Abstract
<div>AbstractPurpose:<p>Epigenetic deregulation is deeply implicated in the pathogenesis of bladder cancer. KDM6A (Lysine (K)-specific demethylase 6A) is a histone modifier frequently mutated in bladder cancer. However, the molecular mechanisms of how KDM6A deficiency contributes to bladder cancer development remains largely unknown. We hypothesized that clarification of the pathogenic mechanisms underlying <i>KDM6A</i>-mutated bladder cancer can help in designing new anticancer therapies.</p>Experimental Design:<p>We generated mice lacking <i>Kdm6a</i> in the urothelium and crossed them with mice heterozygous for <i>p53</i>, whose mutation/deletion significantly overlaps with the <i>KDM6A</i> mutation in muscle-invasive bladder cancer (MIBC). In addition, BBN (N-butyl-N-(4-hydroxybutyl) nitrosamine), a cigarette smoke-like mutagen, was used as a tumor-promoting agent. Isolated urothelia were subjected to phenotypic, pathologic, molecular, and cellular analyses. The clinical relevance of our findings was further analyzed using genomic and clinical data of patients with MIBC.</p>Results:<p>We found that <i>Kdm6a</i> deficiency activated cytokine and chemokine pathways, promoted M2 macrophage polarization, increased cancer stem cells and caused bladder cancer in cooperation with <i>p53</i> haploinsufficiency. We also found that BBN treatment significantly enhanced the expression of proinflammatory molecules and accelerated disease development. Human bladder cancer samples with decreased <i>KDM6A</i> expression also showed activated proinflammatory pathways. Notably, dual inhibition of IL6 and chemokine (C-C motif) ligand 2, upregulated in response to <i>Kdm6a</i> deficiency, efficiently suppressed <i>Kdm6a</i>-deficient bladder cancer cell growth.</p>Conclusions:<p>Our findings provide insights into multistep carcinogenic processes of bladder cancer and suggest molecular targeted therapeutic approaches for patients with bladder cancer with <i>KDM6A</i> dysfunction.</p></div>
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