<i>Kdm6a</i> Deficiency Activates Inflammatory Pathways, Promotes M2 Macrophage Polarization, and Causes Bladder Cancer in Cooperation with <i>p53</i> Dysfunction

Kobatake, Kohei; Ikeda, Kenichiro; Nakata, Yoshihisa; Yamasaki, Norimasa; Ueda, Takeshi; Kanai, Akinori; Sentani, Kazuhiro; Sera, Yasuyuki; Hayashi, Tetsutaro; Koizumi, Miho; Miyakawa, Yoshihiko; Inaba, Toshiya; Sotomaru, Yusuke; Kaminuma, Osamu; Ichinohe, Tatsuo; Honda, Zen‐ichiro; Yasui, Wataru; Horie, Shigeo; Black, Peter C.; Matsubara, Akio; Honda, Hiroaki

doi:10.1158/1078-0432.ccr-19-2230

Cited by 93 publications

(68 citation statements)

References 48 publications

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“…These ndings support the need for further in-depth study of the possible role of KDM6A in regulation of cell adhesion and morphology in BC [21]. KDM6A de ciency has been suggested to activate pathways of chemokines and cytokines, increase M2 macrophage polarization, increase cancer stem cell abundance, and act synergistically with p53 haploinsu ciency [22]. Given the key function of KDM6A in regulating CD4 + T cells, [23] concluded that KDM6A likely regulates multiple immune response genes in autoimmune disease susceptibility.…”

Section: Discussionsupporting

confidence: 55%

Significance of KDM6A Mutation in Bladder Cancer Immune Escape

Chen

Lin

Pang

et al. 2020

Preprint

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Background: Bladder cancer (BC) is the fourth most prevalent neoplasm in men and is associated with high tumour recurrence rates, leading to major treatment challenges. Lysine-specific demethylase 6A (KDM6A) is frequently mutated in several cancer types; however, its effects on tumour progression and clinical outcome in BC remain unclear. Here, we explored the potential role of KDM6A in regulating the antitumor immune response. Methods: We mined The Cancer Genome Atlas (TCGA) and International Cancer Genome Consortium (ICGC) databases for somatic mutation and clinical data in patients with BC. Results: We found frequent mutations in 12 genes in both cohorts, including TP53, KDM6A, CSMD3, MUC16, STAG2, PIK3CA, ARID1A, RB1, EP300, ERBB2, ERBB3, and FGFR3. The frequency of KDM6A mutations in the TCGA and ICGC datasets was 25.97% and 24.27%, respectively. In addition, KDM6A mutation was associated with a lower number of tumour-infiltrating lymphocytes and indicated a state of immune tolerance. KDM6A mutation was associated with lower KDM6A expression level compared with that in samples carrying the wild-type gene. Further, survival analysis showed that the prognosis of patients with low KDM6A expression was worse than that with high KDM6A expression. Using the CIBERSORT algorithm, Tumor Immune Estimation Resource site, and Gene Set Enrichment Analysis, we found that KDM6A mutation downregulated nine signalling pathways that participate in the immune system and attenuated the tumour immune response. Conclusion: Overall, we conclude that KDM6A mutation is frequent in BC and promotes tumour immune escape, which may serve as a novel biomarker to predict the immune response. Key Words: KDM6A, bladder cancer, mutation, immune

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Section: Discussionsupporting

confidence: 55%

Significance of KDM6A Mutation in Bladder Cancer Immune Escape

Chen

Lin

Pang

et al. 2020

Preprint

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“…The study using KDM6A-knockout bladder cancer cells and patient-derived xenograft model suggested that EZH2 (enhancer of zeste homolog 2, H3K27 methylase) inhibition is a potential therapeutic target for bladder cancer with the mutations [40]. In the recent study using the mice lacking Kdm6a in the urothelium, Kdm6a deficiency activates inflammatory pathways, promotes M2 macrophage polarization, and causes bladder cancer in cooperation with p53 dysfunction [41].…”

