Comparative cytogenetics of hamsters of the genus Calomyscus

Karyotypes of Calomyscus from different regions of Turkmenistan, Iran, and Azerbaijan were studied using chromosome banding (G- and C-banding) and analyses of meiosis in laboratory hybrids. Extensive variation in the diploid number and the number of autosomal arms (FNa) was revealed (2n = 30, FNa = 44; 2n = 32, FNa = 42; 2n = 44, FNa = 46; 2n = 44, FNa = 58; 2n = 37, FNa = 44; 2n = 50, FNa = 50; 2n = 52, FNa = 56). Centric and tandem fusions and heterochromatin changes were identified as the major modes of karyotype evolution in this group. Natural hybrids between individuals with different karyotypes were recorded, and regular chromosome pairing in meiosis was observed in laboratory hybrids. Fluorescence in situ hybridization with a 353-bp BspRI complex tandem repeat indicated that chromosomal repatterning occurred recently within the genus. There is no unequivocal evidence suggesting the role of chromosomal change in the speciation of the populations of Calomyscus examined.     

Bovine brain phosphatidylinositol transfer protein. Selective inhibition by chlorpromazine and other amphiphilic amines

Cationic amphiphilic amines of varied pharmacological activity were evaluated as modulators of the protein-catalyzed, intermembrane transfers of phosphatidylinositol and phosphatidylcholine. The catalytic agent was brain phosphatidylinositol transfer protein; the membrane system consisted of two populations of single bilayer phospholipid vesicles. The majority of the amines tested caused decreases in phospholipid transfer activity with the relative potencies in the following order: chlorpromazine greater than dibucaine greater than propranolol much greater than tripelennamine approximately chloroquine greater than dipyridamole. Concentrations required for 50% inhibition of phosphatidylinositol transfer were 0.24 mM chlorpromazine, 0.46 mM dibucaine, and 0.78 mM propranolol. The phosphatidylcholine transfer activity of this protein was somewhat less sensitive to these compounds. Comparison of chlorpromazine and its quaternary amine analogue, methochlorpromazine, at different pH values indicated that the observed inhibition can be attributed in large part to the charged forms of the amphiphiles. Direct association of methochlorpromazine with egg phosphatidylcholine bilayers was demonstrated by molecular sieve chromatography; no such association of the amphiphile with phosphatidylinositol transfer protein was apparent. Anionic agents, such as indomethacin, phenylbutazone, and tolmetin, were without significant effect on protein-catalyzed phospholipid transfers. Electrostatic interaction between the cationic amines and anionic or zwitterionic phospholipids, forming ion pairs in the lipid bilayers, is suggested as a possible molecular mechanism for the observed inhibition.     

Investigations of the inhibitory effect of propranolol,chlorpromazine, quinine,and dicyclohexylcarbodiimide on the swelling of yeast mitochondria in potassium acetate. Evidences for indirect effects mediated by the lipid phase

The mode of action of propranolol, chlorpromazine, and quinine, three cationic drugs inhibiting swelling of yeast mitochondria in potassium acetate, was investigated by looking at their effect on fluorescent probes of the polar heads and of the nonpolar moiety of the membranes, under inhibitory conditions of swelling. As expected, propranolol and chlorpromazine exhibited specificity for anionic phospholipids since they increased the binding of the anionic probe 1-anilino 8-naphthalenesulfonate (ANS). Although propranolol did not release 1,6-diphenyl-1,3,5-hexatriene (DPH) from the hydrophobic moiety of the membrane, it increased the excimer/ monomer fluorescence ratio of 10-(1-pyrene)decanoate, suggesting that it induced a limitation in the movements of the aliphatic chains of phospholipids. Opposite to propranolol, chlorpromazine removed DPH from the membrane, suggesting that it bound essentially to the hydrophobic moiety. However, chloramphenicol, which was also able to remove DPH but did not increase the binding of ANS, did not inhibit swelling. Inhibition by chlorpromazine therefore appeared to be related to its binding to the hydrophobic moiety of anionic phospholipids. Quinine had no effect on membrane properties: at inhibitory concentrations of swelling in potassium acetate, it did not inhibit swelling in ammonium phosphate (mediated by the phosphate/H⁺ cotransporter), whereas propranolol and chlorpromazine did, suggesting a more specific effect of quinine on (a) protein(s) involved in the K⁺/H⁺ exchange. Dicyclohexylcarbodiimide (DCCD), which irreversibly inhibits the swelling in potassium acetate, bound to ethanolamine heads; despite this effect, DCCD had no major consequences on the binding of the probes. Consequently, propranolol and chlorpromazine are of no help for characterizing protein(s) catalyzing the K⁺/H⁺ exchange, although their effect on lipids seems to involve limited zones of the inner mitochondrial membrane. Quinine and DCCD, although they also bind to lipids, may inhibit the activity by acting on a limited number of proteins.     

