Taurine activation of a bicarbonate-dependent,ATP-supported calcium uptake in frog rod outer segments

Isolated frog rod outer segments (ROS) with a leaky plasma membrane showed a bicarbonate-dependent, ATP-activated⁴⁵Ca accumulation. This calcium uptake requires magnesium and is specific for ATP; Other nucleotides, ITP, GTP, UTP and the non-hydrolysable analogue of ATP --methylene ATP did not substitute for ATP.⁴⁵Ca accumulation was inhibited by mersalyl, ethylmaleimide, ruthenium red, oligomycin and dicyclohexylcarbodiimide and was unaffected by ouabain. Addition of taurine to the incubation medium enhanced⁴⁵Ca uptake in a concentration-dependent manner; increases of more than 100% being produced by 25 mM taurine. The taurine-induced stimulation of⁴⁵Ca uptake was also sensitive to the tested inhibitors. The effect of taurine was only exerted on the bicarbonate-dependent, ATP-activated⁴⁵Ca uptake. Calcium accumulation observed in the absence of ATP or in a tris-buffered medium was unaffected by taurine. Other amino acids, glycine, GABA, -alanine, glutamic acid and the taurine analogue guanidinoethyl-sulfonate did not stimulate⁴⁵Ca uptake. These results suggest that taurine is affecting a Mg-ATPase activity responsible for calcium accumulation in frog ROS.     

Calcium and pancreatic β-cell function: 4. Evidence that glucose and phosphate stimulate calcium-45 incorporation into different intracellular pools

β-Cell-rich pancreatic islets were microdissected from ob/ob-mice and used for studies of ⁴⁵Ca uptake and washout. Irrespective of whether the experiments were performed at 21 or 37°C both glucose and phosphate stimulated the net uptake of lanthanum-nondisplaceable ⁴⁵Ca. The stimulatory effect of phosphate was additive to that produced by glucose. ⁴⁵Ca incorporated in response to phosphate differed from that taken up in the presence of 20 mM glucose in being easily washed out although it was not affected by the glucose concentration of the washing medium. The efflux of ⁴⁵Ca was reduced after introducing phosphate into a medium used to perifuse islets which had accumulated ⁴⁵Ca in response to 20 mM glucose. This suggests that the outward calcium transport can be influenced also by intracellular trapping of the cation. The glucose-stimulated insulin release was inhibited by phosphate; an effect reversed by the phosphodiesterase inhibitor 3-isobutyl-1-methylxanthine. It is concluded that a common effect of glucose and phosphate is to trap calcium in the pancreatic β-cells but that there are fundamental differences between their effects on intracellular distribution of calcium and on insulin release.     

Movement of calcium through artificial lipid membranes and the effects of ionophores

The calcium efflux from multi-layered vesicles (liposomes) of different lipid composition has been studied. Liposomes composed of lipids extracted from cattle retinas are compared with liposomes which consist of phosphatidylcholine or a 1 : 1 phosphatidylcholine/phosphatidylserine mixture. The percentages of ⁴⁵Ca capture by these three types of liposomes are 10, 1 and 4% respectively.The efflux rates are 2.5 · 10^?6, 2 · 10^?6 and 4 · 10^?5 s^?1 respectively. The semilogarithmic efflux curves for phosphatidylcholine and phosphatidylcholine/phosphatidylserine liposomes are linear with time, but those for the retinal lipid liposomes are discontinuous. The activation energy for the calcium efflux from the latter liposomes is about 10.5 kcal/mol, both before and after the discontinuity.The ionophores X537A and A23187 enhance the calcium leakage from retinal lipid liposomes, the latter ionophore being much more effective than the former. At high concentrations both ionophores seem to transport calcium as a 1 : 2Ca · ionophore complex. At low ionophore concentrations, however, X537A appears to transport calcium as a 1 : 1 complex, but A23187 as a 2 : 1 complex.     

