Abstract

Purpose: The TRPM3 channel is selectively expressed in the lens epithelium, a monolayer at the anterior lens surface, but undetectable in fiber cells that make up the lens bulk. A point mutation in TRPM3 gene (substitution of isoleucine by methionine at codon 65; I65M) causes early onset autosomal dominant cataract in humans and in mice. From studies on transgenic mice, it is apparent the I65M TRPM3 mutation disrupts lens Na-K homeostasis. However, the normal role of lens TRPM3 in the lens is currently unknown. Here, we explore the lens response to TRPM3 activation. Methods: Studies were carried out using intact mouse lenses, cultured mouse lens epithelial cells and a human lens epithelium cell line (HLEB3). Active Na-K transport was studied by using rubidium (Rb) as a tracer for potassium entry. Rb was detected by atomic absorption spectrophotometry. Intracellular calcium was measured in nonconfluent single cells by Fura-2 ratiometric imaging. Results: Rb uptake was measured over a period of 10 min in intact mouse lenses exposed to a TRPM3 agonist CIM0216 (10 μM). CIM0216 reduced the rate of Rb uptake by ~20% (Ctrl 6.4±0.4 vs CIM 4.5±0.4 mmoles/kg lens dry weight/10 min, n=7, p<.01). The concentration dependence of the response to CIM0216 (1 to 50 μM) was examined in primary cultured mouse lens epithelium and Rb uptake was reduced by CIM0216 concentrations > 10 μM. The TRPM3 agonist reduced Rb uptake to a similar extent (~20%) in mouse lens epithelium, HLEB3 cells and HLEB3 cells that had been stably transfected with the I65M mutant TRPM3. However, the mutant cells responded to CIM0216 at a 10-fold lower concentration than WT mouse and HLEB3 cells. The Rb uptake response to CIM0216 was significantly inhibited by a TRPM3 antagonist, primidone (50 μM), and was abolished when cells were bathed in calcium-free solution. To study calcium entry, Fura2-loaded mouse lens epithelial cells were exposed to the TRPM3 agonist pregnenolone (100 μM). Pregnenolone caused an immediate increase in cytoplasmic calcium that was inhibited by primidone (Peak calcium concentration Ctrl 201±37 vs primidone 137±8 nM, n=5, p<.001). In cultures lens epithelium, agents that increase cellular cAMP, including IBMX, forskolin and 8p-CPT-cAMP, all caused a marked reduction of Rb uptake. Conclusions: TRPM3 activation causes a significant reduction in the rate of active Na-K transport and the response is associated with calcium entry. Because most lens Rb uptake is ouabain-sensitive, the response points to Na,K-ATPase inhibition. Studies are under way to test whether the Na-K transport response to TRPM3 activation involves cAMP signaling. This work was supported by NIH grants R01EY029171 and R01EY009532. This is the full abstract presented at the American Physiology Summit 2024 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.

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