Order of events leading to surface immunoglobulin capping: analysis of a transmembrane signal

Capping provides a rapid assay for the transduction of 1 type of membrane signal generated by the cross-linking of cell surface receptors. The order of the steps comprising this signal was determined by employing reversible inhibitors of lymphocyte surface Ig capping in a sequential incubation protocol. The results demonstrated that surface Ig cross-linking leads to capping by a linear series of discrete events. Although the steps inhibited by the calcium ionophore A23187 and the tranquilizer chlorpromazine could not be distinguished, other agents also thought to influence calcium distribution in the cell acted at different steps. The order of inhibited steps was shown to be: 1) hydrocortisone; 2) calcium ionophore or chlorpromazine; 3) cytochalasins; 4) dibucaine; 5) propranolol; 6) fluoride; 7) azide. These results suggest a model wherein cross-linked membrane Ig aggregates engage the preassembled microfilament system by means of a calcium-dependent linkage. Further calcium redistribution within the cell then leads to an energy-consuming contractile event.     

Changes of transition temperatures of phosphatidylcholine and phosphatidylglycerol in presence of amphiphilic drugs

The transition temperature of phosphatidylglycerol (PG) was reduced to lower temperatures in presence of propranolol, imipramine, amitriptyline and chlorpromazine. This effect was dependent on drug concentration and was smallest with propranolol. The fluidizing effect, however, increased from propranolol to chlorpromazine according to the octanol/H2O partition coefficients. When the two phospholipids PG and phosphatidylcholine (PC) were compared, the presence of drug lead to a more pronounced reduction of the transition temperature in the case of the acidic phospholipid than in the case of the neutral one.     

Modulation of rat brain cytosolic phosphatidate phosphohydrolase: effect of cationic amphiphilic drugs and divalent cations

The effects of three cationic amphiphilic drugs on rat brain cytosolic phosphatidate phosphohydrolase and their mechanisms of action were studied utilizing membrane-bound, emulsified, and emulsified sonicated phosphatidate as substrates. With the membrane-bound substrate, chlorpromazine, desmethylimipramine, and propranolol inhibited the activity in a dose-dependent fashion with an IC50 of 30-50 microM. In the presence of the emulsified substrate, chlorpromazine was a more potent inhibitor than desmethylimipramine or propranolol but 200 microM was needed for 50% inhibition of activity. Addition of heat-inactivated microsomes to the emulsified substrate, to simulate the conditions with the membrane-bound substrate, did not alter this value. Both Mg2+ and Ca2+ stimulated the enzyme activity but only Ca2+ counteracted the effect of chlorpromazine. Kinetic studies indicate that chlorpromazine acts as a noncompetitive inhibitor of the enzyme. Emulsified sonicated phosphatidate was a good substrate at low (less than 10 microM) concentrations. It was a poor substrate at 1 mM, but at this concentration chlorpromazine stimulated the activity instead of inhibiting. This drug altered the integrity of phosphatidate vesicle membranes as visualized by electron microscopy. The different results obtained with the three types of substrate indicate the importance of the configuration of phosphatidate for the expression of enzyme activity and for its susceptibility to the action of cationic amphiphilic drugs.     

The effect of alpha- and beta-adrenergic antagonists of the self-stimulation phenomenon

In an attempt to evaluate the possible existence of alpha- and/or beta- adrenergic components of the self-stimulation reward system, rats were injected (i.p.) with chlorpromazine hydrochloride (2.5 mg/kg), phentolamine hydrochloride (5 mg/kg), and propranolol hydrochloride (10 mg/kg). The alpha- adrenergic antagonists (chlorpromazine and pehntolamine) inhibited self-stimulation but the beta-adrenergic blocker (propranolol) was without significant effect. Self-stimulation is apparently mediated by the alpha-adrenergic system.     