Regulation of calcium fluxes in rat pancreatic islets: Quinine mimics the dual effect of glucose on calcium movements

The effects of quinine and 9-aminoacridine, two blockers of potassium conductance in islet cells, on ⁴⁵Ca efflux and insulin release from perifused islets were investigated in order to elucidate the mechanisms by which glucose initially reduces ⁴⁵Ca efflux and later stimulates calcium inflow in islet cells. In the absence of glucose, 100 μM quinine stimulated ⁴⁵Ca net uptake, ⁴⁵Ca outflow rate and insulin release. Quinine also dramatically enhanced the cationic and the secretory response to intermediate concentrations of glucose, but had little effect on ⁴⁵Ca net uptake, ⁴⁵Ca fractional outflow rate and insulin release at a high glucose concentration (16.7 mM). The ability of quinine to stimulate ⁴⁵Ca efflux depended on the presence of extracellular calcium, suggesting that it reflects a stimulation of calcium entry in the islet cells. In the absence of extracellular calcium, quinine provoked a sustained decrease in ⁴⁵Ca efflux. Such an inhibitory effect was not additive to that of glucose, and was reduced at low extracellular Na⁺ concentration. At a low concentration (5 μM), quinine, although reducing ⁸⁶Rb efflux from the islets to the same extent as a non-insulinotropic glucose concentration (4.4 mM), failed to inhibit ⁴⁵Ca efflux. In the presence of extracellular calcium, 9-aminoacridine produced an important but transient increase in ⁴⁵Ca outflow rate and insulin release from islets perifused in the absence of glucose. In the absence of extracellular calcium, 9-aminoacridine, however, failed to reduced ⁴⁵Ca efflux from perifused islets. It is concluded that quinine, by reducing K⁺ conductance, reproduces the effect of glucose to activate voltage-sensitive calcium channels and to stimulate the entry of calcium into the B-cell. However, the glucose-induced inhibition of calcium outflow rate, which may also participate in the intracellular accumulation of calcium, does not appear to be mediated by changes in K⁺ conductance.     

Possible involvement of adenylylation in the modification of a 26 kDa protein in rat parotid acinar cells

• 1.1. Adenylylation, a posttranslational modification of proteins, was investigated in saponin-permeabilized acinar cells of the rat parotid gland.
• 2.2. When cells were incubated with [2,8-³H]ATP, several proteins, including a 26 kDa protein in the particulate fraction, were labeled.
• 3.3. Upon incubation of cells with [α-³²P]ATP in the presence of cAMP and 3-isobutyl-lmethylxanthine, ³²P-labeling of the 26 kDa protein was observed.
• 4.4. After treatment with snake venom phosphodiesterase, [³²P]AMP was released from the 26kDa protein. Such release was not observed when cells were labeled with [γ-³²P]ATP.
• 5.5. The ³²P-labeling pattern of proteins with [α-³²P]ATP was clearly different from that with [adenylate-³²P]NAD⁺.
• 6.6. The results suggest that the 26 kDa protein is one of the adenylylation substrates in rat parotid acinar cells.

     

Calcium transport in isolated bone cells. II. Calcium transport studies

Calcium transport was studied in bone cells isolated from fetal rat calvaria. ⁴⁵Ca uptake experiments revealed an active component of calcium exchange. Calcium uptake was inhibited by iodoacetamide, DNP, CCCP and oligomycin and appeared to be dependent on medium phosphate concentration. Initial influx values exhibited saturation kinetics from 0.6 mM to 1.5 mM extracellular calcium. Efflux of ⁴⁵Ca from loaded cells increased in the presence of iodoacetamide, DNP and CCCP. Incubation of the cells af 4° C inhibited both influx and efflux of calcium. Parathyroid hormone had no consistent effect on calcium uptake although characteristic increases in cyclic AMP levels were seen with the hormone. Calcitonin appeared to cause a transient increase in calcium uptake.     

