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Author Notes:

Address for correspondence: P. M. Iuvone, Department of Pharmacology, Emory Univ. School of Medicine, 1510 Clifton Road, Atlanta, GA 30322 USA miuvone@pharm.emory.edu

These authors contributed equally to this study

Present address: Cole Eye Institute, i-31, Cleveland Clinic Foundation, 9500 Euclid Avenue, Cleveland, OH 44195

The authors are grateful to Dr. Nikita Pozdeyev, Amy Visser, Jane Abey, and Jim Wessel for assistance with these experiments, and to David Grandy and Malcolm Lowe for providing breeders of the Drd4-/- mice.

Subjects:

Research Funding:

This study was supported by NIH grants R01EY004864 and R01EY014764 (PMI), T32EY007092 (CRJ), the Core Grant for Vision Research P30EY006360, and NSF Award # 0450303 (CRJ).

Keywords:

  • dopamine
  • photoreceptors
  • adenylyl cyclase
  • cyclic AMP
  • retina
  • calmodulin

Essential roles of dopamine D4 receptors and the type 1 adenylyl cyclase in photic control of cyclic AMP in photoreceptor cells

Tools:

Journal Title:

Journal of Neurochemistry

Volume:

Volume 109, Number 1

Publisher:

, Pages 148-157

Type of Work:

Article | Post-print: After Peer Review

Abstract:

Light and dopamine regulate many physiological functions in the vertebrate retina. Light exposure decreases cyclic AMP formation in photoreceptor cells. Dopamine D4 receptor (D4R) activation promotes light adaptation and suppresses the light-sensitive pool of cyclic AMP in photoreceptor cells. The key signaling pathways involved in regulating cyclic AMP in photoreceptor cells have not been identified. In the present study, we show that the light- and D4R-signaling pathways converge on the type 1 Ca2+/calmodulin-stimulated adenylyl cyclase (AC1) to regulate cyclic AMP synthesis in photoreceptor cells. In addition, we present evidence that D4R activation tonically regulates the expression of AC1 in photoreceptors. In retinas of mice with targeted deletion of the gene (Adcy1) encoding AC1, cyclic AMP levels and Ca2+/calmodulin-stimulated adenylyl cyclase activity are markedly reduced, and cyclic AMP accumulation is unaffected by either light or D4R activation. Similarly, in mice with disruption of the gene (Drd4) encoding D4R, cyclic AMP levels in the dark-adapted retina are significantly lower compared to wild-type retina and are unresponsive to light. These changes in Drd4-/- mice were accompanied by significantly lower Adcy1 mRNA levels in photoreceptor cells and lower Ca2+/calmodulin-stimulated adenylyl cyclase activity in retinal membranes compared with wild-type controls. Reduced levels of Adcy1 mRNA were also observed in retinas of wild-type mice treated chronically with a D4R antagonist, L-745,870. Thus, activation of D4R is required for normal expression of AC1 and for the regulation of its catalytic activity by light. These observations illustrate a novel mechanism for cross-talk between dopamine and photic signaling pathways regulating cyclic AMP in photoreceptor cells.

Copyright information:

© 2009 The Authors. Journal Compilation © 2009 International Society for Neurochemistry

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