Isabelle Dhennin‐Duthille scite author profile

Background: Transient Receptor Potential (TRP) channels are expressed in many solid tumors. However, their expression in breast cancer remains largely unknown. Here, we investigated the profile expression of 13 TRP channels in human breast ductal adenocarcinoma (hBDA) and performed a correlation between their overexpression and pathological parameters. Methods: The TRP channels expression was determined by RT-PCR in hBDA tissue, in human breast cancer epithelial (hBCE) primary culture and in MCF-7 cell line. The TRP protein level was evaluated by immunohistochemistry in hBDA tissue samples of 59 patients. Results: TRPC1, TRPC6, TRPM7, TRPM8, and TRPV6 channels were overexpressed in hBDA compared to the adjacent non-tumoral tissue. Most interestingly, TRPC1, TRPM7 and TRPM8 expression strongly correlated with proliferative parameters (SBR grade, Ki67 proliferation index, and tumor size), and TRPV6 was mainly overexpressed in the invasive breast cancer cells. Using laser capture microdissection, we found that TRPV6 expression was higher in invasive areas, compared to the corresponding non-invasive ones. Moreover, TRPV6 silencing inhibited MDA-MB-231 migration and invasion, and MCF-7 migration. Conclusion: TRP channels are aberrantly expressed in hBDA, hBCE primary cultures, and cell lines, and associated with pathological parameters. The high expression of TRP channels in tumors suggests the potential of these channels for diagnostic, prognosis and/or therapeutic approaches in human breast ductal adenocarcinoma.

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Evidence that TRPM7 is required for breast cancer cell proliferation

Guilbert¹,

Gautier²,

Dhennin‐Duthille³

et al. 2009

American Journal of Physiology-Cell Physiology

223

199

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Because transient receptor potential (TRP) channels have been implicated in tumor progression, we have investigated the potential role of TRPM7 channel in breast cancer cell proliferation. Under whole cell patch clamp, a Mg(2+)-inhibited cationic (MIC) current was observed in MCF-7 cells. This current was characterized by an inward current and a strong outward rectifying current that were both inhibited in a concentration-dependent manner by the presence of intracellular Mg(2+) or Mg(2+)-ATP. The inward current was reduced by La(3+), and the outward current was sensitive to 2-aminoethoxydiphenyl borate (2-APB), spermine, La(3+), and flufenamic acid. Importantly, a similar MIC current was also recorded in the primary culture of human breast cancerous epithelial cells (hBCE). Moreover, TRPM7 transcripts were found in both hBCE and MCF-7 cells. In MCF-7 cells, the MIC current was inhibited by TRPM7 small interfering RNA. Interestingly, we found that cell proliferation and intracellular Ca(2+) concentration were also reduced by TRPM7 silencing in MCF-7 cells. TRPM7 channels were also found in both human breast cancer and healthy tissues. Importantly, TRPM7 channel was overexpressed in grade III breast cancer samples associated with important Ki67 or tumor size. Our findings strongly suggest that TRPM7 is involved in the proliferative potentiality of breast cancer cells, probably by regulating Ca(2+) influx.

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Transient receptor potential melastatin‐related 7 channel is overexpressed in human pancreatic ductal adenocarcinomas and regulates human pancreatic cancer cell migration

