Abstract
We have studied the molecular determinants of ion permeation through the TRPV4 channel (VRL-2, TRP12, VR-OAC, and OTRPC4). TRPV4 is characterized by both inward and outward rectification, voltage-dependent block by Ruthenium Red, a moderate selectivity for divalent versus monovalent cations, and an Eisenman IV permeability sequence. We identify two aspartate residues, Asp(672) and Asp(682), as important determinants of the Ca(2+) sensitivity of the TRPV4 pore. Neutralization of either aspartate to alanine caused a moderate reduction of the relative permeability for divalent cations and of the degree of outward rectification. Neutralizing both aspartates simultaneously caused a much stronger reduction of Ca(2+) permeability and channel rectification and additionally altered the permeability order for monovalent cations toward Eisenman sequence II or I. Moreover, neutralizing Asp(682) but not Asp(672) strongly reduces the affinity of the channel for Ruthenium Red. Mutations to Met(680), which is located at the center of a putative selectivity filter, strongly reduced whole cell current amplitude and impaired Ca(2+) permeation. In contrast, neutralizing the only positively charged residue in the putative pore region, Lys(675), had no obvious effects on the properties of the TRPV4 channel pore. Our findings delineate the pore region of TRPV4 and give a first insight into the possible architecture of its permeation pathway.
Highlights
The TRPV subfamily of transient receptor potential (TRP)1 proteins homologous to the vanilloid receptor consists of at least five mammalian Ca2ϩ-permeable cation channels, which are activated by a variety of signals including noxious chemical and thermal stimuli (TRPV1 (VR1) and TRPV2 (VRL-1)), increased cell volume (TRPV4 (VR-OAC, OTRPC4, and TRP12)), or decreased intracellular Ca2ϩ (TRPV5 (ECaC1) and TRPV6
TRPV1/2/4 contain a methionine (Met680 in TRPV4) at the position corresponding to Asp542 in TRPV5 (Asp541 in TRPV6), which is crucial for the high Ca2ϩ selectivity of the latter channel
TRPV4 contains two negatively charged residues within the conserved stretch of 11 amino acids: Asp672, which is conserved among all TRPVs, and Asp682, which is not present in TRPV5/6 and corresponds to Asp646 in TRPV1, a residue involved in Ruthenium Red block and Mg2ϩ permeability
Summary
The TRPV subfamily of transient receptor potential (TRP) proteins homologous to the vanilloid receptor consists of at least five mammalian Ca2ϩ-permeable cation channels, which are activated by a variety of signals including noxious chemical and thermal stimuli (TRPV1 (VR1) and TRPV2 (VRL-1)), increased cell volume (TRPV4 (VR-OAC, OTRPC4, and TRP12)), or decreased intracellular Ca2ϩ (TRPV5 (ECaC1) and TRPV6. The functional importance of this channel may be connected to its role as a promiscuous Ca2ϩ influx channel integrating multiple physical and chemical stimuli Based on their pore properties, the TRPV subfamily can be subdivided into two groups. TRPV5 and TRPV6, on the one hand, are highly Ca2ϩ selective channels displaying PCa/PNa values of more than 100 and a monovalent cation permeability sequence corresponding to a strong field binding site (Eisenman X or XI) [7,8,9,10]. TRPV1, TRPV2, and TRPV4 are only weakly Ca2ϩ-selective with PCa/PNa values below 10 (4 – 6, 12–14), and their monovalent cation permeability sequences are more indicative of a weak field strength binding site [6, 12,13,14]. We were led by a sequence comparison of the pore region of the TRPVs to search for possible molecular determinants for the pore features of TRPV4 and identify several residues that contribute to the permeability profile and blocker sensitivity of the channel
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