Mechanism of cationic amphiphilic drug inhibition of purified lysosomal phospholipase A1

Cationic amphiphilic drugs like chlorpromazine, propranolol, and chloroquine inhibit lysosomal phospholipase A in vitro. Some workers have proposed that cationic amphiphilic drugs inhibit the activity of phospholipase A1 by forming substrate-drug complexes which cannot be degraded while others have reported competitive inhibition implying drug effects on the enzyme. To analyze the mechanism of inhibition, we examined the binding ability of these drugs to unilamellar vesicles of dioleoylphosphatidylcholine and correlated these results with a detailed kinetic analysis of phospholipase A. Chlorpromazine and propranolol bound to small unilamellar liposomes of dioleoylphosphatidylcholine substrate in a positive cooperative way consistent with two binding sites: a high-affinity site with low capacity and a low-affinity site with high capacity. The affinity of chlorpromazine for the high-affinity site was 2 times greater than that of propranolol (KA = 13 807 +/- 1722 vs. 8481 +/- 1078 M-1), and the saturation number for chlorpromazine was 3 times greater than for propranolol (N = 0.20 +/- 0.004 vs. 0.07 +/- 0.02 mol of drug/mol of phosphatidylcholine). Chloroquine did not bind to unilamellar liposomes of dioleoylphosphatidylcholine. We carried out detailed kinetic studies using purified lysosomal phospholipase A1 from rat liver. In the case of chloroquine inhibition, the Lineweaver-Burk double-reciprocal plots showed straight lines, but the slope replots were curved, indicating the formation of complexes having 2 mol of chloroquine/mol of enzyme (EI2 complexes). Thus, chloroquine is a competitive inhibitor which forms EI2 complexes with phospholipase A1. However, in the case of chlorpromazine and propranolol, the observed kinetic data do not fit to the same equilibrium used for the case of chloroquine.(ABSTRACT TRUNCATED AT 250 WORDS)     

Cl- transport in apical plasma membrane vesicles isolated from bovine tracheal epithelium

Gradually altered synthetic entities were employed as molecular probes, and arachidonic acid, ADP, human alpha-thrombin and the Ca2+ ionophore A23187 as aggregation-inducing agents, in a comprehensive study on the response profile of human blood platelets with an emphasis on the effects of exogenous and increased intracellular Ca2+. Corroborating further previous conclusions, some representative carbamoylpiperidine derivatives, at concentrations effecting substantial inhibition of ADP-induced aggregation, failed to retain that effect when 5.0 mM Ca2+ was introduced into the otherwise identical test medium; reference compounds chlorpromazine and propranolol registered corresponding inhibitory patterns. At increased concentrations the compounds' inhibitory potency was regenerated even in the presence of 5 mM Ca2+. In fact, in sufficiently high concentrations, the compounds were even capable of inhibiting aggregation elicited by 15 microM of the ionophore A23187; so did chlorpromazine and propranolol. Another set of congeners revealed the striking sensitivity of ionophore A23187-induced human blood platelet aggregation to the surface active potencies of inhibitor molecules. The loss in inhibitory potency was directly related to the lesser hydrophobic character of the molecule.     

Karyotypes of field mice of the genus Apodemus(Mammalia:Rodentia) from China

Karyotypes of four Chinese species of field mice of the genus Apodemus were examined, including Apodemus chevrieri(diploid chromosome number,2 n=48, fundamental number of autosomal arms,FNa=56), A. draco(2 n=48, FNa=48), A. ilex(2 n=48, FNa=48), and A. latronum(2 n=48, FNa=48).Karyotypes of A. chevrieri, A. draco, and A. ilex are reported here for the first time, providing useful information for their species taxonomy. Determining the karyotypes of all species of Apodemus in Asia,both in this and previous studies, provides a solid overview of the chromosome evolution and species differentiation of the genus in East Asia. In addition to allopatric speciation, chromosome rearrangements likely played an important role in the formation of the four Apodemus species groups as well as speciation within each group in East Asia. For example, increased centromeric heterochromatin in A. latronum may have contributed to the post-mating reproductive isolation from the A. draco-A. ilex-A. semotus clade.     

