16 Linking VHL and SETD2 in a common oncogenic pathway that converges on the mitoticspindle

Abstract

Abstract Background Loss of chromosome 3p is a landmark event in clear cell renal cell carcinoma (ccRCC) that results in mono-allelic loss of VHL (von Hippel Lindau) and SETD2 (Set-domain containing 2) (and other tumor suppressors co-located on 3p). Second hits in VHL inactivate this key tumor suppressor initiating tumor progression. SETD2, a histone methyltransferase, was previously shown to have a dual function in methylating both histones and microtubules, thereby contributing to both the histone and tubulin codes. Methylation by SETD2 on microtubules occurs at the mitotic spindle and is essential for normal mitosis and cytokinesis, with loss of SETD2 acting as a strong driver of apoptosis. This raises a conundrum of how cancer cells survive early mono-allelic loss of SETD2, escaping cell death. Methods Using biochemical kinase assays and mass spectrometry we have identified SETD2 as a substrate for AURKA. In addition, we have used immunoblotting and immunofluorescence assays to probe phosphorylation on SETD2 and the impact of phosphorylation of SETD2 both on its chromatin and cytoskeleton targets. Results We have identified the mitotic kinase, Aurora kinase A (AURKA), as a regulator of SETD2. Our data uncover SETD2 as a unique substrate for phosphorylation by AURKA, with mass spectrometry identifying serine 2080 (S2080) as the site of phosphorylation on SETD2. We found phosphorylation of SETD2 by AURKA at S2080 contributes to its methyltransferase (i.e. enzymatic) activity on microtubules but does not impact chromatin methylation on H3K36 which remains unaltered. We show that VHL regulates SETD2 via AURKA, and loss of phosphorylation on SETD2 results in mitotic defects and genomic instability. Importantly, we demonstrate that inhibition of AURKA is synthetic lethal in the setting of VHL and SETD2 deficiency. Conclusions AURKA expression levels are high in VHL-null cells resulting from an inability of VHL to target AURKA for degradation and our data now highlight a direct link between VHL and SETD2, two tumor suppressors believed to independently drive RCC pathogenesis. In summary, our data reveal a tumor-specific vulnerability linked to mitotic fragility that can be precisely targeted to ultimately drive mitotic catastrophe. DOD CDMRP Funding: yes