Rybarczyk

Gautier

Hague

et al. 2012

Intl Journal of Cancer

131

133

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Pancreatic ductal adenocarcinoma (PDAC) is one of the most aggressive forms of cancer with a tendency to invade surrounding healthy tissues, leading to a largely incurable disease. Despite many advances in modern medicine, there is still a lack of early biomarkers as well as efficient therapeutical strategies. The melastatin-related transient receptor potential 7 channel (TRPM7) is a nonselective cation channel that is involved in maintaining Ca 21 and Mg 21 homeostasis. It has been recently reported to regulate cell differentiation, proliferation and migration. However, the role of TRPM7 in PDAC progression is far to be understood. In our study, we show that TRPM7 is 13-fold overexpressed in cancer tissues compared to the healthy ones. Furthermore, TRPM7 staining is stronger in tumors with high grade, suggesting a correlation between TRPM7 expression and PDAC progression. Importantly, TRPM7 expression is inversely related to patient survival. In BxPC-3 cell line, dialyzing the cytoplasm during the patch-clamp whole-cell recording with a 0-Mg 21 solution activated a nonselective current with a strong outward rectification. This cation current is inhibited by intracellular Mg 21 and by TRPM7 silencing. The downregulation of TRPM7 by small interference RNA dramatically inhibited intracellular Mg 21 fluorescence and cell migration without affecting cell proliferation, suggesting that TRPM7 contributes to Mg 21 entry and cell migration. Moreover, external Mg 21 following TRPM7 silencing fully restored the cell migration. In summary, our results indicate that TRPM7 is involved in the BxPC-3 cell migration via a Mg 21 -dependent mechanism and may be a potential biomarker of poor prognosis of PDAC.Pancreatic ductal adenocarcinoma (PDAC) is the fifth most frequent cause of cancer-related mortality in the European Union 1 and the the fourth most frequent cause in the United States. 2 PDAC has a poor long-term prognosis with 5-year survival rates of only 1-4%. Current therapeutic strategies generally result in only a few months of extended life because PDAC develops insidiously and metastasizes quickly and widely. Thus, a greater understanding of the molecular processes involved in PDAC progression and metastasis is urgently needed.Ion channels are transmembrane proteins that are involved in a wide panel of physiological cell mechanisms, including excitability, secretion, proliferation, apoptosis and motility. Nevertheless, a growing amount of studies show that ion channels expression is altered in several cancers including breast and prostate. 3 Among these ion channels, members of the transient receptor potential (TRP) family have been proposed as prognosis markers in breast and prostate cancers. 4,5 TRP melastatin-related 7 (TRPM7) channels are a member of ''chanzymes,'' which are unique feature of cation channels fused with a kinase function. 6,7 They allow magnesium and calcium entries; however, they are mainly involved in magnesium homeostasis. 8 In the digestive system, TRPM7 channels are expressed and involved in ...

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Activated STAT5 proteins induce activation of the PI 3-kinase/Akt and Ras/MAPK pathways via the Gab2 scaffolding adapter

Nyga

Pecquet

Harir

et al. 2005

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The active forms of STAT5A (signal transducer and activator of transcription 5A) and STAT5B are able to relieve the cytokine dependence of haematopoietic cells and to induce leukaemia in mice. We have demonstrated previously that activation of the PI3K (phosphoinositide 3-kinase) signalling cascade plays a major role in cell growth and survival induced by these proteins. Interaction between STAT5 and p85, the regulatory subunit of the PI3K, has been suggested to be required for this activation. We show in the present study that the scaffolding protein Gab2 [Grb2 (growth-factor-receptor-bound protein 2)-associated binder-2] is an essential component of this interaction. Gab2 is persistently tyrosine-phosphorylated in Ba/F3 cells expressing caSTAT5 (constitutively activated STAT5), independent of JAK2 (Janus kinase 2) activation where it interacts with STAT5, p85 and Grb2, but not with Shp2 [SH2 (Src homology 2)-domain-containing tyrosine phosphatase] proteins. Interaction of STAT5 with Gab2 was also observed in Ba/F3 cells stimulated with interleukin-3 or expressing the oncogenic fusion protein Tel-JAK2. The MAPKs (mitogen-activated protein kinases) ERK1 (extracellular-signal-regulated kinase 1) and ERK2 were constitutively activated in the caSTAT5-expressing cells and were found to be required for caSTAT5-induced cell proliferation. Overexpression of Gab2-3YF, a mutant of Gab2 incapable of binding PI3K, inhibited the proliferation and survival of caSTAT5-expressing cells as well as ERK1/2 and Akt/protein kinase B phosphorylation. Taken together, our results indicate that Gab2 is required for caSTAT5-induced cell proliferation by regulating both the PI3K/Akt and the Ras/MAPK pathways.

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