PBRM1-deficient PBAF complexes target aberrant genomic loci to activate the NF-κB pathway in clear cell renal cell carcinoma.
Xiaosai YaoJing Han HongAmrita M NargundMichelle Shu Wen NgHong Lee HengZhimei LiPeiyong GuanMasahiro SugiuraPek Lim ChuLoo Chien WangXiaofen YeJames QuXiu Yi KwekJeffrey Chun Tatt LimWen Fong OoiJoanna KohZhenxun WangYou-Fu PanYan Shan OngKiat-Yi TanJian Yuan GohSheng Rong NgLuca PignataDachuan HuangAlexander LezhavaSu Ting TayMinghui LeeXun Hui YeoWai Leong TamSun Young RhaShang LiErnesto GuccioneP Andrew FutrealJing TanJoe Poh Sheng YeongWanjin HongRobert YauchKenneth Tou-En ChangRadoslaw Mikolaj SobotaPatrick Boon-Ooi TanBin Tean TehPublished in: Nature cell biology (2023)
PBRM1 encodes an accessory subunit of the PBAF SWI/SNF chromatin remodeller, and the inactivation of PBRM1 is a frequent event in kidney cancer. However, the impact of PBRM1 loss on chromatin remodelling is not well examined. Here we show that, in VHL-deficient renal tumours, PBRM1 deficiency results in ectopic PBAF complexes that localize to de novo genomic loci, activating the pro-tumourigenic NF-κB pathway. PBRM1-deficient PBAF complexes retain the association between SMARCA4 and ARID2, but have loosely tethered BRD7. The PBAF complexes redistribute from promoter proximal regions to distal enhancers containing NF-κB motifs, heightening NF-κB activity in PBRM1-deficient models and clinical samples. The ATPase function of SMARCA4 maintains chromatin occupancy of pre-existing and newly acquired RELA specific to PBRM1 loss, activating downstream target gene expression. Proteasome inhibitor bortezomib abrogates RELA occupancy, suppresses NF-κB activation and delays growth of PBRM1-deficient tumours. In conclusion, PBRM1 safeguards the chromatin by repressing aberrant liberation of pro-tumourigenic NF-κB target genes by residual PBRM1-deficient PBAF complexes.
Keyphrases
- signaling pathway
- gene expression
- genome wide
- lps induced
- pi k akt
- nuclear factor
- transcription factor
- oxidative stress
- dna methylation
- dna damage
- inflammatory response
- squamous cell carcinoma
- copy number
- cell proliferation
- wild type
- anti inflammatory
- replacement therapy
- multiple myeloma
- toll like receptor
- childhood cancer
- protein kinase
- lymph node metastasis