Phosphodiesterase activity, calmodulin

Toeroek, K. Cowley, D.J. Brandmeier, B.D. Howell, S. Aitken, A. Tren-tham, D.R. Inhibition of calmodulin-activated smooth-muscle myosin light-chain kinase by calmodulin-binding peptides and fluorescent (phosphodiesterase-activating) calmodulin derivatives. Biochemistry, 37, 6188-6198 (1998)... 

Lead also has been shown to substitute for calcium in the activation of calmodulin, but this requires higher levels of lead than does the activation of protein kinase C. Nevertheless, the affinity of lead for calmodulin is higher than that of calcium. Once activated, calmodulin regulates the activity of certain enzymes and transporters. For example, it activates c-AMP phosphodiesterase to hydrolyze and terminate the action of cAMP, another second messenger (Bressler and Goldstein 1991 Goldstein 1993 Goering 1993). 

Effects of Dopaminergic Antagonists on Calmodulin-stimulated Phosphodiesterase Activity... 

Both calmodulin and a calcium- and calmodulin-dependent phosphodiesterase activity occur in dispersed bovine parathyroid cells (20.). Some of the phenothiazines blocking the dopamine receptor in this tissue inhibit the interaction between calmodulin and the calmodulin-dependent phosphodiesterase. A series of experiments have tested the possibility that calmodulin might play a role in the effects of these agents on the parathyroid gland. The dopamine antagonists examined were weak inhibitors of calmodulin-stimulated phosphodiesterase activity (Table II). 

The stereospecific dopaminergic antagonists (-) and (+) butaclamol and cis- and trans-flupenthixol were of equal potency in their effects on calmodulin-dependent phosphodiesterase activity. This contrasts with the marked difference in the potency of each pair of stereoisomers as dopamine antagonists. It appears unlikely that the calmodulin-dependent phosphodiesterase activity (and by inference calmodulin) plays any role in the actions of dopaminergic antagonists upon the bovine parathyroid gland. 

Cyclic AMP is catabolized to 5 -adenosine monophosphate by the enzyme cyclic nucleotide phosphodiesterase, which terminates any further cAMP-initiated reactions. This enzyme also requires Mg + for activity. Calcium, again in consort with calmodulin, can stimulate phosphodiesterase activity. Phosphodiesterase appears to exist in multiple forms, each with specificity toward different substrates. Calcium and calmodulin activate only one form of the enzyme. The enzyme is potently inhibited by methyl xanthines, such as caffeine, theophylline, and theobromine. It is believed that at least part of the pharmacological effects of such compounds can be explained through their inhibition of phosphodiesterase and the consequent reduction in the catabolism of cAMP. 

In most tissues, a calmodulin-dependent phosphodiesterase has been found which hydrolyses both cyclic AMP and cyclic GMP [3]. The activity of the phosphodiesterase in the presence of calmodulin is inhibited by several of the calcium channel blockers. Nimodipine, nicardipine, felodipine, nisoldipine and nitrendipine are much more potent inhibitors than verapamil, D600 or diltiazem [ 171, 175-177]. Half-maximal inhibition of phosphodiesterase activity is seen with 2-20 jiM concentrations of the 1,4-dihydropyridines, whereas more than 100 verapamil or diltiazem is required to produce 50% inhibition [ 171, 176 ]. The effects of nifedipine in different studies have been inconsistent. In some studies, low concentrations of nifedipine have been found to inhibit calmodulin-activated phosphodiesterase [ 176, 177], but in other investigations nifedipine has had only a slight inhibitory effect on phosphodiesterase at up to 10 /xM [175, 178]. This discrepancy may be due to different sensitivities of phosphodiesterases from varying sources to nifedipine. There are also calmodulin-insensitive forms of phosphodiesterase whose activity is inhibited by verapamil, nimodipine, nicardipine, nifedipine and diltiazem [171,177]. 

Phosphodiesterase Activity. Assays were performed at room temperature as described (3) except that CaCl2 (18 pM) and calmodulin (0.1 pg or as indicated ) were present. 

In addition, vinpocetine selectively inhibits a specific calcium, calmodulin-dependent cycHc nucleotide phosphodiesterase (PDF) isozyme (16). As a result of this inhibition, cycHc guanosine 5 -monophosphate (GMP) levels increase. Relaxation of smooth muscle seems to be dependent on the activation of cychc GMP-dependent protein kinase (17), thus this property may account for the vasodilator activity of vinpocetine. A review of the pharmacology of vinpocetine is available (18). 

