Abstract The chromatin modifier SETD2 often mutated in clear cell renal cell carcinoma (ccRCC), was recently shown to be a dual-function methyltransferase that “writes” methyl marks on both chromatin and microtubules, revealing α-tubulin methylation as a new posttranslational modification of the mitotic spindle. Here, we report that the polybromo protein PBRM1, the 2nd most mutated gene in ccRCC, is a “reader” for this SETD2-dependent methyl mark on α-tubulin. PBRM1 is a component of the PBAF (Polybromo BRG1 associated factor) chromatin remodeler complex. Our western and immunocytochemistry data in multiple kidney-derived cell lines, including HEK293T, HKC and 786-O, revealed that PBRM1 binds to methylated α-tubulin and localizes to the mitotic spindle and spindle pole during cell division. PBRM1 has six bromo domains, two bromo-associated homology (BAH) domains and one HMG domain. While PBRM1 is known to bind acetylated histones via its bromo domains, our GST pull down assays showed that PBRM1 binds methylated α-tubulin via its two BAH domains. Additional western and immunocytochemical experiments following knockout or re-expression of PBRM1 revealed that PBRM1 recruits other PBAF components to the mitotic spindle to maintain genomic stability. Two clinically established ccRCC mutations (P1048R and C1233W) in PBRM1 BAH domains result in loss of microtubule binding, mislocalization of PBAF, and the inability of PBRM1 to maintain genomic stability, as assessed by increased lagging chromosomes, chromosome bridges, multipolar spindles and micronuclei count. A third pathogenic ccRCC mutation (T1202K) in the PBRM1 BAH domain did not affect microtubule binding and consequently was not associated with mitotic spindle defects or genomic instability. Mass spectrometry and RNASeq confirmed BAH domain mutant PBRM1 still assembled a transcriptionally competent PBAF complex, clearly distinguishing the cytoskeletal from the chromatin impact of these mutations. These data reveal a previously unknown function of PBRM1 beyond reading acetylated histones, and expand the repertoire of chromatin remodelers acting on the cytoskeleton to maintain genomic stability. Citation Format: Menuka Karki, Rahul Jangid, Ramakrishnan Anish, Riyad N. Seervai, Jean-Philippe Bertocchio, Takashi Hotta, Pavlos Msaouel, Sung Y. Jung, Sandra L. Grimm, Cristian Coarfa, Bernard E. Weissman, Ryoma Ohi, Kristen J. Verhey, Courtney H. Hodges, Ruhee Dere, In Young Park, B. V. Venkataram Prasad, W. Kimryn Rathmell, Cheryl L. Walker, Durga N. Tripathi. A cytoskeletal function for PBRM1: reading methylated microtubules to maintain genomic stability [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2021; 2021 Apr 10-15 and May 17-21. Philadelphia (PA): AACR; Cancer Res 2021;81(13_Suppl):Abstract nr 2042.
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