Transcriptional repression of human epidermal growth factor receptor 2 by ClC‐3 Cl<sup>−</sup>/H<sup>+</sup> transporter inhibition in human breast cancer cells

Fujimoto, Mayu; Kurihara, Hiroaki; Kajikuri, Junko; Ohya, Susumu

doi:10.1111/cas.13715

Cited by 17 publications

(8 citation statements)

References 42 publications

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“…For example, 1) We know that there are many factors that can promote the high expression of TMEM16A. For example, transcriptional stimulation of the IL4/IL13-Jack-STAT3-STAT6 axis, activation of steroid hormones such as testosterone, histone deacetylase (HDCA), promoter hypomethylation, and downregulation of inhibitory miRNA have been shown to increase the expression of TMEM16A ( Wanitchakool et al, 2014 ; Bill and Alex Gaither, 2017 ; Qu et al, 2014 ; Fujimoto et al, 2018 ). Is it possible to prevent or treat cancer through this stimulus?…”

Section: Future Expectationsmentioning

confidence: 99%

The Prognostic Value and Mechanisms of TMEM16A in Human Cancer

Chen

Gao

et al. 2021

Front. Mol. Biosci.

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As a calcium ion-dependent chloride channel transmembrane protein 16A (TMEM16A) locates on the cell membrane. Numerous research results have shown that TMEM16A is abnormally expressed in many cancers. Mechanically, TMEM16A participates in cancer proliferation and migration by affecting the MAPK and CAMK signaling pathways. Additionally, it is well documented that TMEM16A exerts a regulative impact on the hyperplasia of cancer cells by interacting with EGFR in head and neck squamous cell carcinoma (HNSCC), an epithelial growth factor receptor in head and neck squamous cell carcinoma respectively. Meanwhile, as an EGFR activator, TMEM16A is considered as an oncogene or a tumor-promoting factor. More and more experimental data showed that down-regulation of TMEM16A or gene targeted therapy may be an effective treatment for cancer. This review summarized its role in various cancers and research advances related to its clinical application included treatment and diagnosis.

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Section: Future Expectationsmentioning

confidence: 99%

The Prognostic Value and Mechanisms of TMEM16A in Human Cancer

Chen

Gao

et al. 2021

Front. Mol. Biosci.

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“…Thus, removing the cells from their physiological environment, cellular reorganization and pro-mitotic stimulation may all contribute to upregulation of ANO1. Moreover, transcriptional stimulation via the IL4/IL13-Jack-STAT3-STAT6 axis, steroid hormones such as testosterone, activation of histone deacetylase (HDCA), promotor hypo- methylation, as well as downregulation of inhibitory micro-RNAs have been shown to upregulate ANO1 expression (reviewed in [73,74,76,121,122] (Figure 2).…”

Section: How Is Ano1 Upregulated During Cell Proliferation and Canmentioning

confidence: 99%

Contribution of Anoctamins to Cell Survival and Cell Death

Kunzelmann

Ousingsawat

Benedetto

et al. 2019

Cancers

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Before anoctamins (TMEM16 proteins) were identified as a family of Ca2+-activated chloride channels and phospholipid scramblases, the founding member anoctamin 1 (ANO1, TMEM16A) was known as DOG1, a marker protein for gastrointestinal stromal tumors (GIST). Meanwhile, ANO1 has been examined in more detail, and the role of ANO1 in cell proliferation and the development of different types of malignomas is now well established. While ANO5, ANO7, and ANO9 may also be relevant for growth of cancers, evidence has been provided for a role of ANO6 (TMEM16F) in regulated cell death. The cellular mechanisms by which anoctamins control cell proliferation and cell death, respectively, are just emerging; however, the pronounced effects of anoctamins on intracellular Ca2+ levels are likely to play a significant role. Recent results suggest that some anoctamins control membrane exocytosis by setting Ca2+i levels near the plasma membrane, and/or by controlling the intracellular Cl− concentration. Exocytosis and increased membrane trafficking induced by ANO1 and ANO6 may enhance membrane expression of other chloride channels, such as CFTR and volume activated chloride channels (VRAC). Notably, ANO6-induced phospholipid scrambling with exposure of phosphatidylserine is pivotal for the sheddase function of disintegrin and metalloproteinase (ADAM). This may support cell death and tumorigenic activity of IL-6 by inducing IL-6 trans-signaling. The reported anticancer effects of the anthelminthic drug niclosamide are probably related to the potent inhibitory effect on ANO1, apart from inducing cell cycle arrest through the Let-7d/CDC34 axis. On the contrary, pronounced activation of ANO6 due to a large increase in intracellular calcium, activation of phospholipase A2 or lipid peroxidation, can lead to ferroptotic death of cancer cells. It therefore appears reasonable to search for both inhibitors and potent activators of TMEM16 in order to interfere with cancer growth and metastasis.

