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Structural studies on TRP channels, while limited, are poised for a quickened pace and rapid expansion. As of yet, no high-resolution structure of a full length TRP channel exists, but low-resolution electron cryomicroscopy structures have been obtained for 4 TRP channels, and high-resolution NMR and X-ray crystal structures have been obtained for the cytoplasmic domains, including an atypical protein...
The transient receptor potential (TRP) superfamily is one of the largest families of cation channels. The metazoan TRP family has been subdivided into major branches: TRPC, TRPA, TRPM, TRPP, TRPV, TRPML, and TRPN, while the TRPY family is found in fungi. They are involved in many physiological processes and in the pathogenesis of various disorders. An efficient high-yield expression system for TRP...
Natural product ligands have contributed significantly to the deorphanisation of TRP ion channels. Furthermore, natural product ligands continue to provide valuable leads for the identification of ligands acting at “orphan” TRP channels. Additional naturally occurring modulators at TRP channels can be expected to be discovered in future, aiding in our understanding of not only their pharmacology and...
In humans, 27 TRP channels from 6 related families contribute to a broad spectrum of cellular functions, such as thermo-, pressure-, volume-, pain- and chemosensation. Pain and inflammation-inducing compounds represent potent plant and animal defense mechanisms explaining the great variety of the naturally occurring, TRPV1-, TRPM8-, and TRPA1-activating ligands. The discovery of the first vanilloid...
Ion channels are responsible for the permeation of ions across the membrane and their central role in cellular physiology is well established. Historically, the direct study of ion channels has been considered technically challenging. As such, a significant barrier to drug discovery for ion channels has been the low throughput of high quality electrophysiological data. The emergence of automated high...
Relatively little is known in regard to the physiological significance of TRPC2 and its regulation or interaction with other calcium regulating signalling molecules. In rodents, however, the importance of TRPC2 is indisputable. In mice, transcripts for TRPC2 have been found in testis, sperm, in neurons in the vomeronasal organ, and both in the dorsal root ganglion and in the brain. In rats, TRPC2...
TRPM1, initially named Melastatin, is the founding member of the TRPM subfamily of Transient Receptor Potential (TRP) ion channels. Despite sustained efforts, the molecular properties and physiological functions of TRPM1 remained elusive until recently. New evidence has uncovered novel TRPM1 splice variants and revealed that TRPM1 is critical for a non-selective cation conductance in melanocytes and...
Transient Receptor Potential (TRP) proteins are non-selective cationic channels with a consistent Ca2+-permeability, except for TRPM4 and TRPM5 that are not permeable to this ion. However, Ca2+ is a major regulator of their activity since both channels are activated by a rise in internal Ca2+. Thus TRPM4 and TRPM5 are responsible for most of the Ca2+-activated non-selective cationic currents (NSCCa...
TRPM7 is a ubiquitously expressed nonselective cation channel fused to a C-terminal alpha kinase. TRPM7 current is typically small at physiological magnesium concentrations, but large outwardly rectifying currents develop in low-magnesium extracellular solution when cells are dialyzed with magnesium free solutions during whole-cell patch clamp recordings. In addition to regulation by magnesium, TRPM7...
This review focuses on TRPM8, one of the ~30 members of the diverse family of transient receptor potential (TRP) ion channels. Initially identified from the prostate, TRPM8 has been studied more extensively in the sensory system and is best established as a major transducer of environmental cold temperatures. An increasing body of evidence suggests that it may also be an important player in various...
TRPML1 (or mucolipin 1) is the first member of the TRP family of ion channels that was found to function in the lower portions of the endocytic pathway. Mutations in the gene coding for TRPML1 (MCOLN1) cause the lysosomal storage disease mucolipidosis type IV (MLIV). TRPML1 localization in the lysosomes and the similarity of mucolipidosis type IV phenotype to lysosomal storage diseases whose origin...
TRPML2, the polypeptide product of the gene Trpml2 (aka Mcoln2), is a member of the TRPML or mucolipin branch of the TRP super family of ion channels. Although no known agonists have been discovered, the wild type channel gives basal currents when heterologously expressed in Drosophila (S2) cells and is constitutively active in mammalian cells when bearing a cell degeneration-causing, proline to alanine...
TRPML3 is a transient receptor potential (TRP) channel that is encoded by the mucolipin 3 gene (MCOLN3), a member of the small mucolipin gene family. Mcoln3 shows a broad expression pattern in embryonic and adult tissues that includes differentiated cells of skin and inner ear. Dominant mutant alleles of murine Mcoln3 cause embryonic lethality, pigmentation defects and deafness. The TRPML3 protein...
TRPV5 and TRPV6 are unique members of the TRP super family. They are highly selective for Ca2+ ions with multiple layers of Ca2+-dependent inactivation mechanisms, expressed at the apical membrane of Ca2+ transporting epithelia, and robustly responsive to 1,25-dihydroxivitamin D3. These features are well suited for their roles as Ca2+ entry channels in the first step of transcellular Ca2+ transport...
The transient receptor potential vanilloid 5 (TRPV5) is a Ca2+ channel, which is expressed in renal late distal convoluted tubules (DCT2s) and connecting tubules (CNTs). These tubules play a major role in hormone controlled renal Ca2+ reabsorption, and thereby in body Ca2+ homeostasis, as well as urinary excretion of other electrolytes, including Na+ and K+. DCT2 and CNT are difficult to distinguish...
The founding member of the TRPP family, TRPP2, was identified as one of the disease genes causing autosomal dominant polycystic kidney disease (ADPKD). ADPKD is the most prevalent, potentially lethal, monogenic disorder in humans, with an average incidence of one in 400 to one in 1,000 individuals worldwide. Here we give an overview of TRPP ion channels and Polycystin-1 receptor proteins focusing...
Microbes have made numerous contributions to the study of biology and medicine. Those contributions also include many original discovery’s in the study of ion channels often thought as the province of neuroscientists or cardiophysiologists. Yeast have long been used as a model organism and TRP channel genes and their transmembrane products touted as the “vanguards of the sensory system” can be identified...
Transient receptor potential (TRP) channels represent a superfamily of cation channels found in all eukaryotes. The C. elegans genome encodes seventeen TRP channels covering all of the seven TRP subfamilies. Genetic analyses in C. elegans have implicated TRP channels in a wide spectrum of behavioral and physiological processes, ranging from sensory transduction (e.g. chemosensation, touch sensation,...
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