UNIPROT:P01178 - FACTA Search

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Query: UNIPROT:P01178 (oxytocin)
15,767 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Systematic analysis of the hydrolysis of benzyloxycarbonyl (Cbz)-dipeptides by cathepsin A [EC 3.4.12.1] purified from rat liver lysosomes showed that multiple forms of cathepsin A preferentially cleave peptide bonds with leucine, methionine, and phenylalanine. Cbz-Met-Met, -Met-Phe, -Phe-Met, and -Phe-Ala were hydrolyzed 6 to 8 times faster than the standard substrates, Cbz-Glu-Phe and Cbz-Glu-Tyr. The pH optima of the hydrolyses were 4.6 to 5.8. Hydrolysis of peptide bonds with glycine, isoleucine, and proline was very slow, but the rate depended on the nature of the adjacent amino acids. Proteins such as albumin, cytochrome c, gamma-globulin, hemoglobin, histone, myoglobin, and myosin were scarecely degraded. Peptide hormones, such as glucagon and adrenocorticotropic hormone (ACTH) were hydrolyzed markedly with optimum pH's of 4.5 and 4.6, respectively. Angiotensin I, II, bradykinin, Lys- and Met-Lysbradykinin (kallidin and Met-kallidin), and substance P were also hydrolyzed at appreciable rates. pH optima for these peptide hormones were 5.2 to 5.6. On the other hand, insulin and its A chain, luteinizing hormone-releasing hormone (LH-RH), oxytocin and vasopressin were cleaved slowly. In the hydrolyses of glucagon and other peptides, multiple forms of rat liver lysosomal cathepsin A again showed a carboxypeptidase nature, cleaving peptide bonds sequentially from the carboxyl terminal. Almost all of the amino acids were cleaved on prolonged incubation. Vaso-activites of angiotensin II and bradykinin were rapidly lost on hydrolysis by cathepsin A. Lysosomal cathepsin C [dipeptidylaminopeptidase I, EC 3.4.14.1] also activated angiotensin II, but did not inactive bradykinin. Cathepsin A, therefore, can be regarded as one of the lysosomal angiotensinases and kinases. No distinct differences were observed between the multiple forms of cathepsin A in these hydrolyses and inactivations of peptides.
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PMID:Studies on cathepsins of rat liver lysosomes. III. Hydrolysis of peptides, and inactivation of angiotensin and bradykinin by cathepsin A. 1 61

The oxytocin-sensitive myoepithelial cells of the mammary gland form a system with characteristics of a potentially useful model for studying the mechanism of action of oxytocin and coupling phenomena of excitation-contraction. Our objectives were to develop a method for isolating mammary actomyosin, to determine the amount of actomyosin in the glands of lactating and nonlactating animals, and to investigate control of contractile protein interaction. Actomyosin in mammary glands represented a substantial portion of the soluble protein in the gland ranging from 9% of the total in lactating to 17% in weaned rats. The isolated actomyosin had a molecular composition like that of actomyosin of smooth muscle and the isolated actomyosin contained a light chain kinase that phosphorylated the 20,000 dalton light chain of myosin (L20). The kinase isolated as a component of actomyosin preparations did not show calcium control, but it did when isolated from mammary cytosol. Strips of involuted mammary tissue from rats developed tension when oxytocin was added to the bathing medium; thus, the myoepithelial cells appeared to retain their sensitivity to oxytocin even in nonlactating animals and may be a useful model for studying the action of oxytocin. We suggest that one of the final steps in the milk-ejection reflex is phosphorylation of myosin causing a contraction of the myoepithelial cells of the mammary gland.
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PMID:Actomyosin from mammary myoepithelial cells and phosphorylation by myosin light chain kinase. 21 47

