Long noncoding RNA BLACAT2 promotes bladder cancer–associated lymphangiogenesis and lymphatic metastasis
Wang He, Guangzheng Zhong, Ning Jiang, Bo Wang, Xinxiang Fan, Changhao Chen, Xu Chen, Jian Huang, Tianxin Lin
Wang He, Guangzheng Zhong, Ning Jiang, Bo Wang, Xinxiang Fan, Changhao Chen, Xu Chen, Jian Huang, Tianxin Lin
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Research Article Oncology

Long noncoding RNA BLACAT2 promotes bladder cancer–associated lymphangiogenesis and lymphatic metastasis

Abstract

The prognosis for bladder cancer patients with lymph node (LN) metastasis is dismal and only minimally improved by current treatment modalities. Elucidation of the molecular mechanisms that underlie LN metastasis may provide clinical therapeutic strategies for LN-metastatic bladder cancer. Here, we report that a long noncoding RNA LINC00958, which we have termed bladder cancer–associated transcript 2 (BLACAT2), was markedly upregulated in LN-metastatic bladder cancer and correlated with LN metastasis. Overexpression of BLACAT2 promoted bladder cancer–associated lymphangiogenesis and lymphatic metastasis in both cultured bladder cancer cell lines and mouse models. Furthermore, we demonstrate that BLACAT2 epigenetically upregulated VEGF-C expression by directly associating with WDR5, a core subunit of human H3K4 methyltransferase complexes. Importantly, administration of an anti–VEGF-C antibody inhibited LN metastasis in BLACAT2-overexpressing bladder cancer. Taken together, these findings uncover a molecular mechanism in the lymphatic metastasis of bladder cancer and indicate that BLACAT2 may represent a target for clinical intervention in LN-metastatic bladder cancer.

Authors

Wang He, Guangzheng Zhong, Ning Jiang, Bo Wang, Xinxiang Fan, Changhao Chen, Xu Chen, Jian Huang, Tianxin Lin

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Figure 6

BLACAT2 directly binds to VEGF-C promoter sequences.

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BLACAT2 directly binds to VEGF-C promoter sequences. (A) ChIRP analysis ...
(A) ChIRP analysis of BLACAT2-associated chromatin in UM-UC-3 cells. Retrieved chromatin was quantified by PCR. The percentage recovery of input for ChIRP was calculated based on a 10% nonprecipitated DNA sample for each experiment. The blue arrow indicates the transcriptional start site (TSS). The red arrows indicate the location of transcriptional start sites. (B) CD spectrum of a 1:1 mixture of TFO in BLACAT2 with TTS in the VEGF-C promoter sequences is shown in red. The sum of individual TFO and TTS is shown in blue. (C) Site-directed mutagenesis of 33–66 nt in BLACAT2 was performed, and the effect of overexpression of the wild-type or mutated BLACAT2 on VEGF-C secretion was evaluated by ELISA. (D and E) The effects of overexpression of wild-type or mutated BLACAT2 on tube formation (D) and migration of HLECs (E) were evaluated. All experiments were performed with at least 3 biological replicates. Statistical significance was assessed using 1-way ANOVA followed by Dunnett’s tests for multiple comparisons (CE). **P < 0.01.