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Query: CAS:7440-70-2 (
calcium
)
333,191
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
1. The present study was designed to characterize the positive inotropic response to
DPI
201-106 in isolated papillary muscle strips obtained from heart failure patients undergoing surgery. 2. The positive inotropic responses to isoprenaline and milrinone and cardiac beta-adrenoceptor density were also determined. 3.
DPI
201-106 increased the force of contraction in papillary muscle strips from patients with moderate (NYHA II-III) and severe (NYHA IV) heart failure, in a concentration-dependent manner. This positive inotropic effect was more pronounced in tissues from NYHA IV patients. Furthermore, these responses were greater than those produced by milrinone or isoprenaline. The positive inotropic effects of isoprenaline and milrinone were reduced in NYHA IV compared to NYHA II-III. Consistently, there was also a smaller density of beta-adrenoceptors in myocardium from NYHA IV than in NYHA II-III. The positive inotropic effect of
Ca2+
was similar in tissues from both groups of patients. 4. The positive inotropic effect of
DPI
201-106 was not antagonized by adenosine or carbachol, whereas both compounds reduced the positive inotropic effect of isoprenaline. 5.
DPI
201-106 did not increase the
Ca2+
-sensitivity of chemically skinned ventricular fibres, whereas a significant increase of the
Ca2+
-sensitivity was obtained with trifluoperazine. 6. It is concluded that
DPI
201-106 produces significant positive inotropic effects in tissue excised from the failing human heart. The lack of inhibition by adenosine and carbachol might contribute to its greater effectiveness in NYHA IV than NYHA II-III and indicates that its mechanism of action is cyclic AMP-independent. A sensitization of the contractile proteins to
Ca2+
does not appear to be important for the positive inotropic action of
DPI
201-106 in the failing human heart.
...
PMID:Inotropic response to DPI 201-106 in the failing human heart. 255 90
This review deals with the principal mechanisms which are known to play a role in positive inotropism: 1) The myoplasmic
Ca2+
concentration may be increased by increases in cyclic AMP. Beside receptor-mediated stimulation (isoprenaline) or direct stimulation (forskolin) of the adenylate cyclase, the cyclic AMP may be increased by phosphodiesterase inhibition; 2) Cyclic AMP-independent activation of
Ca2+
channels can be brought about by alpha-adrenergic agents (phenylephrine) or so-called
calcium
agonists; 3) Only a small increase in myoplasmic Na+ concentration can greatly enhance the force of contraction by an increase in the intracellular
Ca2+
concentration. This is possible by inhibition of the Na+/K+-ATPase (glycosides) or by prolongation of the open state of Na+ channels (
DPI
201-106); 4) A direct inhibition of the Na+/
Ca2+
exchange has been discussed for amiloride; 5) A prolongation of the action potential induced by K+ channel-inhibiting agents such as 4-amino-pyridine may increase the myoplasmic
Ca2+
concentration by a prolongation of the slow
Ca2+
inward current; 6) An increased
Ca2+
sensitivity of the contractile proteins has been demonstrated for a number of compounds in vitro; the contribution of such an effect to the overall positive inotropism is unknown because a
calcium
sensitizer without any effects on
calcium
or sodium movements is not yet available.
...
PMID:Mechanisms of positive inotropic effects. 255 73
1. We studied the interaction of the cardiotonic compound
DPI
201-106 (4-[3'-(4''-benzhydryl-1''-piperazinyl)-2'-hydroxypropoxy]-1H-indole-2- carbonitrile;
DPI
) and its derivative BDF 8784 (2-methyl-4-[3'-(4''-benzhydryl- 1''-piperazinyl)-2'-hydroxypropoxy]-1H-indole; BDF) in isolated right ventricular papillary muscles of guinea-pig heart. 2. In contrast to the cardiotonic
DPI
, the methyl-indole derivative lacked a positive inotropic effect and even caused negative inotropic effects in concentrations above 1 microM. At 10 microM BDF significantly reduced the force of contraction and dV/dtmax, but did not affect action potential duration (APD). 3. Pretreatment of papillary muscles with BDF prevented the positive inotropic action of
DPI
in a concentration-dependent, but non-competitive fashion. At 10 microM, BDF prevented the inotropic effect of racemic
DPI
and shortened the
DPI
-induced prolongation of action potential duration. BDF similarly affected the inotropic and APD-prolonging effects of the sea anemone polypeptide ATX II. 4. In cardiac myocytes,
DPI
induced a tetrodotoxin (TTX)-sensitive, slowly inactivating inward current. The slow decay of this current was enhanced by BDF. In cells pretreated with BDF,
DPI
was not effective. BDF alone depressed the sodium and the
calcium
current. 5. In conclusion, the non-inotropic methyl-indole derivative BDF interacts with
DPI
noncompetitively at the sodium channels to abolish the inotropic and APD-prolonging effects of
DPI
, emphasizing the importance of the substituent in position 2 of the indole moiety for this effect.
