner Roman, White-Brown Sanese K, Khera Mohit, Mendoza-Figueroa María Saraí, Liu Kathy Fange, Morrissette Jennifer J D, Paralkar Vikram R

机构信息

Division of Hematology and Oncology, Department of Medicine, University of Pennsylvania Perelman School of Medicine, Philadelphia, PA 19104, USA.

Biomedical Graduate Studies, University of Pennsylvania Perelman School of Medicine, Philadelphia, PA 19104, USA.

出版信息

bioRxiv. 2024 Dec 18:2024.11.29.625909. doi: 10.1101/2024.11.29.625909.

DOI:10.1101/2024.11.29.625909

PMID:39677666

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11642813/

Abstract

Myeloid leukemias are heterogeneous cancers with diverse mutations, sometimes in genes with unclear roles and unknown functional partners. PHF6 and PHIP are two poorly-understood chromatin-binding proteins recurrently mutated in acute myeloid leukemia (AML). mutations are associated with poorer outcomes, while was recently identified as the most common selective mutation in Black patients in AML. Here, we show that PHF6 is a transcriptional repressor that suppresses a stemness gene network, and that PHF6 missense mutations, classified by current clinical algorithms as variants of unknown significance, produce unstable or non-functional protein. We present multiple lines of evidence converging on a critical mechanistic connection between PHF6 and PHIP. We show that PHIP loss phenocopies PHF6 loss, and that PHF6 requires PHIP to occupy chromatin and exert its downstream transcriptional program. Our work unifies PHF6 and PHIP, two disparate leukemia-mutated proteins, into a common functional complex that suppresses AML stemness.

摘要

髓系白血病是具有多种突变的异质性癌症，这些突变有时发生在作用不明且功能伙伴未知的基因中。PHF6和PHIP是在急性髓系白血病（AML）中经常发生突变的两种了解较少的染色质结合蛋白。这些突变与较差的预后相关，而PHIP最近被确定为AML黑人患者中最常见的选择性突变。在这里，我们表明PHF6是一种转录抑制因子，可抑制一个干性基因网络，并且PHF6错义突变（根据当前临床算法分类为意义未明的变异体）会产生不稳定或无功能的蛋白质。我们提供了多条证据，汇聚于PHF6和PHIP之间关键的机制联系。我们表明，PHIP缺失模拟了PHF6缺失，并且PHF6需要PHIP来占据染色质并发挥其下游转录程序。我们的工作将PHF6和PHIP这两种不同的白血病突变蛋白统一到一个抑制AML干性的共同功能复合物中。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/65d8/11702327/c671da516304/nihpp-2024.11.29.625909v3-f0001.jpg

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白血病突变蛋白PHF6和PHIP形成一种染色质复合物，可抑制急性髓系白血病干性。

Leukemia-mutated proteins PHF6 and PHIP form a chromatin complex that represses acute myeloid leukemia stemness.

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