EC:3.6.1.3 - FACTA Search

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Query: EC:3.6.1.3 (ATPase)
65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The activity and role of creatine kinase (CK) associated with contractile proteins of smooth muscle have been investigated using skinned guinea-pig taenia coli fibers. Total CK activity was 163 +/- 22 IU/g (ww) and agarose electrophoresis showed BB, MB, and MM isoforms (BB-CK being the predominant isoenzyme). After skinning for 1 h with Triton X-100, BB-CK was specifically associated with the myofibrils, representing 22% of the preskinned CK activity. When relaxed fibers were exposed to pCa 9 in the presence of 250 microM ADP, 0 ATP and 12 mM PCr, tension was not significantly different from resting tension, but changing to pCa 4.5 caused the fibers to generate 59.1 +/- 5.2 percent of maximal tension. When a high-tension rigor state was achieved (250 microM ADP, 0 ATP, 0 PCr, and pCa 9), the addition of 12 mM PCr effected significant relaxation. These observations implicate an endogenous form of BB-CK, associated with the myofilaments and capable of producing enough ATP for submaximal tension generation and significant relaxation from rigor conditions. It was also shown that ADP is bound to the myofibrils and available for rephosphorylation by BB-CK. These results suggest co-localization of ATPase, MLCK and CK on the contractile proteins of the taenia coli. This enzymic association may play a role in the compartmentation of adenine nucleotides in smooth muscle.
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PMID:Creatine kinase binding and possible role in chemically skinned guinea-pig taenia coli. 161 Aug 72

Contraction of tracheal smooth muscle requires the binding of Ca2+ to calmodulin, which then binds to and activates MLCK. The Ca2+-calmodulin-MLCK complex catalyzes the phosphorylation of myosin, which causes contraction by stimulating actin-activated Mg2+-ATPase activity of myosin. Myosin phosphorylation appears to be a transient event that is responsible for a high velocity of shortening. The mechanism responsible for maintenance of isometric force is unknown, although a second Ca2+-dependent mechanism with a greater sensitivity to Ca2+ than the activation of MLCK has been hypothesized. Force would be maintained through the slow cycling of nonphosphorylated cross-bridges or a small population of phosphorylated cross-bridges. Tracheal smooth muscle utilizes both extracellular and intracellular pools of Ca2+ for contraction. Moreover, the membrane channels through which extracellular Ca2+ passes have been subdivided into potential-dependent channels (PDCs) and receptor-operated channels (ROCs) independent of membrane potential. The relative extent to which extracellular and intracellular sources of Ca2+ as well as PDCs and ROCs are utilized depends on the agonist used for contraction, its concentration, and the type and location of the smooth muscle being investigated. Calcium antagonists such as verapamil and nifedipine, which reportedly block PDCs but not ROCs, are much better inhibitors of tracheal smooth muscle contractions induced by serotonin than those induced by acetylcholine, histamine, and leukotriene D4, indicating an effect of these latter three agents on ROCs. Relaxation of tracheal smooth muscle following stimulation of beta-adrenergic receptors most likely results from an increase in cAMP that stimulates a cAMP-dependent protein kinase to catalyze a protein phosphorylation that leads to relaxation by decreasing the intracellular concentration of Ca2+. The primary mechanisms whereby cAMP is thought to reduce intracellular Ca2+ to effect relaxation include: activation of a calmodulin-sensitive Ca2+ ATPase in the plasma and sarcoplasmic reticulum membranes, and extrusion of Ca2+ by a Na+-Ca2+ exchange mechanism coupled to Na+-K+-ATPase in the cell membrane. A more controversial mechanism for relaxation that bypasses Ca2+ might involve the dephosphorylation of myosin. Leukotrienes are released by various stimuli, including immunologic challenge, and have been considered as important mediators of bronchoconstriction in allergic asthma.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Tracheal smooth muscle. 301 93

