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对混血巴西人肢端黑色素瘤的建模揭示了基因组驱动因素和可靶向的通路。

Modelling Acral Melanoma in Admixed Brazilians Uncovers Genomic Drivers and Targetable Pathways.

作者信息

Sousa-Squiavinato Annie Cristhine Moraes, Bernardes Sara Santos, Aguiar Flávia C, Facciolo Antonio C, Herrera Martín Del Castillo Velasco, Wong-Ramirez J Rene C, Basurto-Lozada Patricia, Nobre Aretha Brito, Annamalai Geethanjali, do Nascimento Rebecca Martins Cadimo, Boccacino Jacqueline, Fagundes Rafaela, Barros Pedro Sodré do R, Pitombo Mariana de Moraes, Olvera-León Rebeca, Matsuyama Larissa Satiko Alcantara Sekimoto, Billington Jamie, Vermes Ian, Simonin-Wilmer Irving, Carvalho Danielle G, Simoes João Pedro Cavalcante, Fernandes Priscila Valverde, Nunes Luiz Fernando, de Melo Andreia Cristina, de Oliveira Jadivan Leite, Herlyn Meenhard, Aplin Andrew E, Robles-Espinoza Carla Daniela, Adams David J, Possik Patricia A

机构信息

Division of Basic and Experimental Research, Brazilian National Cancer Institute, Rua Andre Cavalcanti 37, Rio de Janeiro, 20231-050, Brazil.

Tissue Microenvironment Laboratory, Department of Pathology, Federal University of Minas Gerais, Belo Horizonte, Brazil.

出版信息

medRxiv. 2025 Aug 13:2025.08.08.25332963. doi: 10.1101/2025.08.08.25332963.

DOI:10.1101/2025.08.08.25332963
PMID:40832384
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12363704/
Abstract

Acral melanoma (AM) is an aggressive melanoma subtype with limited therapeutic options and poor outcomes. In non-European descent and admixed populations, like those residing in Latin America, AM accounts for a significant proportion of cutaneous melanoma cases. Here, we performed comprehensive genomic and functional profiling of AM from a uniquely diverse Brazilian cohort. Whole-exome and transcriptome sequencing revealed low mutation burden and predominance of copy number alterations, including high-amplitude focal amplifications termed hailstorms. These hailstorms frequently affected chromosomes 11, 5 and 22 and key oncogenes such as , , , and . The presence of hailstorms in the long arms of chromosomes 11 and 22 was associated with higher focal copy number burden and loss of DNA damage response genes (, ), suggesting a permissive genomic environment driving structural instability. To explore the unique genomic context of AM, we established a comprehensive collection of patient-derived xenograft (AM-PDX) models that faithfully retain the histopathological and genomic features of the original tumours. Functional exploration of AM-specific vulnerabilities through pharmacological and CRISPR/Cas9 knockout screenings identified strong sensitivity to targeting MAPK, CDK4/6, MDM2, and WEE1 pathways. Notably, the pan-RAS(ON) inhibitor RMC-7977 effectively reduced viability in -, -, and -mutant AM cell lines. Finally, CRISPR screens revealed dependencies selectively essential in AM, including and , highlighting previously unrecognized vulnerabilities. Our findings emphasize the distinct biology of AM compared to other subtypes of melanoma, provide a valuable resource of models reflective of Latin American ancestry, and identify potential drivers and therapeutic targets.

摘要

肢端黑色素瘤(AM)是一种侵袭性黑色素瘤亚型,治疗选择有限且预后较差。在非欧洲血统和混合人群中,如居住在拉丁美洲的人群,AM在皮肤黑色素瘤病例中占相当大的比例。在这里,我们对来自一个独特多样的巴西队列的AM进行了全面的基因组和功能分析。全外显子组和转录组测序揭示了低突变负担和拷贝数改变的优势,包括称为“雹暴”的高幅度局灶性扩增。这些“雹暴”经常影响11号、5号和22号染色体以及关键癌基因,如 、 、 和 。11号和22号染色体长臂上存在“雹暴”与更高的局灶拷贝数负担和DNA损伤反应基因( 、 )的缺失相关,表明一种允许的基因组环境驱动结构不稳定性。为了探索AM独特的基因组背景,我们建立了一个全面的患者来源异种移植(AM-PDX)模型集合,这些模型忠实地保留了原始肿瘤的组织病理学和基因组特征。通过药理学和CRISPR/Cas9基因敲除筛选对AM特异性脆弱性进行功能探索,确定了对靶向MAPK、CDK4/6、MDM2和WEE1通路具有强烈敏感性。值得注意的是,泛RAS(ON)抑制剂RMC-7977有效降低了 、 和 突变的AM细胞系的活力。最后,CRISPR筛选揭示了在AM中选择性必需的依赖性,包括 和 ,突出了以前未被认识的脆弱性。我们的研究结果强调了AM与黑色素瘤其他亚型相比独特的生物学特性,提供了反映拉丁美洲血统的有价值的模型资源,并确定了潜在的驱动因素和治疗靶点。

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