...
PMID:Reversal of the cardiotonic and action-potential prolonging effects of DPI 201-106 by BDF 8784, a methyl-indol derivative. 256 42
1. We used the bioluminescent protein aequorin, which emits light when it combines with
Ca2+
, to test the hypothesis that the inotropic and lusitropic actions of
DPI
201-106 are due to changes in intracellular
Ca2+
handling in papillary muscles from ferrets and guinea-pigs. 2.
DPI
201-106 increased peak isometric tension (T) in a dose-dependent manner, with an 83% increase in T as the concentration of
DPI
201-106 was increased to 1 x 10(-5) M; however, peak [
Ca2+
]i did not increase significantly until the concentration of
DPI
201-106 reached 3 x 10(-6) M, suggesting a sensitization of the contractile apparatus to
Ca2+
. 3. Tetrodotoxin (1 x 10(-6) M), which did not reduce the tension response significantly before
DPI
201-106, decreased both [
Ca2+
]i and T in the presence of 1 x 10(-5) M
DPI
201-106, suggesting involvement of a sodium channel activation mechanism; however, tetrodotoxin did not completely reverse the
calcium
sensitization. 4. The shift of the [
Ca2+
]i versus T relationship was not observed in the presence of another sodium channel agonist, veratridine (3 x 10(-7)-1 x 10(-6) M). 5. In the guinea-pig,
DPI
201-106 markedly prolonged relaxation of tension (increase of 60% in the time from peak to 50% tension regression), which was accompanied by the appearance of a second component in the aequorin light signal; effects on relaxation were less prominent in the ferret. 6. Tension prolongation and the second component of the [
Ca2+
]i transient in the guinea-pig were exacerbated by increased [
Ca2+
]o and decreased by tetrodotoxin. Ryanodine (3 x 10(-7) M) markedly diminished the
calcium
transient in controls and the initial component of the
calcium
transient in the presence of
DPI
201-106, but had only a modest effect on the second component. 7. We conclude that although sodium agonism plays a role, sensitization of the contractile apparatus to
Ca2+
is an important mechanism in the positive inotropic action of
DPI
201-106. 8. The negative lusitropic action of
DPI
201-106 varies between ferret and guinea-pig, possibly reflecting differences between these two species in subcellular
Ca2+
handling.
...
PMID:Mechanisms of positive inotropic effects and delayed relaxation produced by DPI 201-106 in mammalian working myocardium: effects on intracellular calcium handling. 274 84
The interaction of
DPI
201-106, a novel cardiotonic agent, with the
calcium
entry blocker receptor complex was studied using porcine cardiac sarcolemmal membranes.
