Abstract
Multiple mis-sense variants of TRPA1 (transient receptor potential A1) and TRPM8 (transient receptor potential M8) are recorded in the human genome single nt polymorphism (SNP) database, but their potential impact on channel signalling in patho-physiology is not fully explored. Variants, mostly quite rare in the general human population, alter sites in different structural domains of these homo-tetrameric ion channel proteins. The effects of individual SNPs affecting the large cytoplasmic N-terminal domain have not been completely documented for TRPM8 or TRPA1. We examined the Ca(2+) signalling properties of a short-list of eight variants affecting the N-terminal domain by individual expression in human embryonic kidney HEK293 or neuroblastoma (SH-SY5Y) cell lines (four SNP variants for TRPM8: G150R, K423N, R475C, R485W and four for TRPA1: Y69C, A366D, E477K, D573A). These were compared with TRPA1 SNP variants affecting intracellular loops located beyond the N-terminal domain and associated with gain of function (such as increased sensitivity to agonists: TRPA1 R797T and N855S). A substitution in TRPA1 (Y69C) exhibited high expression/sensitivity to agonists (high iCa(2+)max (maximum level of intracellular calcium ion), similar to R797T, but less sensitive than N855S), whereas each of the other non-conservative substitutions exhibited poor signalling response (low iCa(2+)max). Responses from these poorly expressed variants could be salvaged, to different extents, by pre-treating cells with the Src (Src protein) family inhibitor protein kinase inhibitor PP2 (PP2: 4-Amino-3-(4-chlorophenyl)-1-(t-butyl)-1H-pyrazolo[3,4-d]pyrimidine, 4-Amino-5-(4-chlorophenyl)-7-(t-butyl)pyrazolo[3,4-d]pyrimidine), or with micromolar Zn(2+). The TRPA1 variants and several experimental mutants (TRPA1 Y97F, Y226F and YY654-655FF) expressed poorly in SH-SY5Y compared with HEK293 cells. More in-depth studies are needed to identify SNP variants eliciting gain of function in these TRP (transient receptor potential) channels and to assess their roles in medical conditions.
Highlights
The cold-temperature-sensitive TRPA1 and TRPM8 Na +, Ca2 + ion channels are interesting pharmacological targets due to their roles in sensory nerve activation, pain and inflammation [1,2]
Several TRPM8 variants appeared to be poorly expressed in transfected HEK293 cells compared with non-mutated TRPM8 Mutated and sequence-validated cDNA expression constructs generating the TRPM8 variants G150R, K423N, R475C, R485W
For multiple clones isolated and screened, each of the single nt polymorphism (SNP) variants exhibited weaker responses to agonist compared with cells expressing non-mutated wild-type TRPM8. (Un-transfected HEK293 cells did not exhibit intracellular Ca2 + signals in response to WS 12 or menthol; see Supplementary Data)
Summary
The cold-temperature-sensitive TRPA1 (transient receptor potential A1) and TRPM8 (transient receptor potential M8) Na + , Ca2 + ion channels are interesting pharmacological targets due to their roles in sensory nerve activation, pain and inflammation [1,2]. Examples of dose-response curves generated from quantitative analyses of changes in intracellular Ca2 + -Fluo3- fluorescence elicited by exposure of transfected HEK293 cells to TRPA1 agonist AITC, standardized to the maximum fluorescence elicited following addition of 2 μM ionophore A23187.
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