TRPC Channels
TRPC channels (classical/canonical transient receptor potential channels) are the subfamily of TRPC channels most closely related to the first member of the TRP family to be discovered, the Drosophila TRP channel. There are seven family members (TRPC1 to TRPC7), although TRPC2 is not expressed in humans. TRPC channels are non-selective cation channels that are activated by the phospholipase C (PLC) signaling pathway, and they are linked to multiple physiological processes, such as neurotransmission, neurodevelopment, calcium signaling, kidney function, cardiovascular function, and immune response.
TRPC Channel Antagonists |
|
|---|---|
| Cat. No. | 产品名称/活性 |
| 6497 | GSK 2833503A |
| Potent and selective TRPC6 and TRPC3 antagonist | |
TRPC Channel Modulators |
|
| Cat. No. | 产品名称/活性 |
| 6875 | TRPC6-PAM-C20 |
| Selective positive allosteric modulator (PAM) of TRPC6 | |
TRPC Channel Inhibitors |
|
| Cat. No. | 产品名称/活性 |
| 6766 | AC 1903 |
| Selective TRPC5 inhibitor | |
| 4912 | GsMTx4 |
| TRPC1 and TRPC6 inhibitor; inhibits mechanosensitive ion channels | |
| 7170 | D-GsMTx4 |
| TRPC1/6 and Piezo2 inhibitor; resistant to proteolytic digestion | |
| 5807 | M 084 hydrochloride |
| TRPC4 and TRPC5 inhibitor; antidepressant and anxiolytic | |
| 4732 | ML 204 |
| Selective TRPC4 inhibitor | |
| 6941 | Pyr 10 |
| Selective TRPC3 inhibitor | |
| 3751 | Pyr3 |
| Selective TRPC3 inhibitor | |
| 5831 | SAR 7334 |
| Potent TRPC6 inhibitor | |
| 1147 | SKF 96365 hydrochloride |
| TRPC channel inhibitor; also inhibits store-operated Ca2+ entry | |
TRPC Channel Activators |
|
| Cat. No. | 产品名称/活性 |
| 6940 | BTD |
| Selective TRPC5 activator | |
| 4522 | Flufenamic acid |
| Activates TRPC6; NSAID | |
| 6508 | GSK 1702934A |
| Potent and selective TRPC3/6 activator | |
| 0768 | Riluzole hydrochloride |
| TRPC5 activator; also inhibits GABA uptake and glutamate release and blocks NaV channels | |
TRPC channels are complexes formed by four subunits, each with 6-transmembrane domains and several common features such as 3 or 4 ankyrin repeats in the N-terminal and a TRP box motif at proximal C-terminal. These cation channels are activated, to varying extents, by phospholipase C signaling pathway components, downstream of Gq/11 G protein-coupled receptors (GPCRs) and receptor tyrosine kinases (RTKs). Activation of TRPC channels leads to cation influx, membrane depolarization and elevation of intracellular Ca2+. Endogenous TRPC channels can be homomeric or heteromeric, with some subunits preferentially associating with other specific subunits. For example, TRPC1 subunits do not form homomers, but are thought to act as a modulatory subunit within TRPC4 or TRPC5-containing channels.
TRPC2 is a pseudogene in humans, meaning it is not expressed. The functional protein is found in other mammals, including rats and mice, where it is located in the microvilli of vomeronasal organ, and is required for normal sexual behaviour in response to pheromones.
TRPC channels are expressed in a wide array of tissue and cell types, and so are implicated in a diverse range of physiological and disease processes, including but not limited to cardiovascular remodeling, atrial fibrillation, angiogenesis, lung function and respiratory diseases, kidney diseases, salivary gland function, inflammation and immune response, neurotransmission, neurodevelopment, neurodegeneration and stroke.
