1. TRPM2 overexpression in a PDAC cell line (PANC1) promoted cell proliferation, invasion and metastatic ability. TRPM2 represents a potential therapeutic target and prognostic marker for patients with PDAC. PMID: 29620272
2. The expression of TRPM2-AS was higher in most HCC tissues and was significantly correlated with tumor size, AJCC stage, tumor differentiation, and the prognosis of HCC patients. Interfering TRPM2-AS expression using siRNA significantly inhibited cell proliferation and promoted cell apoptosis in two HCC cell lines. PMID: 29081064
3. Results reveal a novel, potentially druggable signalling pathway for FFA-induced beta-cell death. The cascade involves NOX-2-dependent production of ROS, activation of TRPM2 channels, rise in mitochondrial Zn(2+), Drp-1 recruitment and abnormal mitochondrial fission. PMID: 28753206
4. TRPM2 is essential for the survival and migration of squamous cell cancer cells. PMID: 28008929
5. Results provide compelling evidence to support a role for nitrosative stress in linking the TRPM2 turnover with the disturbance of autophagy in brain pericyte injury. PMID: 28292196
6. oxidative stress activates the TRPM2-Ca(2+)-CAMK2 cascade to phosphorylate BECN1 resulting in autophagy inhibition PMID: 27245989
7. We conclude from these studies that inhibition of ROS production, and the subsequent abrogation of TRPM2-mediated Ca(2+) influx, is the primary mechanism underlying RE-1's inhibitory effect on LNs-induced inflammasome activation. PMID: 27632706
8. oxidative stress activated the TRPM2-CaMKII cascade to further induce intracellular ROS production, which led to mitochondria fragmentation and loss of mitochondrial membrane potential PMID: 28007458
9. The work summarized here shows that TRPM2 channels protect cardiac myocytes from ischaemia-reperfusion injury and tumour cells from doxorubicin toxicity, and demonstrates that the mechanisms involve preservation of mitochondrial bioenergetics and modulation of ROS PMID: 26420388
10. Activation of TRPM2 channels, however, caused intracellular release of not only Ca(2+) but also of Zn(2+) Intriguingly, elevation of intracellular Zn(2+) faithfully reproduced all of the effects of H2O2, whereas Ca(2+) showed opposite effects. Interestingly, H2O2 caused increased trafficking of Zn(2+)-enriched lysosomes to the leading edge of migrating cells, presumably to impart polarisation of Zn(2+) location. PMID: 27068538
11. neutrophils sense reactive oxygen species via the TRPM2 channel to arrest migration at their target site. PMID: 27623379
12. The inhibitory function of oxidant sensing by TRPM2 requires the oxidation of Cys549, which then induces TRMP2 binding to formyl peptide receptor 1 (FPR1) and subsequent FPR1 internalization and signaling inhibition PMID: 27569419
13. findings demonstrate the important function of TRPM2 in modulation of cell survival through mitochondrial ROS, and the potential of targeted inhibition of TRPM2 as a therapeutic approach to reduce cellular bioenergetics, tumor growth, and enhance susceptibility to chemotherapeutic agents. PMID: 27694440
14. Study demonstrate that PRL is necessary for the survival of (retinal pigment epithelium) RPE under normal and advancing age conditions and, identified SIRT2 and TRPM2 as molecular targets for the antioxidant and antiapoptotic actions of PRL in the RPE. PMID: 27322457
15. TRPM2 has a role in the DNA damage response of T cell leukemia cells in a BCL-2 dependent manner PMID: 26839633
16. Data show that HEK293 cells expressing low levels of receptor potential melastatin 2 (TRPM2) channel were more susceptible to silica nanoparticles (NPs) than those expressing high levels of TRPM2. PMID: 26656285
17. This is expected to provide a basis for inhibiting TRPM2 for the improved treatment of breast cancer, which potentially includes treating breast tumors that are resistant to chemotherapy due to their evasion of apoptosis. PMID: 26178079
18. In a transgenic mouse model of Alzheimer's disease, TRPM2 was involved in neuronal toxicity and memory impairment. PMID: 26558786
19. These findings shed new light on the evolution of TRPM2 and establish nvTRPM2 as a promising tool to decipher its complex gating mechanisms. PMID: 25620041
20. we report here a novel effect promoted by TRPM2, where it functions to minimize DNA damage and thus may have a role in the protection of genomic DNA in breast cancer cells. PMID: 25760245
21. The HDACi-elicited upregulation of TRPM2 expression. PMID: 25760728
22. TRPM2 actively regulates the phosphorylation of GSK-3 in the brain. PMID: 26311765
23. The degradation of zonula occludens-1 (ZO-1), and claudin-2 exhibited a great dependence on the activation of the transient receptor potential melastatin (TRPM) 2 channel, phospholipase Cgamma1 (PLCgamma1) and the protein kinase Calpha (PKCalpha) signaling cascade. PMID: 23629676
