Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Dopamine transporters (DATs) undergo increased phosphorylation upon treatment of striatal tissue or cultured cells with protein kinase C activators and protein phosphatase inhibitors. Phosphorylation conditions also lead to reductions in dopamine transport activity, which may function to regulate synaptic dopamine levels and control the extent and duration of dopaminergic signaling. Treatment of rat striatal tissue with okadaic acid (OA), a broad-spectrum protein phosphatase inhibitor, produces apparent maximal increases in DAT phosphorylation, suggesting that dephosphorylation is a crucial regulator of the DAT phosphorylation state. We used a combination of endogenous and in vitro approaches to identify the phosphatase(s) responsible for this activity. In homogenates prepared from (32)PO(4)-labeled rat striatal slices, OA inhibited DAT dephosphorylation with an IC(50) of 40 nM, a dose most compatible with inhibition of protein phosphatase 1 (PP1). Dephosphorylation of DAT in striatal homogenates was also inhibited by PP1 inhibitor 2, while little effect was produced by protein phosphatase 2A inhibitor 1. In vitro dephosphorylation assays showed substantial removal of (32)PO(4) from DATs by PP1 but not by protein phosphatase 2A, protein phosphatase 2B, or protein tyrosine phosphatase, and this effect was blocked by OA, verifying that the (32)PO(4) loss from DAT was due to dephosphorylation. These results demonstrate that DAT is a direct substrate for PP1 in vitro and suggest that PP1 is a major DAT phosphatase in rat striatum.
Brain Res Mol Brain Res 2003 Jan 31
PMID:Dopamine transporters are dephosphorylated in striatal homogenates and in vitro by protein phosphatase 1. 1257 38

We present solution NMR structures for wild-type and mutated forms of CPI-17, a phosphoinhibitor for protein phosphatase 1. Phosphorylation of Thr38 of CPI-17 produces a >1000-fold increase in inhibitory potency for myosin phosphatase. We compared the 1H-15N heteronuclear single quantum coherence spectroscopy (HSQC) chemical shifts of wild-type CPI-17, partially phosphorylated CPI-17 and CPI-17 with Thr38 replaced with Asp to introduce a negative charge. There was a switch in the protein conformation due to either Asp substitution or phosphorylation, so we determined the solution NMR structure of the CPI-17 T38D mutant as a model for the active (phospho-) conformation. The structures reveal a molecular switch in conformation that involves the rotation of two of the four helices in the four helix bundle. Despite this conformational switch, there was little increase in the inhibitory potency with T38D. We propose that for this inhibitor, a negative charge at residue 38 is sufficient to trigger an active conformation, but a phosphoryl group is required for full inhibitory potency against protein phosphatase-1.
J Mol Biol 2003 Mar 07
PMID:Distinctive solution conformation of phosphatase inhibitor CPI-17 substituted with aspartate at the phosphorylation-site threonine residue. 1259 64

Tumor necrosis factor-alpha (TNF), an inflammatory cytokine, has a potentially important role in the pathogenesis of bronchial asthma and may contribute to airway hyper-responsiveness. Recent evidence has revealed that TNF can increase the Ca(2+) sensitivity of agonist-stimulated myosin light chain(20) (MLC(20)) phosphorylation and contractility in guinea pig airway smooth muscle (ASM). In the present study, the potential intracellular pathways responsible for this TNF-induced Ca(2+) sensitization were investigated. In permeabilized cultured guinea pig ASM cells, recombinant human TNF stimulated an increase in Ca(2+)-activated MLC(20) phosphorylation under Ca(2+) "clamp" conditions. This increased MLC(20) phosphorylation was inhibited by preincubation with the Rho-kinase inhibitor Y27632. TNF also increased the proportion of GTP-bound RhoA, as measured using rhotekin Rho-binding domain, in a time course compatible with a role in the TNF-induced Ca(2+) sensitization. In cultured human ASM cells, recombinant human TNF also activated RhoA with a similar time course. In addition, TNF stimulated phosphorylation of the regulatory subunit of the myosin phosphatase, which was inhibited by Y27632. Although human ASM cells expressed both receptor subtypes, TNF-R1 and TNF-R2, the activation of RhoA was predominantly via stimulation of the TNF-R1, although RhoA did not immunoprecipitate with the TNF-R1. In conclusion, the TNF-induced increase in the Ca(2+) sensitivity of MLC(20) phosphorylation is through stimulation of the TNF-R1 receptor and via a RhoA/Rho-kinase pathway leading to inhibition of the myosin light chain phosphatase. This intracellular mechanism may contribute to TNF-induced airway hyper-responsiveness.
Mol Pharmacol 2003 Mar
PMID:Tumor necrosis factor-alpha-induced activation of RhoA in airway smooth muscle cells: role in the Ca2+ sensitization of myosin light chain20 phosphorylation. 1260 82