This literature review, which describes the structure of myometrial muscle and the regulation of its contractility, cites research from 1971 to 1989. The functions of the myometrium and the cervix are interrelated and coordinated during pregnancy and labor. The structure of smooth muscle, by allowing contraction in any direction, permits the uterus to assume the shape and size necessary to accommodate the fetus. Myometrial smooth muscle cells communicate via gap junctions, which synchronize myometrial function via conduction of electrophysiological stimuli during labor. These junctions increase in number prior to labor. This is regulated by estrogen, progesterone, and prostaglandins (PGs). The structures of myosin and actin and their movement during contraction are described. Estrogen, via alpha adrenergic receptors, causes a decrease in cAMP levels. It also increases the number of oxytocin receptors. Progesterone, via beta adrenergic receptors, causes an increase in cAMP levels. While estrogen leads to increased production of PGF2alpha, progesterone stimulates the production of prostacyclin synthase, Mifepristone, which blocks progesterone at the receptor level, increases uterine activity and sensitivity to PG. Human amnion and chorion produce mainly PGE2. The decidua produces PGE2 and PGF2alpha. Prostaglandins induce uterine activity at all stages of gestation when they are administered exogenously. Their production by uterine tissues increases during pregnancy, as does their concentration in amniotic fluid and in maternal blood and urine. Their roles in labor, whether natural or induced, include the softening of the cervix, the induction of gap junctions, and the direct stimulation of myometrial contractions. Although PGE2 and PGF2alpha relax cervical smooth muscle, they contract the myometrium by acting as calcium ionophpores. The production of PGE2, PGF2alpha, and other eicosanoids by the fetoplacental production of PGE2, PGF2alpha, and other eicosanoids by the fetoplacental unit is related to increased contractile activity during labor. What is produced in the eiconsanoid pathway changes dynamically with the phases of the reproductive cycle and the local concentrations of enzymes. Because of the rise in arachidonic acid in amniotic fluid during labor, fetal membranes may be involved with the initiation of regular uterine contractions. In addition, any stimulus facilitating PGE2 synthesis in the fetal membrane (hypoxia, infection, exposure to oxytocin, hypertonic solutions, prostaglandins, or arachidonic acid) would induce the same series of steps leading to formation of PGF2alpha in the decidua and the myometrium. Since natural prostaglandins are rapidly metabolized, and induction of abortion requires a longer presence, analogues have been developed for this use. These include gemeprost, sulprostone, and minprostin. Their action is more prolonged and specific to uterine tissue than their parent compounds.
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PMID:Biochemistry of myometrial contractility. 133 53

In rat uterine smooth muscle, sustained Ca2(+)-free contraction was observed by oxytocin in Ca2(+)-free solution. This Ca2(+)-free contraction was effectively inhibited by protein kinase inhibitors and cytoskeletal inhibitors but myosin-light chain kinase (MLCK) inhibitors were not so effective. Simultaneous addition of a protein kinase inhibitor and a cytoskeletal inhibitor caused synergistic inhibition. These results suggest that the mechanism for Ca2(+)-free contraction involves some protein kinase and cytoskeletal elements rather than MLCK.
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PMID:Inhibitory effects of protein kinase inhibitors and cytoskeletal inhibitors on Ca2(+)-free contraction of rat uterus. 237 47

Recent progress in our understanding of uterine smooth muscle contraction is reviewed. We no longer believe that actin-myosin interaction in the myometrium occurs through activation of the thin filament; but it is triggered by calcium-dependent phosphorylation of myosin in the thick filament. Calcium is now thought to originate from both extracellular and intracellular sources. Calcium can enter the cell through either a voltage- or a hormone-controlled calcium channel. The intracellular source of calcium is the sarcoplasmic reticulum. The effect of oxytocin in human labor is no longer considered the result of increased circulating oxytocin but rather of increased oxytocin receptors. In contrast, the contractile action of some prostaglandins is related to increased prostaglandin formation at human parturition. The step between hormone binding and cellular action is mediated by second messengers. The uterine-relaxing action of cyclic adenosine monophosphate is now thought to be limited to the inhibition of myosin phosphorylation. Recently discovered second messengers for contraction of the myometrium are phosphoinositides; their turnover causes calcium release from the sarcoplasmic reticulum. Guanine nucleotides are thought to be modulators of these two second messengers.
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PMID:A new look at uterine muscle contraction. 244

The effect of calcium on oxytocin-induced contraction of myoepithelial cells was visualized with NBD-phallacidin, a fluorescent stain for filamentous actin. In the absence of oxytocin, the cells appeared relaxed; long, branching processes radiated from the cell bodies. In the presence of 50 nM-oxytocin, myoepithelial cells contracted into smaller spoke-shaped bodies in which the arms were shorter and thicker. Electron microscopy confirmed the morphological differences between oxytocin-treated and untreated myoepithelium. To determine a role for extracellular calcium, tissue was incubated in EGTA, then exposed to oxytocin, with or without added calcium. Contraction occurred in the presence of oxytocin plus additional calcium but not in the absence of calcium. When the tissue was incubated with the calmodulin antagonist trifluoperazine (TFP) in calcium-containing medium, oxytocin did not induce myoepithelial cell contraction. These data support previous results obtained with a myosin light-chain phosphorylation assay implicating calcium and calmodulin in oxytocin-induced contraction. Furthermore, NBD-phallacidin visualization of myoepithelial cells demonstrates that the effect of calcium on contraction is physiologically significant.
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PMID:Effect of calcium on oxytocin-induced contraction of mammary gland myoepithelium as visualized by NBD-phallacidin. 350 57

