Logo image
Back
Identification of the γ Subunit-interacting Residues on Photoreceptor cGMP Phosphodiesterase, PDE6α
Journal article   Open access   Peer reviewed

Identification of the γ Subunit-interacting Residues on Photoreceptor cGMP Phosphodiesterase, PDE6α

Alexey E Granovsky and Nikolai O Artemyev
The Journal of biological chemistry, Vol.275(52), pp.41258-41262
12/29/2000
DOI: 10.1074/jbc.M008094200
url
https://doi.org/10.1074/jbc.M008094200View
Published (Version of record) Open Access

Abstract

Photoreceptor cGMP phosphodiesterase (PDE6) is the effector enzyme in the G protein-mediated visual transduction cascade. In the dark, the activity of PDE6 is shut off by the inhibitory γ subunit (Pγ). Chimeric proteins between cone PDE6α′ and cGMP-binding and cGMP-specific PDE (PDE5) have been constructed and expressed in Sf9 cells to study the mechanism of inhibition of PDE6 catalytic activity by Pγ. Substitution of the segment PDE5-(773–820) by the corresponding PDE6α′-(737–784) sequence in the wild-type PDE5 or in a PDE5/PDE6α′ chimera containing the catalytic domain of PDE5 results in chimeric enzymes capable of inhibitory interaction with Pγ. The catalytic properties of the chimeric PDEs remained similar to those of PDE5. Ala-scanning mutational analysis of the Pγ-binding region, PDE6α′-(750–760), revealed PDE6α′ residues essential for the interaction. The M758A mutation markedly impaired and the Q752A mutation moderately impaired the inhibition of chimeric PDE by Pγ. The analysis of the catalytic properties of mutant PDEs and a model of the PDE6 catalytic domain suggest that residues Met758 and Gln752directly bind Pγ. A model of the PDE6 catalytic site shows that PDE6α′-(750–760) forms a loop at the entrance to the cGMP-binding pocket. Binding of Pγ to Met758 would effectively block access of cGMP to the catalytic cavity, providing a structural basis for the mechanism of PDE6 inhibition.

Details

Metrics

13 Record Views
25 Times Cited - Web of Science
Logo image