A search for physiological inhibitors of protein phosphatases led to the identification of a Plasmodium falciparum (Pf) cDNA that had the potential to code for an aspartate-rich protein and hence named ARP. The PfARP was virtually identical to its Plasmodium berghei counterpart in gene structure and protein sequence. The PfARP coding sequence contained two introns, and the predicted protein contained 269 amino acid residues. Its primary structure showed significant similarity to eukaryotic proteins of the SET and TAF-family that included two inhibitors of mammalian serine/threonine protein phosphatase 2A (PP2A), namely I1(PP2A) and I2(PP2A). Like the SET and TAF proteins, it had an extremely acidic tail. The cDNA was confirmed by recombinant expression in bacteria. Native parasitic ARP was purified and was found to be highly thermostable. PfARP specifically inhibited the parasitic PP2A at nanomolar concentrations, with no effect on PP1, PP2B, PP5, or PPJ. Expression of PfARP in HeLa cells led to elevated phosphorylation of c-Jun, and activation of transcription factors AP1 and NF-kappa B. These functional properties are also characteristic of the SET/TAF-family proteins. The ARP mRNA and protein were detectable in all the erythrocytic asexual stages of the parasite, and the protein was located mainly in the parasitic cytoplasm. Thus, PfARP is a unique cytoplasmic member of the SET/TAF-family and a candidate physiological regulator of the Plasmodium PP2A.
Mol Biochem Parasitol 2003 Feb
PMID:Characterization of a unique aspartate-rich protein of the SET/TAF-family in the human malaria parasite, Plasmodium falciparum, which inhibits protein phosphatase 2A. 1261 23

Cultured airway smooth muscle cells subjected to cyclic strain respond with increased cytoskeletal organization and contractility resembling effects described with RhoA activation. To test the hypothesis that strain increases cell cytoskeletal organization through RhoA, cells were subjected to strain in the presence of known activators or inhibitors of RhoA. Ten percent cyclic deformational strain (serum-free conditions) increased F-actin staining (152% over control), and this effect was enhanced by serum or lysophosphatidic acid (180%), but decreased (68%) with Clostridium botulinum toxin inhibition of RhoA or with the Rho kinase inhibitor Y27632 (67%). When cells expressing the dominant negative N17-RhoA isoform were subjected to strain, F-actin staining was disorganized and cells failed to elongate or migrate relative to strain direction. When cells expressing a green fluorescent protein (GFP)-RhoA fusion protein were subjected to strain, GFP showed up to 25% greater cell membrane staining than control cells. Finally, strain caused a 4-fold increase in RhoA activation (Rhotekin binding assay), and a 3-fold increase myosin phosphatase phosphorylation that was inhibited by Y27632. We conclude that mechanical stress activates RhoA, an event that may increase airway smooth muscle contractility.
Am J Respir Cell Mol Biol 2003 Apr
PMID:Mechanical stress increases RhoA activation in airway smooth muscle cells. 1265 32

