Gene/Protein
Disease
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Enzyme
Compound
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Gene/Protein
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Target Concepts:
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Query: EC:3.1.3.16 (
calcineurin
)
17,112
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Phosphorylation of rhodopsin is not detectable in vitro in the retina of the rd mouse. We investigated the enzymatic system responsible for this abnormality by measuring the levels of
rhodopsin kinase
and protein phosphatase 2A in normal (rd/+) and diseased (rd/rd) mouse retinas of several ages. For each enzyme, we developed micro assays that were suitable for measuring enzyme activity in one-half mouse retina. Our results indicate that
rhodopsin kinase
activity is identical in rd/+ and rd/rd retinas until post-natal day 11, and it decreases thereafter in the rd/rd retina, correlating with the loss of rod photoreceptors that occurs in this tissue. Protein
phosphatase 2A
has a constant level of activity in rd/+ retinas from ages 5 to 32 days but it is higher than normal in rd/rd retinas from post-natal days 5 to 10. It then decreases to levels that are comparable to those in rd/+ retina. Although the rd/rd extract contains the elevated protein phosphatase 2A activity, when rd/rd and rd/+ retinal extracts are each subjected to gel filtration, the elution profiles of protein phosphatase 2A activity appear to be quantitatively identical. This apparent loss of rd/rd phosphatase activity suggests a difference in the regulatory behavior of the enzyme in the normal and degenerative retinas. Thus, the failure to detect in vitro phosphorylation of rhodopsin in the rd/rd retina seems to result from the elevated level of protein phosphatase 2A activity which could more rapidly remove the phosphate from phosphorylated rhodopsin. Since protein phosphatase 2A is a ubiquitous enzyme with broad specificity, an elevation in its activity also could affect other protein phosphorylations.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Elevated level of protein phosphatase 2A activity in retinas of rd mice. 165 53
Two types of protein phosphatases were identified in carefully prepared bovine rod outer segments (ROS). Extraction of the ROS with a medium-salt buffer solubilized
protein phosphatase
activity that was mainly type 2A, since it was active toward phosphorylase a in the absence of divalent cations, was not retained by heparin-Sepharose, dephosphorylated the alpha-subunit of phosphorylase kinase faster that the beta-subunit, and was unaffected by inhibitor 2. Further extraction of the resulting membranes with a high-salt buffer solubilized additional phosphatase activity which was predominantly type 1, since it was retained by heparin-Sepharose and was blocked by inhibitor 2. The molecular mass of the type 2A phosphatase estimated by gel permeation chromatography on Superose 12 was 100 kDa, suggesting it may be the 2A2 form. Only the ROS type 2A phosphatase dephosphorylated opsin and rhodopsin efficiently. Concordant with this finding, the purified catalytic subunit of protein phosphatase 2A from rabbit skeletal muscle dephosphorylated opsin efficiently, while the type 1 catalytic subunit isolated from this tissue was inactive. Together, the results suggest that the ROS type 2A
protein phosphatase
plays an important role in regenerating rhodopsin from the various phosphorylated species in vivo. The activity of the enzyme per retina (approximately 85 pmol of Pi released/min) is comparable to that of
rhodopsin kinase
(100 pmol of phosphate transferred/min).
...
PMID:Interplay of phosphorylation and dephosphorylation in vision: protein phosphatases of bovine rod outer segments. 255 19
Recent evidence suggests that the function of receptors coupled to guanine nucleotide regulatory proteins may be controlled by highly specific protein kinases, e.g.
rhodopsin kinase
and the beta-adrenergic receptor kinase. In order to investigate the nature of the phosphatases which might be involved in controlling the state of receptor phosphorylation we studied the ability of four highly purified well characterized protein phosphatases to dephosphorylate preparations of rhodopsin or beta 2-adrenergic receptor which had been highly phosphorylated by beta-adrenergic receptor kinase. These included: type 1 phosphatase,
calcineurin
phosphatase, type 2A phosphatase, and the high molecular weight latent phosphatase 2. Under conditions in which all the phosphatases could dephosphorylate such common substrates as [32P]phosphorylase a and [32P]myelin basic protein at similar rates only the latent phosphatase 2 was active on the phosphorylated receptors. Moreover, a latent phosphatase activity was found predominantly in a sequestered membrane fraction of frog erythrocytes. This parallels the distribution of a beta-adrenergic receptor phosphatase activity recently described in these cells (Sibley, D. R., Strasser, R. H., Benovic, J. L., Daniel, K., and Lefkowitz, R. J. (1986) Proc. Natl. Acad. Sci. U. S. A. 83, 9408-9412). These data suggest a potential role for the latent phosphatase 2 as a specific receptor phosphatase.
...
PMID:Dephosphorylation of the beta 2-adrenergic receptor and rhodopsin by latent phosphatase 2. 283 66