TRPC Channel Reported Expression, and Endogenous Activators and Modulators
| TRPC Channel | Reported Expression | Example Stimuli & Modulators |
|---|---|---|
| TRPC1 | Corticolimbic regions of brain, cardiomyocytes, smooth muscle cells, endothelial cells | NO-mediated S-nitrosylation; membrane stretch; La3+ |
| TRPC2 (non-human) | Microvilli in vomeronasal organ | 1,2-diacylglycerol (DAG); Intracellular Ca2+ |
| TRPC3 | Pituitary gland, brain stem, mGluR1-expressing neurons | DAG |
| TRPC4 | Corticolimbic regions of brain, broad peripheral expression | NO-mediated S-nitrosylation; La3+; intracellular Ca2+ |
| TRPC5 | Corticolimbic regions of brain, broad peripheral expression | NO-mediated S-nitrosylation; extracellular H+; membrane stretch; intracellular Ca2+ |
| TRPC6 | Multiple brain areas, heart, lung, pancreas, kidney | DAG; membrane stretch |
| TRPC7 | Heart, lung, kidneys and brain | DAG |
TRPC Channel Activation Mechanisms
Multiple components of the phospholipase C signaling pathway modulate TRPC channels. PLC catalyzes the cleavage of inositol 1,4,5-triphosphate (IP3) and DAG from phosphatidylinositol 4,5-biphosphate (PIP2), both of which can activate TRPC channels. DAG directly activates all TRPC channel family members, while IP3 positively modulates TRPC7 channels only. IP3 receptors are reported to be physically associated with TRPC channels via direct binding of the IP3 receptor N-terminal to a CIRB motif located in the TRPC channel C-terminal. Endogenous TRPC1, TRPC3 and TRPC4-containing channels are activated by IP3 receptors, but are inhibited by calmodulin binding, which completes with IP3 receptors for binding to the CIRB motif. PIP2, and H+ produced by the hydrolysis of PIP2 also modulate TRPC channels.
Changes in intracellular Ca2+ levels can have both positive and negative modulatory effects on TRPC channels, depending on the signaling mechanism that links Ca2+ to TRPC channels. A diverse range of mechanisms achieve this, including direct Ca2+ binding, activation of calmodulin or calmodulin-dependent kinase II (CaMKII), and vesicular trafficking. The sensitivity of a TRPC channel to Ca2+ modulation varies depending on TRPC subunit conformation. As TRPC channels are cation channels, their modulation by Ca2+ also leads to both positive and negative feedback loops.
Some research suggests that TRPC channels can function as store-operated calcium channels, meaning depletion of intracellular calcium stores results in their activation. However, conflicting reports also show they are insensitive to store depletion. More recently, STIM1-Orai channels have been implicated sensing intracellular Ca2+ store depletion, with STIM1 acting to sense depletion in the endoplasmic reticulum, which then activates Orai1, a transmembrane Ca2+ release activated Ca2+ (CRAC) channel.
TRPC Inhibitors in Disease
TRPC inhibitors have been investigated for their efficacy in a variety of diseases. For example, Pyr 3 (Cat. No. 3751), a TRPC3 inhibitor has been examined for its efficacy in cardiovascular disorders such as cardiac hypertrophy and atrial remodeling. However, it also inhibits Orai1 with equal potency; its structural analog Pyr 10 (Cat. No. 6941) displays 10-fold higher selectivity for TRPC3 channels. SAR 7334 (Cat. No. 5831), a potent TRPC6 inhibitor prevents acute hypoxic pulmonary vasoconstriction, and protects renal proximal tubular cells from oxidative stress-induced apoptosis. In various animal models of pain, ML 204 (Cat. No. 4732), a TRPC4 and TRPC5 inhibitor, displays analgesic effects. Similarly, the TRPC4 and TRPC5 inhibitor M 084 (Cat. No. 5807) displays antidepressant and anxiolytic effects in animal models. In relation to cancer, SKF 96365 (Cat. No. 1147), a non-selective TRPC inhibitor exerts cytotoxic effects in multiple cancer cells lines, inducing cell cycle arrest at G2/M phase.
External sources of pharmacological information for TRPC Channels :
TRPC Gene Data
| Gene | Species | Gene Symbol | Gene Accession No. | Protein Accession No. |
|---|---|---|---|---|
| TRPC, member 1 | Human | TRPC1 | NM_003304 | P48995 |
| Mouse | Trpc1 | NM_011643 | NP_035773 | |
| Rat | Trpc1 | NM_053558 | NP_446010 | |
| TRPC, member 3 | Human | TRPC3 | NM_003305 | Q13507 |
| Mouse | Trpc3 | NM_019510 | NP_062383 | |
| Rat | Trpc3 | NM_021771 | NP_068539 | TRPC, member 4 | Human | TRPC4 | NM_003306 | Q9UBN4 |
| Mouse | Trpc4 | NM_016984 | NP_058680 | |
| Rat | Trpc4 | NM_001083115 | NP_001076584 | |
| TRPC, member 5 | Human | TRPC5 | NM_012471 | Q9UL62 |
| Mouse | Trpc5 | NM_009428 | NP_033454 | |
| Rat | Trpc5 | NM_080898 | NP_543174 | |
| TRPC, member 6 | Human | TRPC6 | NM_004621 | Q9Y210 |
| Mouse | Trpc6 | NM_013838 | NP_038866 | |
| Rat | Trpc6 | NM_053559 | NP_446011 | |
| TRPC, member 7 | Human | TRPC7 | NM_020389 | Q9HCX4 |
| Mouse | Trpc7 | NM_012035 | NP_036165 | |
| Rat | Trpc7 | NM_001191691 | NP_001178620 |