Effect of chemical and pharmacological agents on the secretory activity induced by Escherichia coli heat-stable enterotoxin

The effect of aspirin (ASP), chlorpromazine (CPZ), diphenoxylate (DP), ethylene glycol tetraacetate (EGTA), hydrocortisone (HC), loperamide (LPA), methylprednisolone (MP), phenotolamine mesylate (PTM), propranolol (PR), and trifluoperazine (TPZ) on the secretory activity induced by Escherichia coli heat-stable (ST) enterotoxin in infant mice was studied. LPA and DP, which are used therapeutically for diarrhea, did not inhibit the effect of ST enterotoxin; MP and HC, known inhibitors of cholera enterotoxin, and two adrenergic agents (PR and PTM) had no effect on ST-induced secretory activity. TPZ, EGTA, ASP, and CPZ caused a significant (P less than 0.05) decrease in the secretory activity induced by ST enterotoxin, CPZ, EGTA, and TPZ inhibited secretory activity induced by 8-bromoguanosine 3'5'-cyclic monophosphoric acid (8-BrcGMP), a cGMP analog.     

Antipsychotic drugs block LSD-induced disaggregation of brain polysomes.

Intravenous injection of LSD at 10, 25 and 100 μg/kg to young rabbits induces brain specific disaggregation of polysomes to monosomes. Polysomes in the cerebral hemispheres, cerebellum and remaining brain stem are affected. Neurotransmitter receptors are involved since prior injection of the receptor blockers haloperidol, chlorpromazine, propranolol, phentolamine, or pizotyline prevent drug-induced polysome shift. Depression of neuronal activity with sedative levels of ethanol or pentobarbital also eliminates polysome disaggregation.     

Chromosomal evolution in the African Arvicanthine rats (Murinae, Rodentia): comparative cytogenetics of Lemniscomys (L. zebra, L. rosalia, L. striatus) and Arvicanthis dembeensis

Chromosomenevolution bei den afrikanischen arvicanthinen Ratten (Murinae, Rodentia): Vergleichende Cytogenetik von Lemniscomys (L. zebra, L. rosalia, L. striatus) und Arvicanthus dembeensis
Chromosomenbänderungsanalysen (G- und C- Bänderung) wurden an zwei Arten von Lemniscomys ( L. zebra, L. rosalia ) und einer dritten Art aus Benin ( L. striatus ) durchgeführt, um den Verlauf der Chromosomenevolution in dieser Gattung zu verfolgen. Ein Mustervergleich mit der G-Bänderung macht es möglich, die Umstrukturierung der Chromosomen der Karyotypen zu erkennen. Die beiden Arten aus Tansania ( L. rosalia 2n=54, FNa=62; und L. zebra 2n=54, FNa=58) sind durch zwei perizentrische Inversionen voneinander unterschieden. Ein Polymorphismus für das X-Chromosom findet sich in beiden Arten. L. rosalia zeigt außerdem zwei verschiedene Formen des Y-Chromosoms. Das Bänderungsmuster von L. striatus (2n=44, FNa=68) aus Benin läßt im Vergleich zu L. zebra fünf Robertsonsche Fusionen erkennen. Außerdem ist der Karyotyp von L. rosalia aus Tansania verschieden von dem der für Südafrika (2n=48, FNa=62) beschrieben wurde und sollte daher als eine eigene Art betrachtet werden. Eine vergleichende Bänderungsanalyse mit einer anderen arvicanthinen Art ( Arvicanthus dembeensis, 2n=62, FNa=62) zeigt zwischen den beiden Gattungen eine vollständige Homologie in den G-Banden und die Unterschiede beruhen ausschließlich auf Tandem-Fusionen, perizentrischen Inversionen und Robertsonschen Fusionen.     

Further studies on F1-ATPase inhibition by local anesthetics

We have measured the inhibitory potencies of several local anesthetics (procaine, lidocaine, tetracaine and dibucaine) and related compounds (chlorpromazine, procainamide and propranolol) on the ATPase activities of bovine heart submitochondrial particles and purified F1 extracted from these particles. All of these agents cause inhibition of ATPase in F1 as well as in submitochondrial particles. A linear relationship is found between the log of the octanol/water partition coefficients and the log of the concentrations required for 50% inhibition of F1. Sedimentation velocity ultracentrifugation and polyacrylamide gel electrophoresis showed that 1.0 mM tetracaine caused partial dissociation of the F1 complex. Complete reversibility of the enzyme inhibitory effects was demonstrated, however. This work shows that local anesthetics can affect protein structure and enzyme activity without the mediation of lipid.     