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“…35 Moreover, ClC-3 may be a critical subunit or cooperative protein for the assembly of functional proteins or membrane receptors, such as NADPH oxidase 1 (NOX1), 36 protein kinase C (PKC), 37 calcium/calmodulin-dependent protein kinase II (CamKII), 21 matrix metalloproteinase-2 (MMP-2) receptors, 38 Sirtuin 1 (Sirt1), 39 SRY-box transcription factor 2 (SOX2), 40 and serumand glucocorticoid-regulated kinase 1 (SGK1). 41 Notably, angiotensin II (AngII), lipopolysaccharide (LPS), interleukin (IL), endothelin 1 (ET1), transforming growth factor-b1 (TGF-b1), and tumor necrosis factor-a (TNF-a) can promote the ClC-3 expression and stimulate the activation of multiple inflammatory signaling pathways such as nuclear factor kappa B (NF-kB), 36,42 Janus kinase (JAK)-signal transducer and activator of transcription (STAT), 43 and LPS/ Toll-like receptor 4 (TLR4). 44 ClC-3 knockout or inhibition was found to suppress these inflammatory signaling pathways, alleviating the induction of inflammation both in vitro and in vivo.…”

Section: The Classical Role Of Clc-3: Cell Volume and Signaling Pathway Regulationmentioning

confidence: 99%

ClC-3: A Novel Promising Therapeutic Target for Atherosclerosis

Niu

Xie

2021

J Cardiovasc Pharmacol Ther

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Chloride channel 3 (ClC-3), a Cl−/H+ antiporter, has been well established as a member of volume-regulated chloride channels (VRCCs). ClC-3 may be a crucial mediator for activating inflammation-associated signaling pathways by regulating protein phosphorylation. A growing number of studies have indicated that ClC-3 overexpression plays a crucial role in mediating increased plasma low-density lipoprotein levels, vascular endothelium dysfunction, pro-inflammatory activation of macrophages, hyper-proliferation and hyper-migration of vascular smooth muscle cells (VSMCs), as well as oxidative stress and foam cell formation, which are the main factors responsible for atherosclerotic plaque formation in the arterial wall. In the present review, we summarize the molecular structures and classical functions of ClC-3. We further discuss its emerging role in the atherosclerotic process. In conclusion, we explore the potential role of ClC-3 as a therapeutic target for atherosclerosis.

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Transcriptional repression of human epidermal growth factor receptor 2 by ClC‐3 Cl⁻/H⁺ transporter inhibition in human breast cancer cells

Cited by 17 publications

References 42 publications

The Prognostic Value and Mechanisms of TMEM16A in Human Cancer

The Prognostic Value and Mechanisms of TMEM16A in Human Cancer

Contribution of Anoctamins to Cell Survival and Cell Death

ClC-3: A Novel Promising Therapeutic Target for Atherosclerosis

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Transcriptional repression of human epidermal growth factor receptor 2 by ClC‐3 Cl−/H+ transporter inhibition in human breast cancer cells

Cited by 17 publications

References 42 publications

The Prognostic Value and Mechanisms of TMEM16A in Human Cancer

The Prognostic Value and Mechanisms of TMEM16A in Human Cancer

Contribution of Anoctamins to Cell Survival and Cell Death

ClC-3: A Novel Promising Therapeutic Target for Atherosclerosis

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Product

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Transcriptional repression of human epidermal growth factor receptor 2 by ClC‐3 Cl⁻/H⁺ transporter inhibition in human breast cancer cells