Calcium Transport in Sealed Vesicles from Red Beet (Beta vulgaris L.) Storage Tissue : II. Characterization of Ca Uptake into Plasma Membrane Vesicles

Calcium uptake was examined in sealed plasma membrane vesicles isolated from red beet (Beta vulgaris L.) storage tissue using (45)Ca(2+). Uptake of (45)Ca(2+) by the vesicles was ATP-dependent and radiotracer accumulated by the vesicles could be released by the addition of the calcium ionophore A23187. The uptake was stimulated by gramicidin D but slightly inhibited by carbonylcyanide m-chlorophenylhydrazone. Although the latter result might suggest some degree of indirect coupling of (45)Ca(2+) uptake to ATP utilization via deltamuH(+), no evidence for a secondary H(+)/Ca(2+) antiport in this vesicle system could be found. Following the imposition of an acid-interior pH gradient, proton efflux from the vesicle was not enhanced by the addition of Ca(2+) and an imposed pH gradient could not drive (45)Ca(2+) uptake. Optimal uptake of (45)Ca(2+) occurred broadly between pH 7.0 and 7.5 and the transport was inhibited by orthovanadate, N,N'-dicyclohexylcarbodiimide, and diethylstilbestrol but insensitive to nitrate and azide. The dependence of (45)Ca(2+) uptake on both calcium and Mg:ATP concentration demonstrated saturation kinetics with K(m) values of 6 micromolar and 0.37 millimolar, respectively. While ATP was the preferred substrate for driving (45)Ca(2+) uptake, GTP could drive transport at about 50% of the level observed for ATP. The results of this study demonstrate the presence of a unique primary calcium transport system associated with the plasma membrane which could drive calcium efflux from the plant cell.     

Biochemical aspects of the visual process. XXXVI. Calcium accumulation in cattle rod outer segments: Evidence for a calcium-sodium exchange carrier in the rod sac membrane

Accumulation of calcium has been studied in bovine rod outer segments (rods), isolated by sucrose density gradient centrifugation. Calcium-depleted rods are obtained by having ethyleneglycol-bis-(β-aminoethylether)-N,N′-tetraacetic acid (EGTA) present during isolation.Rods thus isolated have a leaky plasma membrane, as shown by the effects of ionophore A23187 and by their light-induced phosphorylation behaviour. The accumulation of ⁴⁵Ca, determined by incubation followed by a single fast washing-filtration procedure, thus represents translocation across the rod sac membrane.Accumulation in non-depleted rods is independent of the external calcium level and of ATP, suggesting exchange of ⁴⁰Ca by ⁴⁵Ca. In depleted rods in the presence of ATP there is net uptake, sigmoidally increasing with the external calcium concentration to the level attained in non-depleted rods. This net uptake is abolished by omission of ATP, its replacement by β,γ-methylene ATP and lowering the temperature to 0° C, suggesting involvement of enzymatic hydrolysis of ATP.Replacement of KCl by NaCl in the medium causes marked inhibition of ⁴⁵Ca uptake, both net uptake and exchange. Oligomycin, ruthenium red, lanthanum and ouabain do not inhibit accumulation.Efflux of ⁴⁵Ca from pre-loaded rods is slow in a KCl medium ($\text{t}{}_{\mathrm{<mtext>1</mtext><mtext>2</mtext>}}\text{～30}\text{min}$ at 25° C), but is greatly accelerated by addition of NaCl or Ca²⁺ ($\text{t}{}_{\mathrm{<mtext>1</mtext><mtext>2</mtext>}}\text{10}\text{s}$ at 25°C).It is concluded that the rod sac membrane contains a carrier system, which is sensitive towards Ca²⁺ and Na⁺ and which requires ATP for net uptake of Ca²⁺ but not for exchange transport of Ca²⁺ with Ca²⁺ or Na⁺.     

Uptake and release of 45Ca by brain microsomes, synaptosomes and synaptic vesicles

Abstract— Microsomes and synaptosomes from rat brain accumulated ^4,5Ca against a concentration gradient by an ATP-dependent process. Calcium accumulation occurred to the same extent in microsomes prepared from white matter and from grey matter, an observation suggesting that calcium uptake may be in part an activity of the axonal membrane. Microsomes and synaptosomes accumulated calcium to a similar extent but less actively than mitochondria. By contrast, synaptic vesicles showed relatively little calcium accumulation. Isotonic concentrations of sucrose, NaCl, KCl and choline chloride inhibited calcium accumulation, with NaCl and KCl the least effective of these inhibitory agents. No consistent effects on calcium uptake were obtained with adenosine 3′,5′-monophosphate, dibutyryl cyclic AMP or the methyl xanthines. Incubation of prelabelled microsomes resulted in a release of ⁴⁵Ca, and ATP inhibited this release process. In the absence of added ATP, isotonic NaCl promoted calcium release to a significantly greater extent than KCl choline chloride or sucrose. In the presence of ATP, these agents all promoted a similar degree of release. Adenosine 3′,5′-monophosphate or agents that affect its metabolism did not significantly affect calcium release. Magnesium ions reduced calcium release under all conditions tested.     