Rho-kinase was recently found to phosphorylate the myosin-binding subunit (MBS) of myosin phosphatase (MP) and to regulate MP activity. Although myosin light chain (MLC) phosphorylation in pulmonary arterial smooth muscle cells (PASMCs) is thought to be the cellular/molecular basis for hypoxic pulmonary vasoconstriction (HPV), very little is known about the role that Rho-kinase/MP plays in HPV. Rat PASMCs were cultured and made hypoxic (PO2 = 23 +/- 2 mm Hg). Cells exposed to normoxia (PO2 approximately 148 mm Hg) served as controls. PASMCs exposed to hypoxia showed a significant increase in MLC and MBS phosphorylation, and a significant decrease in MP activity. Rho-kinase inhibitors (HA1077 or Y-27632) blocked hypoxia-induced MP inactivation and inhibited the hypoxia-induced MLC phosphorylation. Hypoxia was also found to induce stress fiber formation and actin polymerization in cultured PASMCs. In summary, these data show that MP inhibition in PASMCs is linked to activation of Rho-kinase, and that hypoxia inhibits the MP signaling pathway via Rho-kinase.
Am J Respir Cell Mol Biol 2003 Oct
PMID:Hypoxia inhibits myosin phosphatase in pulmonary arterial smooth muscle cells: role of Rho-kinase. 1271 74

Citron kinase is a Rho-effector protein kinase that is related to Rho-associated kinases of ROCK/ROK/Rho-kinase family. Both ROCK and citron kinase are suggested to play a role in cytokinesis. However, no substrates are known for citron kinase. We found that citron kinase phosphorylated regulatory light chain (MLC) of myosin II at both Ser-19 and Thr-18 in vitro. Unlike ROCK, however, citron kinase did not phosphorylate the myosin binding subunit of myosin phosphatase, indicating that it does not inhibit myosin phosphatase. We found that the expression of the kinase domain of citron kinase resulted in an increase in MLC di-phosphorylation. Furthermore, the kinase domain was able to increase di-phosphorylation and restore stress fiber assembly even when ROCK was inhibited with a specific inhibitor, Y-27632. The expression of full-length citron kinase also increased di-phosphorylation during cytokinesis. These observations suggest that citron kinase phosphorylates MLC to generate di-phosphorylated MLC in vivo. Although both mono- and di-phosphorylated MLC were found in cleavage furrows, di-phosphorylated MLC showed more constrained localization than did mono-phosphorylated MLC. Because citron kinase is localized in cleavage furrows, citron kinase may be involved in regulating di-phosphorylation of MLC during cytokinesis.
Mol Biol Cell 2003 May
PMID:Citron kinase, a Rho-dependent kinase, induces di-phosphorylation of regulatory light chain of myosin II. 1280 51

