Department of Molecular Medicine and Surgery, Karolinska Institutet, Stockholm, Sweden.
Department of Immunology, Genetics and Pathology, Science for Life Laboratory, Uppsala University, Uppsala, Sweden.
Leukemia. 2024 Nov;38(11):2429-2442. doi: 10.1038/s41375-024-02379-4. Epub 2024 Sep 11.
SF3B1 mutations are recurrent in chronic lymphocytic leukemia (CLL), particularly enriched in clinically aggressive stereotyped subset #2. To investigate their impact, we conducted RNA-sequencing of 18 SF3B1 and 17 SF3B1 subset #2 cases and identified 80 significant alternative splicing events (ASEs). Notable ASEs concerned exon inclusion in the non-canonical BAF (ncBAF) chromatin remodeling complex subunit, BRD9, and splice variants in eight additional ncBAF complex interactors. Long-read RNA-sequencing confirmed the presence of splice variants, and extended analysis of 139 CLL cases corroborated their association with SF3B1 mutations. Overexpression of SF3B1 induced exon inclusion in BRD9, resulting in a novel splice isoform with an alternative C-terminus. Protein interactome analysis of the BRD9 splice isoform revealed augmented ncBAF complex interaction, while exhibiting decreased binding of auxiliary proteins, including SPEN, BRCA2, and CHD9. Additionally, integrative multi-omics analysis identified a ncBAF complex-bound gene quartet on chromosome 1 with higher expression levels and more accessible chromatin in SF3B1 CLL. Finally, Cancer Dependency Map analysis and BRD9 inhibition displayed BRD9 dependency and sensitivity in cell lines and primary CLL cells. In conclusion, spliceosome dysregulation caused by SF3B1 mutations leads to multiple ASEs and an altered ncBAF complex interactome, highlighting a novel pathobiological mechanism in SF3B1 CLL.
SF3B1 突变在慢性淋巴细胞白血病(CLL)中频繁发生,尤其在临床上侵袭性强的定型亚型 #2 中更为富集。为了研究其影响,我们对 18 例 SF3B1 和 17 例 SF3B1 亚型 #2 病例进行了 RNA 测序,鉴定出 80 个显著的选择性剪接事件(ASEs)。值得注意的 ASEs 涉及非典型 BAF(ncBAF)染色质重塑复合物亚基 BRD9 的外显子包含,以及另外 8 个 ncBAF 复合物相互作用因子的剪接变体。长读长 RNA 测序证实了剪接变体的存在,对 139 例 CLL 病例的扩展分析证实了它们与 SF3B1 突变的相关性。SF3B1 的过表达诱导了 BRD9 的外显子包含,导致一种新型的具有替代 C 末端的剪接异构体。BRD9 剪接异构体的蛋白质互作组分析显示 ncBAF 复合物相互作用增强,同时辅助蛋白的结合减少,包括 SPEN、BRCA2 和 CHD9。此外,整合多组学分析鉴定出染色体 1 上的 ncBAF 复合物结合基因 quartet 在 SF3B1 CLL 中具有更高的表达水平和更易接近的染色质。最后,癌症依赖图谱分析和 BRD9 抑制在细胞系和原代 CLL 细胞中显示出 BRD9 的依赖性和敏感性。总之,SF3B1 突变引起的剪接体失调导致多个 ASEs 和改变的 ncBAF 复合物互作组,突出了 SF3B1 CLL 中的一种新的病理生物学机制。