Karyotype of the rare Johnston’s genet<Emphasis Type="Italic">Genetta johnstoni</Emphasis> (Viverridae) and a reassessment of chromosomal characterization among congeneric species

We present herein new data on karyotypes of members of the genusGenetta. G- and C-banded chromosomes of the Johnston’s genetGenetta johnstoni Pocock, 1908 (2n = 50 / FNa = 92) are described for the first time, and compared with those ofG. genetta (2n = 54 / FNa = 92). In addition, the standard karyotype ofG. maculata (2n = 52 / FNa = 96) was studied. A reassessment of taxonomic attribution of previously published material allowed us to characterize (2n, FNa, and chromosome morphology) the karyotypes of three genets, previously unknown (G. pardina, G. letabae andG. tigrina). Our results show that despite a rather low interspecific variability in 2n and FNa, all the species of genets (exceptG. pardina andG. maculata) appear differentiated when chromosomal morphology is taken into account. Although chromosomal banding data are limited, confrontation of G-band karyotypes with preliminary molecular phylogenetic results reveals that karyotypic evolution within the genusGenetta might involve various rearrangements like Robertsonian and tandem translocations, pericentric inversions, and centromere fissions; thus providing at least for some taxa a solid postzygotic isolation. Finally, our study suggests that cytogenetic analyses might constitute a useful tool for questioning interspecific boundaries, especially within the taxonomically debated complex of large-spotted genets.     

CTP:phosphocholine cytidylyltransferase in intestinal mucosa

CTP:phosphocholine cytidylyltransferase is thought to be a rate-limiting enzyme in phosphatidylcholine synthesis. This enzyme has not been well studied in intestine. We found that activity was greater in the non-lipid stimulated state (cytosolic form of the enzyme) than any previous tissue investigated (2.7 nM/min per mg protein). On addition of lysophosphatidylethanolamine, the enzyme only increased in activity 2.4-fold which is less than any previously reported tissue on lipid stimulation. As compared to liver, the enzyme was resistant to inhibition by chlorpromazine (gut, 100% activity remaining at 80 microM; 14% in liver). Tetracaine and propranolol were found to be impotent as inhibitors of the intestinal enzyme. Octanol-water partitioning showed that both chlorpromazine and tetracaine were hydrophobic, propranolol was not. pKa studies demonstrated that at the reaction pH, chlorpromazine would be uncharged. Physiologic experiments in which de novo phosphatidylcholine synthesis was either stimulated by bile duct fistulization and triacylglycerol infusion or suppressed by including phosphatidylcholine in a lipid infusion demonstrated that the enzyme (cytosolic enzyme) responded by decreasing Vmax but that the Km remained the same. In sum, these studies suggest that CTP:phosphocholine cytidylyltransferase in intestine is unique as compared to other tissues and that its response to a physiological stimulus is counter to that which would be adaptive.     

Stimulatory and inhibitory effects of dimethylsulfoxide, propranolol and chlorpromazine on the partial reactions of ATPase of sarcoplasmic reticulum.

The effects of dimethylsulfoxide, propranolol and chlorpromazine on the partial reactions of the ATPase of sarcoplasmic reticulum were investigated. When analyzed according to a reaction scheme in which the ADP-sensitive (E1P) and ADP-insensitive (E2P) phosphoenzymes occur sequentially and P1 is derived from the latter, dimethylsulfoxide decreased the rate of E2P hydrolysis whereas it stimulated the rate of the E1P to E2P conversion. Propranolol increased the rate of E2P hydrolysis while it decreased the rate of the E1P to E2P conversion. Propranolol exerted an additional effect, presumably inhibition of the phosphoenzyme formation. These effects of dimethylsulfoxide and propranolol can account for both the stimulatory and inhibitory effects of these drugs on the overall rate of ATP hydrolysis observed in the presence and absence of added alkali metal salts. Chlorpromazine accelerated E2P hydrolysis whereas it appeared to inhibit the E1P to E2P conversion. These effects of chlorpromazine appear able to account for its stimulatory and inhibitory effects on the overall rate of ATP hydrolysis in the presence and absence of alkali metal salts. In the presence of chlorpromazine, however, the rate of Pi liberation during the steady state ATP hydrolysis was found to be greater than the hydrolysis rate of E2P. This finding suggests that under these conditions Pi is derived not only from E2P but also from source(s) other than E2P.     

