Epigenetically upregulated oncoprotein PLCE1 drives esophageal carcinoma angiogenesis and proliferation via activating the PI-PLCε-NF-κB signaling pathway and VEGF-C/ Bcl-2 expression

Chen, Yunzhao; Wang, Dandan; Peng, Hao; Chen, Xi; Han, Xiao; Yu, Jun; Wang, Wenjie; Liang, Lirong; Liu, Zheng; Zheng, Yi; Hu, Jianming; Yang, Lan; Jun, Li; Zhou, Hong; Cui, Xiaobin; Li, Feng

doi:10.1186/s12943-018-0930-x

Cited by 465 publications

(373 citation statements)

References 52 publications

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“…In various human cancers, enhanced expression of VEGFC and higher levels of VEGFC in serum are commonly associated with tumor aggressiveness and lymph-node metastasis (Su et al, 2007;Lohela et al, 2009). In esophageal carcinoma, for instance, angiogenesis is driven via the phosphoinositide-phospholipase C-ε (PI-PLCε)/NF-κB signaling pathway by direct promotion of VEGFC transcription (Chen et al, 2019). In xenograft or transgenic tumor models, stimulation of lymphangiogenesis by VEGFC promotes malignant cell dissemination (Stacker et al, 2014).…”

Section: Introductionmentioning

confidence: 99%

BACH family members regulate angiogenesis and lymphangiogenesis by modulating VEGFC expression

Cohen¹,

Tempelhof²,

Raz

et al. 2020

Life Sci. Alliance

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Angiogenesis and lymphangiogenesis are key processes during embryogenesis as well as under physiological and pathological conditions. Vascular endothelial growth factor C (VEGFC), the ligand for both VEGFR2 and VEGFR3, is a central lymphangiogenic regulator that also drives angiogenesis. Here, we report that members of the highly conserved BACH (BTB and CNC homology) family of transcription factors regulate VEGFC expression, through direct binding to its promoter. Accordingly, down-regulation of bach2a hinders blood vessel formation and impairs lymphatic sprouting in a Vegfc-dependent manner during zebrafish embryonic development. In contrast, BACH1 overexpression enhances intratumoral blood vessel density and peritumoral lymphatic vessel diameter in ovarian and lung mouse tumor models. The effects on the vascular compartment correlate spatially and temporally with BACH1 transcriptional regulation of VEGFC expression. Altogether, our results uncover a novel role for the BACH/VEGFC signaling axis in lymphatic formation during embryogenesis and cancer, providing a novel potential target for therapeutic interventions.

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Section: Introductionmentioning

confidence: 99%

BACH family members regulate angiogenesis and lymphangiogenesis by modulating VEGFC expression

Cohen¹,

Tempelhof²,

Raz

et al. 2020

Life Sci. Alliance

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“…Sustained activation of NF-κB signaling pathway is a common event in various cancers, including PDAC, and considered to be essential to cancer development. Chen et al showed that PLCE1 constitutively activated the NF-κB signaling pathway to drive esophageal carcinoma angiogenesis and proliferation [41]. Jeong et al reported that miR-196b/Meis2/PPP3CC axis sustained the activation of NF-κB signaling pathway to induce prostate cancer castration resistance [42].…”

Section: Discussionmentioning

confidence: 99%

lncRNA-PLACT1 sustains activation of NF-κB pathway through a positive feedback loop with IκBα/E2F1 axis in pancreatic cancer

et al. 2020

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Background: The activation of NF-κB signaling pathway is regarded as the dominant process that correlates with tumorigenesis. Recently, increasing evidence shows that long noncoding RNAs (lncRNAs) play crucial roles in sustaining the NF-κB signaling pathway. However, the underlying mechanisms have not yet been elucidated. Methods: The expression and clinical features of PLACT1 were analyzed in a 166-case cohort of PDAC by qRT-PCR and in situ hybridization. The functional role of PLACT1 was evaluated by both in vitro and in vivo experiments. Chromatin isolation by RNA purification assays were utilized to examine the interaction of PLACT1 with IκBα promoter. Results: We identified a novel lncRNA-PLACT1, which was significantly upregulated in tumor tissues and correlated with progression and poor survival in PDAC patients. Moreover, PLACT1 promoted the proliferation and invasion of PDAC cells in vitro. Consistently, PLACT1 overexpression fostered the progression of PDAC both in orthotopic and lung metastasis mice models. Mechanistically, PLACT1 suppressed IκBα expression by recruiting hnRNPA1 to IκBα promoter, which led to increased H3K27me3 that decreased the transcriptional level of IκBα. Furthermore, E2F1mediated overexpression of PLACT1 modulated the progression of PDAC by sustained activation of NF-κB signaling pathway through forming a positive feedback loop with IκBα. Importantly, administration of the NF-κB signaling pathway inhibitor significantly suppressed PLACT1-induced sustained activation of NF-κB signaling pathway, leading to reduced tumorigenesis in vivo.