Section: Kdm6amentioning

confidence: 99%

Mutational Landscape and Environmental Effects in Bladder Cancer

Hayashi

Fujita

Hayashi

et al. 2020

IJMS

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Bladder cancer is the most common cancer of the urinary tract. Although nonmuscle-invasive bladder cancers have a good prognosis, muscle-invasive bladder cancers promote metastases and have a poor prognosis. Comprehensive analyses using RNA sequence of clinical tumor samples in bladder cancer have been reported. These reports implicated the candidate genes and pathways that play important roles in carcinogenesis and/or progression of bladder cancer. Further investigations for the function of each mutation are warranted. There is suggestive evidence for several environmental factors as risk factors of bladder cancer. Environmental factors such as cigarette smoking, exposure to chemicals and gases, bladder inflammation due to microbial and parasitic infections, diet, and nutrition could induce several genetic mutations and alter the tumor microenvironment, such as immune cells and fibroblasts. The detailed mechanism of how these environmental factors induce carcinogenesis and/or progression of bladder cancer remains unclear. To identify the relationship between the mutations and the lifestyle could be useful for prevention and treatment of bladder cancer.

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“…These ndings support the need for further in-depth study of the possible role of KDM6A in regulation of cell adhesion and morphology in BC [21]. KDM6A de ciency has been suggested to activate pathways of chemokines and cytokines, increase M2 macrophage polarization, increase cancer stem cell abundance, and act synergistically with p53 haploinsu ciency [22]. Given the key function of KDM6A in regulating CD4+ T cells [23],concluded that KDM6Alikely regulates multiple immune response genes in autoimmune disease susceptibility.…”

Section: Discussionmentioning

confidence: 72%

Significance of KDM6A Mutation in Bladder Cancer Immune Escape

Chen¹,

Zhang

Pang³

et al. 2020

Preprint

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Background: Bladder cancer (BC)is the fourth most prevalent neoplasm in menand is associated with high tumour recurrence rates, leading to major treatment challenges. Lysine-specific demethylase 6A (KDM6A) is frequently mutated in several cancer types; however, its effects on tumour progression and clinical outcome in BCremain unclear. Here, we explored the potential role of KDM6A in regulating the antitumor immune response. Methods: We mined The Cancer Genome Atlas (TCGA) and International Cancer Genome Consortium (ICGC) databases for somatic mutation and clinical data in patients with BC.Results: We found frequent mutations in 12 genes in both cohorts, including TP53, KDM6A, CSMD3, MUC16, STAG2, PIK3CA, ARID1A, RB1, EP300, ERBB2, ERBB3, and FGFR3. The frequency of KDM6A mutationsin the TCGA and ICGC datasets was 25.97% and 24.27%, respectively. In addition, KDM6A mutation was associated with a lower number oftumour-infiltrating lymphocytes and indicated a state ofimmunetolerance. KDM6A mutation was associated with lower KDM6A expression level compared with that in samples carrying the wild-type gene. Further, survival analysis showed that the prognosis of patients with low KDM6Aexpression was worse than that withhigh KDM6A expression. Using the CIBERSORT algorithm, Tumor Immune Estimation Resource site, and Gene Set Enrichment Analysis, we found that KDM6A mutation downregulated nine signalling pathways that participate in the immune system and attenuated the tumour immune response. Conclusion: Overall, we conclude that KDM6A mutation is frequent in BC and promotes tumour immune escape, which may serve as a novel biomarker to predict the immune response.

show abstract

Kdm6a Deficiency Activates Inflammatory Pathways, Promotes M2 Macrophage Polarization, and Causes Bladder Cancer in Cooperation with p53 Dysfunction

Cited by 93 publications

References 48 publications

Significance of KDM6A Mutation in Bladder Cancer Immune Escape

Significance of KDM6A Mutation in Bladder Cancer Immune Escape

Mutational Landscape and Environmental Effects in Bladder Cancer

Significance of KDM6A Mutation in Bladder Cancer Immune Escape

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Kdm6a Deficiency Activates Inflammatory Pathways, Promotes M2 Macrophage Polarization, and Causes Bladder Cancer in Cooperation with p53 Dysfunction

Cited by 93 publications

References 48 publications

Significance of KDM6A Mutation in Bladder Cancer Immune Escape

Significance of KDM6A Mutation in Bladder Cancer Immune Escape

Mutational Landscape and Environmental Effects in Bladder Cancer

Significance of KDM6A Mutation&nbsp;in Bladder Cancer Immune Escape

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Significance of KDM6A Mutation in Bladder Cancer Immune Escape