Stretching of rat uterine strips induced phosphorylation of the 20,000-Da light chain of myosin to the same extent as was observed in strips contracted by carbachol or oxytocin. Stretching also reversed the partial dephosphorylation of light chain caused by treatment with ethylene glycol bis(beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid (EGTA) for 1 min. However, complete dephosphorylation of the light chain with 50-min EGTA-treatment could not be reversed by stretch. When stretched uterine strips containing light chain with a phosphate content greater than 0.75 mol/mol were quick-released, active force developed. On the other hand, when the phosphate content of light chain was reduced to less than 0.25 mol/mol, quick-release of the stretched strips did not produce active force. It is shown that Ca2+ mobilized from intracellular sources is involved in stretch-induced phosphorylation. The data indicate that myosin light chain phosphorylation is a prerequisite for active force development in smooth muscle.
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PMID:Stretch-induced myosin light chain phosphorylation in rat uterus. 375 7

Oxytocin (10 nM) stimulated the phosphorylation of the 20,000 mol wt myosin light chain in rat mammary myoepithelial cells from a basal level of 0.17 to 0.85 mol phosphate/mol light chain within 30 sec. Of the smooth muscle stimulants tested, oxytocin appears to be the only normal physiological stimulus for myosin phosphorylation in these cells. The roles of cAMP, cGMP, and calcium ions were investigated in the mode of action of oxytocin and the regulation of myosin phosphorylation. Although oxytocin had no effect on cGMP metabolism, there was an increase in the cAMP content of the treated myoepithelial cells. Further investigation suggested that the increase in cAMP levels in response to oxytocin was not directly involved in the regulation of myosin phosphorylation. Various agents known to interfere with calcium ion transport were used to study the role of calcium ions in the action of oxytocin and the regulation of myosin phosphorylation. The results indicate that the duration of the cellular response to oxytocin depends on an influx of extracellular calcium through calcium-specific channels in the plasma membrane.
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PMID:Oxytocin-stimulated myosin phosphorylation in mammary myoepithelial cells: roles of calcium ions and cyclic nucleotides. 632 26

The response of mammary myoepithelial cells to oxytocin was studied by monitoring the level of phosphorylation of the 20,000 mol wt light chain of myosin. Myoepithelial cells were obtained by collagenase dispersion of involuted rat mammary tissue. The cells were equilibrated with [32P]orthophosphate, and then stimulated with oxytocin. Phosphorylated proteins were separated by polyacrylamide gel electrophoresis, and incorporation of 32P into the proteins was detected by autoradiography. Nanomolar concentrations of oxytocin caused a 3-fold increase in the level of phosphorylation of the myosin light chain within 0.5 min. When the cells were incubated with oxytocin in a calcium-free medium, there was only a transient phosphorylation of myosin. However, readdition of calcium to these cells resulted in phosphorylation of the myosin light chain. The results suggest that calcium is involved in the intracellular events following stimulation of the cells with oxytocin.
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PMID:Phosphorylation of myosin in mammary myoepithelial cells in response to oxytocin. 707 45

Parturition results from the establishment of phasic regular uterine contractions. Contractility in myometrial smooth muscle is stimulated by an increase in intracellular calcium ([Ca2+i]) which activates myosin light chain phosphorylation leading to increased myosin ATPase activity and enhanced rate of acto-myosin cross bridge formation. G proteins play a pivotal role in smooth muscle activation and relaxation by coupling cell membrane receptors to effector enzymes and ion channels. G alpha(s) and G alpha(i) stimulate and inhibit adenylyl cyclase, respectively and control cAMP formation. G alpha(q) stimulates phospholipase C resulting in the formation of two second messengers: inositol 1,4,5-trisphosphate (InsP3) which releases Ca2+ from the sarcoplasmic reticulum, and 1,2-diacylglycerol which activates protein kinase C. The oxytocin receptor stimulates myometrial contractility by increasing [Ca2+i] through both pertussis toxin resistant (G alpha(q)) and pertussis toxin sensitive (?G alpha (i)) pathways. beta-Adrenoceptors and prostaglandin EP2 receptors promote relaxation via G alpha(s)-adenylyl cyclase. The concentration of myometrial oxytocin receptors is five-times higher in pregnant compared to non-pregnant myometrium but decreases in samples obtained during labour. When myometrial slices are challenged with oxytocin there is a rapid increase in InsP3 levels with a time course which is similar to the rise in [Ca2+i] provoked by oxytocin in cultured myometrial cells. The formation of InsP3 in response to oxytocin in myometrial tissue at term is similar in samples obtained before and after the onset of labour. G alpha(q) and G alpha(i) are expressed at similar levels in non-pregnant and in pregnant myometrium obtained before or during labour. By contract, G alpha(s) levels are higher in pregnant compared to non-pregnant myometrium and decrease in samples obtained during labor. These changes in G alpha(s) are paralleled by prostaglandin E2-induced adenylyl cyclase activity in the same tissues. Parturition may be the consequence of downregulation of pathways that favour uterine quiescence by increasing cAMP formation, resulting in a relative dominance of stimulatory receptors that increase InsP3/Ca2+ availability.
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PMID:Parturition: activation of stimulatory pathways or loss of uterine quiescence? 871 97

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