The contraction induced by a Ca2+-independent myosin light chain kinase (MLCK-) was characterized in terms of isometric force (Fo), immediate elastic recoil (SE), unloaded shortening velocity (Vus), shortening under a constant load and ATPase activity of chemically skinned smooth muscle preparations. These parameters were compared to those measured in a Ca2+ -induced contraction to assess the nature of cross bridge interaction in the MLCK-induced contraction. Fo developed in chicken gizzard fibers as well as SE were similar in contractions elicited by either agent. Vus in the contraction induced by MLCK-(0.36 mg/ml) was similar though averaged 39.3 +/- 8.9% less than Vus induced by Ca2+ (1.6 X 10(-6) M) in the control fibers. Addition of Ca2+ (1.6 X 10(-6) M) to a contraction induced by MLCK-resulted in small increases in both Fo and Vus. Shortening under a constant load was similar for both types of contractions. The contraction induced by MLCK-was accompanied by an increased rate of ATP hydrolysis. The MLCK-induced contraction is thus kinetically similar though not identical to a contraction induced by Ca2+. We conclude that with respect to actin-myosin interaction, MLCK-and Ca2+ -induced contractions are similar.
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PMID:Mechanical and biochemical characterization of the contraction elicited by a calcium-independent myosin light chain kinase in chemically skinned smooth muscle. 316 Jun 2

Sepharose 4B conjugated with phosphorylated myosin light chains was used in affinity chromatography of a partially purified preparation of gizzard myosin light-chain phosphatase (MLCP) (Onishi et al. (1979) J. Biochem. 86, 1283-1290). The MLCP preparation thus purified contained, according to SDS gel electrophoresis, three components of 67,000 (67 K), 54,000 (54 K), 34,000 (34 K) daltons. In an accompanying report, Uchiwa et al. (J. Biochem. 91, 273-282 (1982)) described the purification of gizzard myosin light-chain kinase, which consisted of two subunits; 130 K and 17 K daltons. Using the purified preparations of MLCP and MLCK, it was demonstrated a) that reversible changes in the ATPase and superprecipitation activities occur as myosin light chains are enzymatically phosphorylated and dephosphorylated, and b) that addition of a very low concentration of Ca2+ and its removal cause reversible changes in the turbidity of actomyosin suspensions as well as in the state of phosphorylation of myosin light chains only when MLCK and MLCP are both present. These results provide strong support for the proposal (see Ikebe et al. (1977) J. Biochem. 80, 299-302) that MLCK and MLCP play a key role in the Ca2+ regulation in gizzard.
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PMID:Purification of gizzard myosin light-chain phosphatase, and reversible changes in the ATPase and superprecipitation activities of actomyosin in the presence of purified preparation of myosin light-chain phosphatase and kinase. 627 83

Activity and role of creatine kinase associated with contractile proteins of vascular smooth muscle have been investigated using skinned guinea-pig carotid artery rings. Membrane solubilization was performed with the detergent Triton X-100. Creatine kinase activity, isoenzyme profile as well as mechanics were performed on the Triton skinned carotid artery rings. Total creatine kinase activity was 47.3 +/- 9.3 IU g-1 ww and electrophoresis showed BB, MB, and MM isoforms (BB-CK being the predominant isoenzyme). One hour incubation with Triton X-100, produced predominantly BB-CK remaining with the myofibrils with some MB, representing 23% of the preskinned creatine kinase activity. When relaxed carotid artery rings were exposed to pCa 9 in the presence of 250 microM ADP, 0 ATP, and 12 mM phosphocreatine, tension was not significantly different from resting tension, but changing to pCa 4.5 caused the carotid artery rings to generate 49.5 +/- 4.5% of maximal tension. When a high-tension rigor state was achieved (250 microM ADP, 0 ATP, 0 phosphocreatine, and pCa 9), the addition of 12 mM phosphocreatine effected significant relaxation. These observations implicate an endogenous form of creatine kinase, associated with the myofilaments, which is capable of producing enough ATP for submaximal tension generation and significant relaxation from rigor conditions. These results suggest co-localization of ATPase, MLCK, and creatine kinase on the contractile proteins of the carotid artery. Such an enzymic association may play a role in the energetic supply to the contractile apparatus of vascular smooth muscle.
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PMID:Creatine kinase activity associated with the contractile proteins of the guinea-pig carotid artery. 780 37

