Abstract

Photoreceptor ROS-GC1, a prototype subfamily member of the membrane guanylate cyclase family, is a central component of phototransduction. It is a single transmembrane-spanning protein, composed of modular blocks. In rods, guanylate cyclase activating proteins (GCAPs) 1 and 2 bind to its juxtamembrane domain (JMD) and the C-terminal extension, respectively, to accelerate cyclic GMP synthesis when Ca2+ levels are low. In cones, the additional expression of the Ca2+-dependent guanylate cyclase activating protein (CD-GCAP) S100B which binds to its C-terminal extension, supports acceleration of cyclic GMP synthesis at high Ca2+ levels. Independent of Ca2+, ROS-GC1 activity is also stimulated directly by bicarbonate binding to the core catalytic domain (CCD). Several enticing molecular features of this transduction system are revealed in the present study. In combination, bicarbonate and Ca2+-dependent modulators raised maximal ROS-GC activity to levels that exceeded the sum of their individual effects. The F514S mutation in ROS-GC1 that causes blindness in type 1 Leber’s congenital amaurosis (LCA) severely reduced basal ROS-GC1 activity. GCAP2 and S100B Ca2+ signaling modes remained functional, while the GCAP1-modulated mode was diminished. Bicarbonate nearly restored basal activity as well as GCAP2- and S100B-stimulated activities of the F514S mutant to normal levels but could not resurrect GCAP1 stimulation. We conclude that GCAP1 and GCAP2 forge distinct pathways through domain-specific modules of ROS-GC1 whereas the S100B and GCAP2 pathways may overlap. The synergistic interlinking of bicarbonate to GCAPs- and S100B-modulated pathways intensifies and tunes the dependence of cyclic GMP synthesis on intracellular Ca2+. Our study challenges the recently proposed GCAP1 and GCAP2 “overlapping” phototransduction model (Peshenko et al., 2015b).

Highlights

  • rod outer segment guanylate cyclase (ROS-GC) are Ca2+-modulated members of the membrane guanylate cyclase family

  • As a first step in dissecting the signaling pathways within ROS-GC1 for bicarbonate, guanylate cyclase activating protein (GCAP) and S100B, recombinant F514S ROS-GC1 was tested for basal and bicarbonate-dependent activities

  • GCAPs, S100B and bicarbonate interact with ROS-GC1 through distinctly different switching modes

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Summary

Introduction

ROS-GCs are Ca2+-modulated members of the membrane guanylate cyclase family (reviewed in Sharma and Duda, 2014). One or more guanylate cyclase activating proteins (GCAPs) respond to the fall in [Ca2+]i and stimulate ROS-GCs to synthesize cyclic GMP at a much faster rate. This negative feedback loop limits the size of the single photon response and hastens its recovery. These bicarbonate effects may for the first time explain the observed larger photoreceptor response in the ERG of the isolated retina treated with bicarbonate (Donner et al, 1990; Koskelainen et al, 1993) or the reduced photoreceptor response in the ERGs of human subjects and animal models treated with carbonic anhydrase inhibitors (Broeders et al, 1988; Odom et al, 1994; Findl et al, 1995)

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