Further studies on F1-ATPase inhibition by local anesthetics

We have measured the inhibitory potencies of several local anesthetics (procaine, lidocaine, tetracaine and dibucaine) and related compounds (chlorpromazine, procainamide and propranolol) on the ATPase activities of bovine heart submitochondrial particles and purified F₁ extracted from these particles. All of these agents cause inhibition of ATPase in F₁ as well as in submitochondrial particles. A linear relationship is found between the log of the octanol/water partition coefficients and the log of the concentrations required for 50% inhibition of F₁. Sedimentation velocity ultracentrifugation and polyacrylamide gel electrophoresis showed that 1.0 mM tetracaine caused partial dissociation of the F₁ complex. Complete reversibility of the enzyme inhibitory effects was demonstrated, however. This work shows that local anesthetics can affect protein structure and enzyme activity without the mediation of lipid.     

Comparative studies on the membrane actions of depressant drugs: the role of lipophilicity in inhibition of brain sodium and potassium-stimulated ATPase.

Depressant drugs are considered to exert their pharmacological effects as a result of membrane interactions determined by their physico-chemical properties. In this study, a correlation was found between lipid solubility and potency of various local anaesthetics, antihistamines, tricyclic antidepressants and phenothiazine tranquilizers as inhibitors of the Na, K-ATPase activity of a microsomal membrane fraction from bovine brain cortex. Depressant drugs such as chlorpromazine, which have the greatest lipid solubilities, were competitive inhibitors of Na activation but noncompetitive toward K activation, whereas drugs such as tetracaine with lower lipid solubilities were competitive inhibitors of K activation but noncompetitive toward Na activation. Drugs with intermediate lipid solubilities were mixed competitive-noncompetitive inhibitors of both Na and K activation. Both chlorpromazine and tetracaine competitively inhibited cation activation by a heterotropic allosteric mechanism, probably mediated through membrane conformational changes. Whereas quaternization or a decrease in the incubation pH interfered with the ability of chlorpromazine to inhibit Na activation in a competitive fashion, these changes did not affect the ability of tetracaine to compete with K activation. In addition Mn, Ca and phosphatidyl serine were very effective non-competitive antagonists of chlorpromazine inhibition of Na, K-ATPase, whereas these agents competitively antagonized tetracaine inhibition to a lesser extent. These data suggest that the more lipid soluble phenothiazines penetrate into and react in hydrophobic areas of the membrane microenvironment, resulting in a membrane perturbation which interferes with Na activation. On the other hand the less lipid soluble local anaesthetics probably act at superficial sites near the membrane surface, resulting in a different membrane perturbation which interferes with the K activation mechanism. It is suggested that lipid solubility may be a significant factor in determining selectivity in the membrane interactions of various pharmacological agents and hence differences in pharmacological activity among different classes of depressant drugs.     

Stimulatory and inhibitory effects of dimethylsulfoxide, propranolol and chlorpromazine on the partial reactions of ATPase of sarcoplasmic reticulum

The effects of dimethylsulfoxide, propranolol and chlorpromazine on the partial reactions of the ATPase of sarcoplasmic reticulum were investigated. When analyzed according to a reaction scheme in which the ADP-sensitive (E₁P) and ADP-insensitive (E₂P) phosphoenzymes occur sequentially and P_i is derived from the latter, dimethylsulfoxide decreased the rate of E₂P hydrolysis whereas it stimulated the rate of the E₁P to E₂P conversion. Propranolol increased the rate of E₂P hydrolysis while it decreased the rate of the E₁P to E₂P conversion. Propranolol exerted an additional effect, presumably inhibition of the phosphoenzyme formation. These effects of dimethylsulfoxide and propranolol can account for both the stimulatory and inhibitory effects of these drugs on the overall rate of ATP hydrolysis observed in the presence and absence of added alkali metal salts.

Chlorpromazine accelerated E₂P hydrolysis whereas it appeared to inhibit the E₁P to E₂P conversion. These effects of chlorpromazine appear able to account for its stimulatory and inhibitory effects on the overall rate of ATP hydrolysis in the presence and absence of alkali metal salts. In the presence of chlorpromazine, however, the rate of P_i liberation during the steady state ATP hydrolysis was found to be greater than the hydrolysis rate of E₂P. This finding suggests that under these conditions P_i is derived not only from E₂P but also from source(s) other than E₂P.