DPI
201-106 and the chemically-related
calcium
antagonist, cinnarizine, produce concentration-dependent inhibition of nitrendipine, gallopamil and diltiazem binding to their respective sites in these vesicles. This effect of
DPI
201-106 is not stereoselective since resolved stereoisomers of this compound display equal potency in inhibiting each of the binding reactions. Equilibrium ligand binding studies revealed that
DPI
201-106 and cinnarizine cause mixed inhibitory patterns at the aralkylamine and benzothiazepine sites (i.e. both Kd and Bmax values were affected) while mainly increasing Kd at the dihydropyridine site. The kinetics of ligand dissociation from the three
calcium
entry blocker receptors, together with measurements of dihydropyridine association kinetics, further demonstrate that
DPI
201-106 interacts at a unique site in the receptor complex and allosterically modulates binding of nitrendipine, gallopamil and diltiazem. The functional consequences of the above interactions with the calcium channel were studied in isolated cardiac preparations. In guinea-pig atria,
DPI
201-106 increased force of contraction. This inotropic effect is seen only with the S(-) enantiomer and is unaltered by nitrendipine-, verapamil- or diltiazem-pretreatment, indicating
DPI
201-106 does not act as a stimulant of this channel. Furthermore,
DPI
201-106 did not alter the inotropic action of Bay K 8644, a calcium channel stimulant. Spontaneous rate of guinea-pig right atria is decreased by both
DPI
201-106 and cinnarizine. In addition, potassium-induced contractures in cat papillary muscles are reduced by both agents.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Interactions of DPI 201-106, a novel cardiotonic agent, with cardiac calcium channels. 285 16
Stimulation by the tripeptide N-formyl norleucyl leucyl phenylalanine (FNLLP) of the guinea pig alveolar macrophage gives rise to transient production of superoxide anion (O2-). Components of the phosphatidyl inositol (PI) cycle (phosphatidic acid (PA), phosphatidyl inositol-4,5-bisphosphate (TPI) and phosphatidyl inositol-4-phosphate (
DPI
) were monitored using 32P in order to examine the possible association of this cycle with the FNLLP-stimulated production of O2-. Macrophage stimulation by FNLLP led to an increased flux of metabolites through the PI cycle. The level of 32P label in both TPI and
DPI
rapidly decreased upon exposure to FNLLP, followed by a 5-min period during which the 32P label in TPI and
DPI
approached prestimulated levels. During this period, there was a fivefold increase in 32P-PA. It is suggested that diacylglycerol (DAG) is the O2- -activating intermediate in the stimulated mechanism, as evidenced by the buildup of PA (for which DAG is the precursor) in parallel with the time course of O2- production. The importance of continued cycling of PI in the stimulated mechanism is demonstrated by the inhibition by LiCl of the extent, but not the initial rate, of both O2- production and the formation of 32P-PA upon peptide stimulation after 1-h preincubation with 10 mM LiCl. The influence of
calcium
on this mechanism was also examined. It has previously been demonstrated that intracellular availability of
calcium
can influence the rate and extent of O2- production. In cells preloaded with quin-2, which acts as a high-affinity sink for
calcium
in the cytosol, the initial rate of FNLLP-stimulated O2- production is inhibited in low (10 microM) extracellular
calcium
medium. High extracellular
calcium
(1 mM) completely reverses this inhibition and also significantly extends the time course of O2- production in both quin-2 and control cells (Stickle et al., 1984). In parallel with these effects on O2- production, varying
calcium
conditions is demonstrated to influence the rate and extent of PA formation. These same
calcium
conditions were found to have little or no effect on the initial unstimulated levels of TPI,
DPI
, and PA. These results indicate that the influence of an intracellular pool of
calcium
on O2- production may be via its influence on stimulated PI turnover.
...
PMID:Calcium regulation of phosphatidyl inositol turnover in macrophage activation by formyl peptides. 298 88
A method that allows the quantification of phosphatidylinositol (PI), phosphatidylinositol 4-phosphate (
DPI
), and phosphatidylinositol 4,5-biphosphate (TPI) on a nanomolar scale is presented. The method is based on the simultaneous separation of lipids on high-performance thin-layer chromatography plates, followed by a microassay for phosphorus of PI spots and a densitometric assay of
DPI
and TPI. The new procedure allows the determination of the phospholipids in small amounts (100 micrograms protein) of synaptosomes and synaptic plasma membranes, and in homogenates of microwave-fixed brain tissue (1 mg wet wt). The usefulness of the method is illustrated by showing the effect of
Ca2+
on the breakdown of
DPI
and TPI in synaptosomal plasma membranes.
...