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“…The high lethality rate of gliomas highlights the urgent need for e cient treatment. The pathogenesis of glioma is complex and can be induced by a variety of mechanisms, as shown by abnormal activation of glioma stem cells [28], tumor angiogenesis [29] and isocitrate dehydrogenase mutation [30]. VEGF acts as a regulator of angiogenesis has been widely recognized as a critical contributor to the development and progression of glioma [12,14].…”

Section: Discussionmentioning

confidence: 99%

miR-148a-3p inhibits DNMT1-mediated methylation of VEGF and promotes proliferation and invasion in glioma cells via the PI3K/Akt/eNOS signaling pathway

Huo

Chen

2020

Preprint

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Background: Abnormal DNA methylation in the promoter region of vascular endothelial growth factor (VEGF) has been observed in multiple types of cancer. Increasing evidence shows that miR-148a-3p is involved in the regulation of methylation. However, it is unclear how miR-148a-3p regulates VEGF methylation.Methods: Methylation-specific polymerase chain reaction (MSP) and bisulfate-sequencing PCR (BSP) were performed to detect the methylation level of the VEGF promoter region in glioma tissues and cell lines. Then, we used RT-qPCR to detect the expression of miR-148a-3p and VEGF in glioma tissues and cell lines. Human glioma U87 cells were transfected with miR-148a-3p mimic or a pcDNA3.1 overexpression vector of VEGF, and then, the proliferation, invasion and apoptosis of U87 cells were examined with cell counting kit-8 (CCK-8), Transwell assay and Flow cytometry, respectively. We next examined the relationship between DNA methyltransferase 1 (DNMT1) and miR-148a-3p with online prediction and luciferase reporter gene experiments. Furthermore, we also used Western blotting to detect the protein levels of VEGF, DNMT1, PI3K, Akt and eNOS.Results: Both miR-148a-3p and VEGF were significantly up-regulated, and the promoter methylation of VEGF was hypomethylation in glioma. Overexpression miR-148a-3p or VEGF promoted the proliferation and invasion of U87 cells and inhibited the apoptosis. Silencing VEGF inhibited U87 cells proliferation and invasion and induced the apoptosis. Furthermore, miR-148a-3p regulated DNMT1 at the post-transcriptional. Overexpression of DNMT1 mediated an increase in the methylation level of VEGF, which reduced the expression of VEGF in U87 cells. The opposite was exact when DNMT1 was silenced. We also observed that silencing VEGF inhibited the activation of the PI3K/Akt/eNOS pathway and induced U87 cell apoptosis.Conclusion: These results indicated that miR-148a-3p down-regulates VEGF methylation by targeting DNMT1 and promotes the proliferation, invasion of the glioma cell through the PI3K/Akt/eNOS pathway.

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Epigenetically upregulated oncoprotein PLCE1 drives esophageal carcinoma angiogenesis and proliferation via activating the PI-PLCε-NF-κB signaling pathway and VEGF-C/ Bcl-2 expression

Cited by 465 publications

References 52 publications

BACH family members regulate angiogenesis and lymphangiogenesis by modulating VEGFC expression

BACH family members regulate angiogenesis and lymphangiogenesis by modulating VEGFC expression

lncRNA-PLACT1 sustains activation of NF-κB pathway through a positive feedback loop with IκBα/E2F1 axis in pancreatic cancer

miR-148a-3p inhibits DNMT1-mediated methylation of VEGF and promotes proliferation and invasion in glioma cells via the PI3K/Akt/eNOS signaling pathway

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