Calmodulin, a calcium binding protein, is involved in Ca2+-dependent regulation of several synaptic functions of the brain synthesis, uptake and release of neurotransmitters, protein phosphorylation and Ca+2 transport. It reacts with TET, TMT and TBT which then inactivates enzymes like Ca+2-ATPase and phosphodiesterase. In vitro studies indicated TBT was greater at inhibiting calmodulin activity than TET and TMT, whereas in vivo the order was TET > TMT > TBT. This may be due to the greater detoxification of TBT (66%) in the liver before moving to other organs30,31. 

Because of its ability to bind CaM, tamoxifen can increase cyclic AMP surges by inhibiting cyclic AMP hydrolysis by the Ca2+-calmodulin-dependent cyclic nucleotide phosphodiesterase (Fanidi et al. 1989 Rowlands et al. 1990). In bovine brain preparations, tamoxifen appears to act as a competitive inhibitor of calmodulin-activated phosphodiesterase with an IC50 of 2 p,M, similar to the value reported for trifluoperazine under the same experimental conditions (Lam 1984). 

Lam HY (1984) Tamoxifen is a calmodulin antagonist in the activation of cAMP phosphodiesterase. Biochem Biophys Res Commun 118 27-32... 

Mehorta and coworkers (1989) observed that isolated fractions of brain and heart cells from rats orally administered 0.5-10 mg endrin/kg showed significant inhibition of Ca+2 pump activity and decreased levels of calmodulin, indicating disruption of membrane Ca+2 transport mechanisms exogenous addition of calmodulin restored Ca+2-ATPase activity. In vitro exposure of rat brain synaptosomes and heart sarcoplasmic reticuli decreased total and calmodulin-stimulated calcium ATPase activity with greater inhibition in brain preparations (Mehorta et al. 1989). However, endrin showed no inhibitory effects on the calmodulin-sensitive calcium ATPase activity when incubated with human erythrocyte membranes (Janik and Wolf 1992). In vitro exposure of rat brain synaptosomes to endrin had no effect on the activities of adenylate cyclase or 3, 5 -cyclic phosphodiesterase, two enzymes associated with synaptic cyclic AMP metabolism (Kodavanti et al. 1988). 

Mata R, Gamboa A, Macias M, Santillan S, UUoa M, Gonzalez MC, Effect of selected phytotoxic agents from Guanomyces polythrix on the calmodulin-dependent activity of the enzymes cAMP phosphodiesterase and NAD-kinase, JAgricFood Chem 51 4559 562, 2003. 

Upon binding calcium ions, the small acidic protein known as calmodulin can activate enzymes by binding to a wide variety of proteins containing cahnodulin-binding domains. Such proteins include cAMP phosphodiesterase, calmodulin-dependent nitric oxide synthase, calmodulin kinases, the plasma membrane calcium pump, calcineurin, and calmodulin-dependent inositol-(l,4,5)-trisphosphate 3-kinase. See also Activation Autoinhibition... 

Finally, the inhibitory effects of phenothiazines on the formation of Of by PMNs have been interpreted as evidence for the participation of calmodulin in the transmission of the signal from the surface of the cell to the oxidase. One action of phenothiazines is to inhibit the effects of the complex of calmodulin and Ca . The activity of the effector molecule, such as phosphodiesterase, which would normally be stimulated by the binary complex of Ca with calmodulin, is not stimulated in the presence of phenothiazines. Jones et al. have shown that in both intact PMNs and in membranous fragments of PMNs stimulated with opsonized zymosan, phenothiazines inhibit the formation of Of. The hierarchy of potency of the various pheno-... 

A similar conformational change has been detected for calmodulin a heat-stable Ca2 +-binding protein. The field of Ca2+ research continues to expand noticeably, with articles focusing on calmodulin ll6). Calmodulin regulates the enzymatic activities of various enzymes such as adenylate cyclase and cyclic nucleotide phosphodiesterase. There are four Ca2+-binding sites in calmodulin, and the Ca2+ binding... 

The Ca2+-phosphoinositide signaling pathway. Key proteins include hormone receptors (R), a G protein (G), a phosphoinositide-specific phospholipase C (PLC), protein kinase C substrates of the kinase (S), calmodulin (CaM), and calmodulin-binding enzymes (E), including kinases, phosphodiesterases, etc. (PIP2, phosphatidylinositol-4,5-bisphosphate DAG, diacylglycerol. Asterisk denotes activated state. Open arrows denote regulatory effects.)... 

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