Castration resistance in prostate cancer (PCa) constitutes an advanced, aggressive disease with poor prognosis, associated with uncontrolled cell proliferation, resistance to apoptosis, and enhanced invasive potential. The molecular mechanisms involved in the transition of PCa to castration resistance are obscure. Here, we report that the nonselective cationic channel transient receptor potential vanilloid 2 (TRPV2) is a distinctive feature of castration-resistant PCa. TRPV2 transcript levels were higher in patients with metastatic cancer (stage M1) compared with primary solid tumors (stages T2a and T2b). Previous studies of the TRPV2 channel indicated that it is primarily involved in cancer cell migration and not in cell growth. Introducing TRPV2 into androgen-dependent LNCaP cells enhanced cell migration along with expression of invasion markers matrix metalloproteinase (MMP) 9 and cathepsin B. Consistent with the likelihood that TRPV2 may affect cancer cell aggressiveness by influencing basal intracellular calcium levels, small interfering RNA-mediated silencing of TRPV2 reduced the growth and invasive properties of PC3 prostate tumors established in nude mice xenografts, and diminished expression of invasive enzymes MMP2, MMP9, and cathepsin B. Our findings establish a role for TRPV2 in PCa progression to the aggressive castration-resistant stage, prompting evaluation of TRPV2 as a potential prognostic marker and therapeutic target in the setting of advanced PCa. Cancer Res; 70(3); 1225-35. ©2010 AACR.
Recent cloning of a cold/menthol-sensitive TRPM8 channel (transient receptor potential melastatine family member 8) from rodent sensory neurons has provided the molecular basis for the cold sensation. Surprisingly, the human orthologue of rodent TRPM8 also appears to be strongly expressed in the prostate and in the prostate cancer-derived epithelial cell line, LNCaP. In this study, we show that despite such expression, LNCaP cells respond to cold/menthol stimulus by membrane current (I cold/menthol ) that shows inward rectification and high Ca 2؉ selectivity, which are dramatically different properties from "classical" TRPM8-mediated I cold/menthol . Yet, silencing of endogenous TRPM8 mRNA by either antisense or siRNA strategies suppresses both I cold/menthol and TRPM8 protein in LNCaP cells. We demonstrate that these puzzling results arise from TRPM8 localization not in the plasma, but in the endoplasmic reticulum (ER) membrane of LNCaP cells, where it supports cold/menthol/icilin-induced Ca 2؉ release from the ER with concomitant activation of plasma membrane (PM) store-operated channels (SOC). In contrast, GFP-tagged TRPM8 heterologously expressed in HEK-293 cells target the PM. We also demonstrate that TRPM8 expression and the magnitude of SOC current associated with it are androgen-dependent. Our results suggest that the TRPM8 may be an important new ER Ca 2؉ release channel, potentially involved in a number of Ca 2؉ -and store-dependent processes in prostate cancer epithelial cells, including those that are important for prostate carcinogenesis, such as proliferation and apoptosis. Mammalian homologues of the Drosophila transient receptor potential (TRP)7 channel, which initially emerged as a channel specifically linked to phospholipase C-catalyzed inositol phospholipid breakdown signaling pathways, have now grown into a broad family of channelforming proteins displaying extraordinarily diverse activation mechanisms (for reviews, see Refs. 1-5). At present, these channels are grouped into six subfamilies based on structural homology and have been given a standard nomenclature (5).A number of mammalian TRPs show a unique mode of gating, in response to thermal stimuli as well as to the chemical imitators of burning and cooling sensations, capsaicin and menthol, respectively. As such, they represent a group of thermal receptors covering a wide range of physiological temperatures. Most thermal receptors belong to the vanilloid TRP subfamily (TRPV, Ref. 6) including warm-sensitive (Ͻ40°C) TRPV3 (7-9) and heat-and capsaicin-sensitive TRPV1 (Ͼ43°C) (10) and TRPV2 (Ͼ52°C) (11). In contrast, sensitivity to cooling temperatures (Ͻ22°C) and menthol is mediated by a structurally distant thermal receptor, TRPM8, belonging to the melastatine (TRPM) subfamily of TRP channels (12, 13); the ankyrin transmembrane protein 1 (ANKTM1 or TRPA1) is involved in the detection of noxious cold (14).Consistent with their role in the sensation of distinct physiological temperatures, thermal receptors are mostly expressed in subsets of...
Ahidouch, Halima Ouadid, Morad Roudbaraki, Philippe Delcourt, Ahmed Ahidouch, Nathalie Joury, and Natalia Prevarskaya. Functional and molecular identification of intermediate-conductance Ca 2ϩ -activated K ϩ channels in breast cancer cells: association with cell cycle progression. Am J Physiol Cell Physiol 287: C125-C134, 2004. First published February 25, 2004 10.1152/ ajpcell.00488.2003.-We have previously reported that the hEAG K ϩ channels are responsible for the potential membrane hyperpolarization that induces human breast cancer cell progression into the G1 phase of the cell cycle. In the present study, we evaluate the role and functional expression of the intermediate-conductance Ca 2ϩ -activated K ϩ channel, hIK1-like, in controlling cell cycle progression. Our results demonstrate that hIK1 current density increased in cells synchronized at the end of the G1 or S phase compared with those in the early G1 phase. This increased current density paralleled the enhancement in hIK1 mRNA levels and the highly negative membrane potential. Furthermore, in cells synchronized at the end of G1 or S phases, basal cytosolic Ca 2ϩ concentration ([Ca 2ϩ ]i) was also higher than in cells arrested in early G1. Blocking hIK1 channels with a specific blocker, clotrimazole, induced both membrane potential depolarization and a decrease in the [Ca 2ϩ ]i in cells arrested at the end of G1 and S phases but not in cells arrested early in the G1 phase. Blocking hIK1 with clotrimazole also induced cell proliferation inhibition but to a lesser degree than blocking hEAG with astemizole. The two drugs were essentially additive, inhibiting MCF-7 cell proliferation by 82% and arresting Ͼ90% of cells in the G1 phase. Thus, although the progression of MCF-7 cells through the early G1 phase is dependent on the activation of hEAG K ϩ channels, when it comes to G1 and checkpoint G1/S transition, the membrane potential appears to be primarily dependent on the hIK1-activity level. breast cancer; calcium-activated potassium channels; proliferation THERE IS GOOD EVIDENCE from several cell lines that membrane potential in the early G1 phase is depolarized, and the progression through G1 into the S phase is accompanied by a hyperpolarization of the membrane potential. The blockade of K ϩ
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