Dictyostelium RLC null cells have defects in cytokinesis and development that can be rescued by expression of either the wild type Dictyostelium RLC or an RLC mutant that cannot be phosphorylated by MLCK (S13A) (Ostrow et al., 1994). The wild type and S13A mutant LCs rescued the cells equally well, despite the fact that RLC phosphorylation increases purified Dictyostelium myosin's activity 5-fold. In this report, we assess the ability of foreign RLCs to rescue the RLC null phenotype. The RLC from smooth muscle myosin, whose activity is tightly controlled by phosphorylation, rescued the null cell phenotype. The purified hybrid myosin had an activity and motility comparable to phosphorylated Dictyostelium myosin. In contrast, cells expressing skeletal muscle RLC were deficient in cytokinesis and development, despite having an activity and motility similar to that of myosin with the unposphorylatable S13A mutant RLC. Neither foreign LC was phosphorylated when expressed in Dictyostelium. These results suggest that the level of actin-activated ATPase activity and motility is not the sole determinant of proper myosin function in vivo. Other heavy chain/light chain interactions, which occur only with the native RLC and smooth muscle RLC, appear to be necessary for optimal function.
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PMID:Expression of chicken gizzard RLC complements the cytokinesis and developmental defects of Dictyostelium RLC null cells. 1041 89

Myosin is an ATPase, able to form filaments with actin, thus initiating smooth muscle contraction (conversion of chemical energy into mechanical energy). Myosin activity is regulated by cytosolic calcium, via a calcium-calmodulin-MLCK-dependent phosphorylation. Extrusion of cytosolic calcium via calcium pumps (in the plasma membrane and sarcoplasmic reticulum) and via a sodium-calcium exchange allow smooth muscle cells to maintain their resting state. Constrictor agonists (hormones, neurotransmitters or drugs) act at membrane receptors inducing: (i) a fast and transient calcium mobilization from the sarcoplasmic reticulum, via phospholipase C (PLC) stimulation and inositol triphosphate (IP3) production or via a "calcium-induced calcium release" mechanism and opening of calcium channels in the sarcoplasmic reticulum and (ii) a slow and maintained mobilization of extracellular calcium, via the opening of voltage-dependent calcium channels in plasma membranes. Smooth muscle relaxation is ensured by a phosphatase which hydrolyzes phosphorylated myosin and decreases the calcium sensitivity of the contractile apparatus. Calcium signal is regulated at that level by: (i) protein kinase C, tyrosine kinase and arachidonic acid which inhibit phosphatase activity and (ii) cyclic AMP (cAMP) and cyclic GMP (cGMP) which enhance phosphatase activity. A second regulatory site is situated at the level of the non-contractile calcium compartment, which buffers signal transduction and where cGMP and/or cAMP enhance calcium extrusion mechanisms.
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PMID:[Cellular mechanisms of smooth muscle contraction]. 1093 9

During apoptosis, cells are fragmented into sealed packages for safe disposal by phagocytosis, a process requiring major reorganisation of the cytoskeleton. The small p21 GTPase-activated kinases (PAKs) have been implicated in regulating cytoskeletal dynamics and a subset are activated by caspase 3/7 cleavage. However, the functional importance of this activation in apoptosis remains unknown. Using early Xenopus embryos, we have dissected xPAK1 activation from other causative events in apoptosis. An apoptotic-like cell fragmentation was observed 30 min after expression of the xPAK1 catalytic domain and occurred in the absence of other markers of apoptosis. In vitro, activated xPAK1 phosphorylated the regulatory light chain (xMLC) of myosin II at threonine 18 and serine 19, events known to activate the actin-dependent ATPase of cytoskeletal myosin. In vivo, activated xPAK1 induced hyperphosphorylation of xMLC. BDM, a myosin inhibitor, and ML-7, a MLCK inhibitor, both abrogated cell fragmentation induced by activated xPAK1, and ML-7 also inhibited xPAK1 activity. Endogenous xPAK1 was cleaved during normal apoptosis and this was associated with xPAK1 activation and increased serine 19 phosphorylation of xMLC. The data show that PAK activation is sufficient for apoptotic body formation in vivo and strongly suggest that activation of myosin II is essential for this process.
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PMID:The catalytic domain of xPAK1 is sufficient to induce myosin II dependent in vivo cell fragmentation independently of other apoptotic events. 1459 1