24. Although further analyses are needed to clarify the mechanism underlying TRPM2-mediated insulin secretion, TRPM2 could be a key player in the regulation of insulin secretion and could represent a new target for diabetes therapy PMID: 25084624
25. TRPM2-AS knockdown led to prostate cancer apoptosis, with a transcriptional profile indicating an increase in cellular stress, which was coupled to cell cycle arrest, an increase in intracellular hydrogen peroxide and activation of the sense TRPM2 gene. PMID: 24931166
26. VEGF-induced angiogenesis required reactive oxygen species generation in endothelial cells and resultant TRPM2 activation. PMID: 25675998
27. Ca2+ entry via Trpm2 channels was essential for maintenance of mitochondrial function in the heart. PMID: 25576627
28. TRPM2-L function may be a novel approach to reduce tumor growth through modulation of HIF-1/2a, mitochondrial function, and mitophagy. PMID: 25391657
29. Recent scientific advance on the mechanistic study of gout-associated inflammation is discussed and the potential of targeting the transient receptor potential melastatin 2 is highlighted as a novel therapeutic approach for the treatment of gout PMID: 24004350
30. Preventing the uncoupling of short variant TRPM2-S from TRPM2 and subsequent calcium gating during oxidative stress mitigates endothelial apoptosis and its consequences in mediating vascular injury and inflammation. PMID: 24337049
31. the crucial role of a positively charged amino acid residue at position 1110 for TRPM2 channel activity PMID: 23957292
32. TRPM7 plays a critical role in breast cancer cell migration through its kinase domain. PMID: 23910495
33. The association with bipolar disorder of the iPLA2beta (PLA2G6) its genetic interaction with type 2 transient receptor potential channel gene TRPM2, was examined. PMID: 23277130
34. the activation of TRPM2 channel, which mediates ATP release, and TRPV1 channel plays significant roles in the cellular responses to DNA damage induced by gamma-irradiation and UVB irradiation. PMID: 23458684
35. TRPM2 mRNA expression in endometrial stromal cells increased after 17beta-estradiol exposure. PMID: 23142700
36. TRPM2 is activated by irradiation, via PARP1 activation, and contributes to irreversible loss of salivary gland function. PMID: 23443543
37. In conclusion, the N-x-x-D motif plays specific roles in TRPM8 and TRPM2, reflecting different requirements for voltage-dependent and voltage-independent channel gating. PMID: 23185472
38. overexpression of TRPM2-S results in increased proliferation through phosphatidylinositol 3-kinase/Akt and ERK pathways, while overexpression of TRPM2-L confers protection against oxidative stress-induced cell death through FOXO3a and SOD PMID: 23302782
39. Particulate matter induces marked increases in vascular permeability via ROS-mediated calcium leakage via activated TRPM2, and via ZO-1 degradation by activated calpain. PMID: 22931549
40. Cu2+ is a potent TRPM2 channel blocker. The sensitivity of TRPM2 channel to heavy metal ions could be a new mechanism for the pathogenesis of some metal ion-related diseases. PMID: 22750002
41. the changes of Ca(2+) homeostasis induced by NAD(+) precursors are mediated by CD38 and the consequent ADPR-mediated TRPM2 gating. PMID: 22547068
42. findings suggest that redox signals sensitize TRPM2 downstream of NADPH oxidase activity and make TRPM2 active at physiological body temperature, leading to increased cytosolic Ca(2+) concentrations PMID: 22493272
43. The juvenile myoclonic epilepsy-related protein EFHC1 interacts with the redox-sensitive TRPM2 channel linked to cell death. PMID: 22226147
44. functional TRPM2 channels mediate H(2)O(2)-induced Ca(2+) entry in beta-cells, a process potently inhibited by N-(p-amylcinnamoyl)anthranilic acid PMID: 19382906
45. Results suggest a crucial role of residue His(995)/Gln(992) in the outer pore of TRPM2 channels in determining species-dependent effects of extracellular acidic pH. PMID: 21505784
46. Zn(2+) inactivates the TRPM2 channels and that residues in the outer pore are critical determinants of the inactivation. PMID: 21602277
47. Our findings suggest that the elevation of [Na(+)](in) and [Ca(2+)](in) induced ONP apoptosis and altered the expression of TRPM2. Lithium pretreatment attenuated the apoptosis induced by ionic stress. PMID: 20799912
48. TRP channels in the beta-cell may integrate a variety of stimuli to modulate glucose-stimulated electrical and calcium responsiveness. PMID: 21193737
49. found no evidence for an association of the TRPM2 variants tested with type 2 diabetes mellitus, although HOMA-%B was negatively associated with three TRPM2 variants PMID: 20515676
50. acidic pH acts as a negative feedback mechanism where protons bind to the outer vestibule of the TRPM2 channel pore and inhibit the TRPM2 channels in a state-dependent manner. PMID: 20660597

顯示更多

收起更多

HGNC: 12339

OMIM: 603749

KEGG: hsa:7226

STRING: 9606.ENSP00000300482

UniGene: Hs.369759