Reverse NaCa exchange requires internal Ca and/or ATP in squid axons

Classical NaCa exchange models are based on a symmetric carrier system where Na and Ca competing from the same site, can produce net movement of the other against its electrochemical gradient. We have explored this symmetric assumption by studying the Ca_o and Na_o-dependent Na efflux in dialyzed squid axons in which proper control of both external and internal medium was achieved. The results show: (1) In axons dialyzed without Ca_i and ATP, Ca_o-dependent Na efflux cannot be detected even in the absence of Na_o. Under these conditions, the level of Na efflux (1 pmol · cm⁻² · s⁻¹) is close to that predicted by an electrical ‘leak’. (2) In axons dialyzed with Ca_i (100 μM) and without ATP, Na efflux measured in 440 mM Na_o, is about 4–5 pmol · cm⁻² · s⁻¹ and rather insensitive to Ca_o between 0 and 10 mM. However, in the absence of Na_o, a Ca_o-dependent Na efflux is observed similar in magnitude to that found in the presence of external Na. (3) In the presence of both Ca_i and ATP, Na efflux into artificial sea-water (440 mM Na, 10 mM Ca) is 18 pmol · cm⁻² · s⁻¹. In the absence of Na_o the efflux of Na is 7.5 pmol · cm⁻² · s⁻¹. In the absence of both Na_o and Ca_o the efflux is close to ‘leak’. With full Na_o but no Ca_o, the Na efflux average 12.6 pmol · cm⁻² · s⁻¹. These results indicate a marked asymmetry in the modus operandi of the NaCa exchange system with respect to Ca_i and ATP. These two substrates are required from the cis side to promote Ca_o-dependent Na efflux (reversal NaCa exchange).     

Effects of aluminium and pH on calcium fluxes,and effects of cadmium and manganese on calcium and sodium fluxes in brown trout (Salmo trutta L.)

• 1.1. Simultaneous measurement of calcium fluxes in brown trout, at low external [Ca] (20 μ mol 1⁻¹), provided evidence of active uptake of Ca from the medium.
• 2.2. At pH 4.5, calcium influx was inhibited and efflux was stimulated.
• 3.3. Cd and Mn, but not Al, at concentrations within the ranges found in acid waters experiencing fish population decline, inhibited calcium influx. Efflux was unaffected.
• 4.4. Cd and Mn stimulated sodium influx and efflux.

     

Studies on the Ca2+ transport mechanism of human erythrocyte inside-out plasma membrane vesicles V. Chlortetracycline fluorescence

The measurement of chlortetracycline fluorescence was employed as a probe for measuring the process to calcium transport by human erythrocyte inside-out vesicles. Chlortetracycline is a divalent metal chelator which increases its fluorrescence when bound to calcium in the presence of a membrane. Addition of calcium and ATP to inside out vesicles in the presence of chlortetracycline increased the chlortetracycline fluorescence as a function of time following an initial delay. Only after a threshold level of calcium had been accumulated did the fluorescence increase. The presence of both ATP and calcium were required. The addition of calmodulin increased the rate and absolute magnitude of the chlortetracycline fluorescence change. Similarly, calmodulin stimulated the rate and extent of ⁴⁵Ca transport by inside-out vesicles. Moreover, the presence of saponin abolished both chlortetracycline fluorescence change and ⁴⁵Ca uptake; a non-hydrolyzable ATP analog would not substitute for ATP in either ⁴⁵Ca transport or chlortetracycline fluorescence experiments. Comparison between the slopes of the linear portions of chlortetracycline fluorescence change and calcium transport time courses at varied free calcium concentrations showed a consistent ratio between the slopes. This suggests that calcium transport change can be calibrated by employing chlortetracycline fluorescence. Based on this data, it is concluded that chlortetracycline fluorescence is a rapid and accurate method for monitoring calcium transport by human erythrocyte inside-out vesicles.     

