Instead of Binding Calcium, One of the EF-hand Structures in Guanylyl Cyclase Activating Protein-2 Is Required for Targeting Photoreceptor Guanylyl Cyclase

Alexandre N Ermilov,Elena V Olshevskaya,Alexander M Dizhoor

doi:10.1074/jbc.m107539200

Alexandre N Ermilov, Elena V Olshevskaya + Show 1 more

Open Access

https://doi.org/10.1074/jbc.m107539200

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Abstract

Guanylyl cyclase activator proteins (GCAPs) are calcium-binding proteins closely related to recoverin, neurocalcin, and many other neuronal Ca(2+)-sensor proteins of the EF-hand superfamily. GCAP-1 and GCAP-2 interact with the intracellular portion of photoreceptor membrane guanylyl cyclase and stimulate its activity by promoting tight dimerization of the cyclase subunits. At low free Ca(2+) concentrations, the activator form of GCAP-2 associates into a dimer, which dissociates when GCAP-2 binds Ca(2+) and becomes inhibitor of the cyclase. GCAP-2 is known to have three active EF-hands and one additional EF-hand-like structure, EF-1, that deviates form the EF-hand consensus sequence. We have found that various point mutations within the EF-1 domain can specifically affect the ability of GCAP-2 to interact with the target cyclase but do not hamper the ability of GCAP-2 to undergo reversible Ca(2+)-sensitive dimerization. Point mutations within the EF-1 region can interfere with both the activation of the cyclase by the Ca(2+)-free form of GCAP-2 and the inhibition of retGC basal activity by the Ca(2+)-loaded GCAP-2. Our results strongly indicate that evolutionary conserved and GCAP-specific amino acid residues within the EF-1 can create a contact surface for binding GCAP-2 to the cyclase. Apparently, in the course of evolution GCAP-2 exchanged the ability of its first EF-hand motif to bind Ca(2+) for the ability to interact with the target enzyme.

Highlights

Light-induced hyperpolarization of the vertebrate photoreceptor plasma membrane inhibits the release of the neuromediator, glutamate, from the synaptic termini of rods and cones and generates the signal for the secondary neurons of the retina
We have found that various point mutations within the EF-1 domain can affect the ability of Guanylyl cyclase activator proteins (GCAPs)-2 to interact with the target cyclase but do not hamper the ability of GCAP-2 to undergo reversible Ca2؉-sensitive dimerization
GCAP-2 is highly expressed in rods, whereas GCAP-1 is expressed at high levels in cones and at lower levels in rods (16 –19)

Summary

Introduction

Light-induced hyperpolarization of the vertebrate photoreceptor plasma membrane inhibits the release of the neuromediator, glutamate, from the synaptic termini of rods and cones and generates the signal for the secondary neurons of the retina. We have found that activation of retGC at low Ca2ϩ concentrations is highly sensitive to even single substitutions in most of these amino acid residues (Fig. 2, A–F). Substitution of Cys35 with Ser (Fig. 2B) or Thr (data not shown) noticeably affects retGC activation, and replacing it with positively or negatively charged amino acids strongly suppresses the ability of GCAP-2 to activate the cyclase.

Results

Conclusion