The contraction of smooth muscle is regulated primarily by intracellular Ca2+ signal. It is well established that the elevation of the cytosolic Ca2+ level activates myosin light chain kinase, which phosphorylates 20 kDa regulatory myosin light chain and activates myosin ATPase. The simultaneous measurement of cytosolic Ca2+ concentration and force development revealed that the alteration of the Ca2+-sensitivity of the contractile apparatus as well as the Ca2+ signal plays a critical role in the regulation of smooth muscle contraction. The fluctuation of an extent of myosin phosphorylation for a given change in Ca2+ concentration is considered to contribute to the major mechanisms regulating the Ca2+-sensitivity. The level of myosin phosphorylation is determined by the balance between phosphorylation and dephosphorylation. The phosphorylation level for a given Ca2+ elevation is increased either by Ca2+-independent activation of phosphorylation process or inhibition of dephosphorylation. In the last decade, the isolation and cloning of myosin phosphatase facilitated the understanding of regulatory mechanism of dephosphorylation process at the molecular level. The inhibition of myosin phosphatase can be achieved by (1) alteration of hetrotrimeric structure, (2) phosphorylation of 110 kDa regulatory subunit MYPT1 at the specific site and (3) inhibitory protein CPI-17 upon its phosphorylation. Rho-kinase was first identified to phosphorylate MYPT1, and later many kinases were found to phosphorylate MYPT1 and inhibit dephosphorylation of myosin. Similarly, the phosphorylation of CPI-17 can be catalysed by multiple kinases. Moreover, the myosin light chain can be phosphorylated by not only authentic myosin light chain kinase in a Ca2+-dependent manner but also by multiple kinases in a Ca2+-independent manner, thus adding a novel mechanism to the regulation of the Ca2+-sensitivity by regulating the phosphorylation process. It is now clarified that the protein kinase network is involved in the regulation of myosin phosphorylation and dephosphorylation. However, the physiological role of each component remains to be determined. One approach to accomplish this purpose is to investigate the effects of the dominant negative mutants of the signalling molecule on the smooth muscle contraction. In this regards, a protein transduction technique utilizing the cell-penetrating peptides would provide a useful tool. In the preliminary study, we succeeded in introducing a fragment of MYPT1 into the arterial strips, and found enhancement of contraction.
Mol Cell Biochem 2003 Jun
PMID:Protein kinase network in the regulation of phosphorylation and dephosphorylation of smooth muscle myosin light chain. 1287 Jun 61

The Rb protein suppresses development of an abnormal state of endoreduplication arising after S phase DNA damage. In diploid, S phase cells, the activity of protein phosphatase 2A (PP2A) licenses the stable association of un(der)phosphorylated Rb with chromatin. After damage, chromatin-associated pRb is attracted to certain chromosomal replication initiation sites in the order in which they normally fire. Like S phase DNA damage in Rb(-/-) cells, specific interruption of PP2A function in irradiated, S phase wt cells also elicited a state of endoreduplication. Thus, PP2A normally licenses the recruitment of Rb to chromatin sites in S phase from which, after DNA damage, it relocalizes to selected replication control sites and suppresses abnormal, postdamage rereplicative activity.
Mol Cell 2003 Sep
PMID:Active localization of the retinoblastoma protein in chromatin and its response to S phase DNA damage. 1452 18

Different intrinsic alterations of skeletal muscle metabolism and gene expression have been described in chronic heart failure (CHF). As proposed skeletal muscle alterations in CHF may contribute to exercise intolerance and early muscular fatigue. However the exact molecular changes occurring in the skeletal muscle are still unclear. The aim of this study was to characterize the pattern of differential gene expression in an animal model of CHF and to study the regulation of one selected gene. Rats were subjected to LAD ligation or sham operation. mRNA was isolated from musculus quadriceps of both groups and differential gene expression was determined by subtractive hybridization. Quantitative RT-PCR and cell culture experiments were performed to further characterize the changed expression of protein phosphatase 2A (PP2A) in human skeletal muscle biopsies as well as the cytokine dependent regulation of PP2A expression. Out of 800 picked clones differential expression of 24 distinct genes could be identified by sequencing and reverse Northern blotting. PP2A expression demonstrated a significant upregulation in skeletal muscle biopsies from patients with CHF as compared to healthy controls (9.7 +/- 1.9 vs. 4.2 +/- 0.7 arbitrary units; p<0.05). Incubation of rat skeletal muscle myoblasts with a combination of TNF-alpha, IL-1beta, and gamma-IFN caused a 3-fold upregulation of PP2A expression vs. untreated cells. These results suggest that CHF is accompanied by changes in expression of genes involved in energy metabolism, contractility, and apoptosis in the skeletal muscle. The upregulation of PP2A, an important regulator in intracellular signaling and apoptosis, may be due to an increase of inflammatory cytokines.
Mol Genet Metab
PMID:Differential gene expression in skeletal muscle after induction of heart failure: impact of cytokines on protein phosphatase 2A expression. 1456 76


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