PMID:Microdetermination of phosphoinositides in a single extract. 298 54
The phosphorylation of phosphoinositides in the acetylcholine receptor (AChR)-rich membranes from the electroplax of the electric fish Narke japonica has been examined. When the AChR-rich membranes were incubated with [gamma-32P]ATP, 32P was incorporated into only two inositol phospholipids, i.e., tri- and diphosphoinositide (TPI and
DPI
). Even after the alkali treatment of the membrane, AChR-rich membranes still showed a considerable
DPI
kinase activity upon addition of exogenous
DPI
. It is likely that the 32P-incorporation into these lipids was realized by the membrane-bound
DPI
kinase and phosphatidyl inositol (PI) kinase. Such a membrane-bound
DPI
kinase was activated by
Ca2+
(greater than 10(-6) M), whereas the PI kinase appeared to be inhibited by
Ca2+
. The effect of
Ca2+
on the
DPI
phosphorylation was further enhanced by the addition of ubiquitous
Ca2+
-dependent regulator protein calmodulin. Calmodulin antagonists such as chlorpromazine (CPZ), trifluoperazine (TFP), and N-(6-aminohexyl)-5-chloro-1-naphthalenesulfonamide (W-7) inhibited the phosphorylation of
DPI
in the AChR-rich membranes. It is suggested that the small pool of TPI in the plasma membrane is replenished by such
Ca2+
- and calmodulin-dependent
DPI
kinase responding to the change in the intracellular
Ca2+
level.
...
PMID:Calcium- and calmodulin-dependent phosphorylation of diphosphoinositide in acetylcholine receptor-rich membranes from electroplax of Narke japonica. 298 7
The in vitro cardiac effects of
DPI
201-106, a novel piperazinyl-indole, were investigated.
DPI
201-106 produced concentration-dependent positive inotropic effects in guinea-pig and rat left atria, kitten, rabbit and guinea-pig papillary muscles and Langendorff perfused hearts of rabbits between 10(-7) and 3 X 10(-6) mol/l. During isometric twitches, contraction and relaxation phases were prolonged in guinea-pig left atria and right ventricular papillary muscles from kitten and guinea-pigs. Spontaneous sinus rate was decreased in right atria of guinea-pigs and rats. Coronary flow increased in rabbit isolated hearts. Functional refractory period was increased in left atria from guinea-pigs and rats with EC50 values of 1.7 and 0.24 mumol/l respectively. In electrophysiological measurements,
DPI
201-106 prolonged the action potential duration (APD70) in guinea-pig papillary muscles up to 70% and in rabbit atria up to 120% at 3 mumol/l. Other action potential characteristics were not changed in guinea-pig papillary muscles but Vmax was decreased in rabbit left atria. The electrophysiological as well as the positive inotropic effects were stereoselective with the activity residing in the S-enantiomer.
DPI
201-106 increased the
Ca2+
-sensitivity of skinned fibres from porcine trabecula septomarginalis with an EC50 of 0.2 nmol/l.
DPI
201-106 dit not change cAMP levels in guinea-pig atria and rabbit papillary muscles. Slow action potentials were not induced by
DPI
201-106 in partially depolarized guinea-pig papillary muscles. Phosphodiesterase activity of rat hearts was not inhibited by
DPI
201-106 at pharmacologically relevant concentrations. The presence of propranolol did not influence the inotropic potency of
DPI
201-106 in guinea-pig atria. In conclusion,
DPI
201-106 represents a novel type of positive inotropic agents with a synergistic sarcolemmal and intracellular mechanism of action.
...
PMID:DPI 201-106, a novel cardioactive agent. Combination of cAMP-independent positive inotropic, negative chronotropic, action potential prolonging and coronary dilatory properties. 299 79
The activity of partially purified phospholipase C from human platelets was totally dependent on
Ca2+
, and approximately 800 microM
Ca2+
was required for half-maximal activity. The enzyme hydrolyzed endogenous substrates in the order
DPI
greater than TPI greater than PI in a
Ca2+
-dependent manner. Hydrolysis of TPI in thrombin-stimulated platelets was dependent on the amount of the agonist, and it was not affected by the presence or absence of extracellular
Ca2+
. Hydrolysis was inhibited by preincubation with Quin-2AM in the absence of extracellular
Ca2+
. The intracellular
Ca2+
concentration was significantly lowered below the basal level by such treatment. These observations suggested that TPI breakdown in thrombin-stimulated platelets is mediated by agonist-receptor coupling and requires at least the basal level of intracellular
Ca2+
.
...
PMID:Ca2+ requirement in hydrolysis of phosphatidylinositol-4,5-bisphosphate in human platelets. 300 31
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