The intestinal epithelium of the euryhaline teleost fish, Anguilla anguilla, absorbs Cl(-) transepithelially. This gives rise to a negative transepithelial potential at the basolateral side of the epithelium and to a measured short circuit current. Cl(-) absorption occurs via bumetanide-sensitive Na(+)-K(+)-2Cl(-) cotransport, localized on the luminal membrane. The cotransport operates in parallel with a luminal K(+) conductance that recycles the ion into the lumen. Cl(-) leaves the cell across the basolateral membrane by way of Cl(-) conductance and presumably via a KCl cotransport. The driving force for this process is provided by the electrochemical sodium gradient across the plasma membrane, generated and maintained by the basolateral Na(+)-K(+)-ATPase. The resulting NaCl absorption process is active and enables marine fish to take up water, thereby compensating for water that was lost passively from the body. Fresh water acclimatized eel also absorb Cl(-) actively, although in smaller quantities, utilizing the same ion transport mechanisms as marine eels. This mechanism is basically the same as the model proposed for the thick ascending limb (cTAL). Cl(-) absorption is regulated by a number of cellular factors, such as HCO(3) (-), pH, Ca(2+), cyclic nucleotides, and cytoskeletal elements. It is sensitive to osmotic stress, and therefore is a good physiological model to study ion transport mechanisms that are activated when osmotic stress induces cell volume regulation. The activation of these various ion transport pathways is dependent on cellular transduction mechanisms in which phosphorylation events (mainly by PKC and MLCK for the hypertonic response) and cytoskeletal elements, either microfilaments or microtubules, seem to play key roles.
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PMID:Cl- absorption in European eel intestine and its regulation. 1459 87

Cell-substratum interactions trigger key signaling pathways that modulate growth control and tissue-specific gene expression. We have previously shown that abolishing adhesive interactions by suspension culture results in G(0) arrest of myoblasts. We report that blocking intracellular transmission of adhesion-dependent signals in adherent cells mimics the absence of adhesive contacts. We investigated the effects of pharmacological inhibitors of acto-myosin contractility on growth and differentiation of C2C12 myogenic cells. ML7 (5-iodonaphthalene-1-sulfonyl homopiperazine) and BDM (2,3, butanedione monoxime) are specific inhibitors of myosin light chain kinase, and myosin heavy chain ATPase, respectively. ML7 and BDM affected cell shape by reducing focal adhesions and stress fibers. Both inhibitors rapidly blocked DNA synthesis in a dose-dependent, reversible fashion. Furthermore, both ML7 and BDM suppressed expression of MyoD and myogenin, induced p27(kip1) but not p21(cip1), and inhibited differentiation. Thus, as with suspension-arrest, inhibition of acto-myosin contractility in adherent cells led to arrest uncoupled from differentiation. Over-expression of inhibitors of the small GTPase RhoA (dominant negative RhoA and C3 transferase) mimicked the effects of myosin inhibitors. By contrast, wild-type RhoA induced arrest, maintained MyoD and activated myogenin and p21 expression. The Rho effector kinase ROCK did not appear to mediate Rho's effects on MyoD. Thus, ROCK and MLCK play different roles in the myogenic program. Signals regulated by MLCK are critical, since inhibition of MLCK suppressed MyoD expression but inhibition of ROCK did not. Inhibition of contractility suppressed MyoD but did not reduce actin polymer levels. However, actin depolymerization with latrunculin B inhibited MyoD expression. Taken together, our observations indicate that actin polymer status and contractility regulate MyoD expression. We suggest that in myoblasts, the Rho pathway and regulation of acto-myosin contractility may define a control point for conditional uncoupling of differentiation and the cell cycle.
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PMID:Modulation of acto-myosin contractility in skeletal muscle myoblasts uncouples growth arrest from differentiation. 1525 13

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