CALCIUM CONTENT AND EXCHANGE IN NEOCORTICAL TISSUES DURING THE CATION MOVEMENTS INDUCED BY GLUTAMATES

Abstract—

• 1 Guinea pig neocortical tissues incubated in glucose-bicarbonate media reached stable calcium contents of 2 μat./g of which 0-35 μat.Ca/g was in a space accessible to inulin.
• 2 Addition of l -glutamate salts caused a prompt increase in intracellular calcium at rates up to 7 μat./g tissue/hr.
• 3 Using ⁴⁵Ca, this increase was found to be due to an accelerated influx of Ca and a diminished efflux. The rate of influx could be doubled by 1 mm-l -glutamate.
• 4 Tetrodotoxin at concentrations of 66-330 nM diminished ⁴⁵Ca entry, both in the absence and presence of added glutamate.
• 5 Tissue sodium and potassium contents are also reported under some conditions, and the extent to which calcium may condition sodium and potassium movements is discussed.

     

Targeting of auxin carriers to the plasma membrane: differential effects of brefeldin A on the traffic of auxin uptake and efflux carriers

Monensin and brefeldin A (BFA), inhibitors of Golgi-mediated protein secretion, rapidly perturb the transport catalytic activity of specific plasma membrane-associated efflux carriers for indole-3-acetic acid (IAA) and inhibit polar transport of IAA. To determine if these responses result solely from perturbation of the efflux carrier or whether specific auxin uptake carrier function is also affected, the influence of BFA on the cellular transport of a range of auxins with contrasting affinities for specific auxin uptake and efflux carriers was investigated in zucchini (Cucurbita pepo L.) hypocotyl tissue. In-flight addition of BFA (3 · 10⁻⁵ mol · dm⁻³) caused a rapid (lag < 10 min) and substantial (fourfold) increase in the rate of [1-¹⁴C]IAA net uptake by zucchini hypocotyl tissue. In the presence of the specific auxin efflux carrier inhibitor N-1-naphthylphthalamic acid (NPA; 3 · 10⁻⁶ mol · dm⁻³), BFA slightly reduced the rate of [1-¹⁴C]IAA net uptake. Stimulation of [1-¹⁴C]IAA net uptake by BFA was concentration-dependent. In the absence of BFA, net uptake of [1-¹⁴C]IAA exhibited the characteristic biphasic response to increasing concentrations of competing cold IAA but in the presence of BFA, [1-¹⁴C]IAA uptake decreased smoothly with increase in concentration of competing unlabelled IAA, indicating a loss of auxin efflux carrier activity but retention of functional uptake carriers. The half-time for mediated efflux of [1-¹⁴C]IAA from preloaded zucchini tissue was substantially increased by BFA (t_1/2 = 51 min, controls; 107 min, BFA-treated). Treatment with BFA and/or NPA did not significantly affect the net uptake by, or efflux from, zucchini tissue of [1-¹⁴C]2,4-dichlorophenoxyacetic acid ([1-¹⁴C]2,4-D), a substrate for the auxin uptake carrier but not the auxin efflux carrier. Uptake of [1-¹⁴C]2,4-D declined smoothly with increasing concentrations of competing unlabelled IAA whether or not BFA was included in the uptake medium, confirming the failure of BFA to perturb auxin uptake carrier function. Transport of 1-[4-³H]naphthaleneacetic acid (1-NAA) exhibited little response to BFA or NPA, confirming that it is only a weakly transported substrate for the efflux carrier in zucchini cells. Received: 12 November 1997 / Accepted: 27 January 1998     

Effect of lanthanum on 45Ca flux and secretion of protein from rat exocrine pancreas

The relationship between calcium flux and secretion of protein from rat exocrine pancreas was studied. The trivalent cation La³⁺ was used to measure ⁴⁵Ca uptake. Carbachol increased the uptake of ⁴⁵Ca into the tissue prior to onset of secretion of α-amylase. La³⁺ inhibited ⁴⁵Ca uptake in carbachol-stimulated tissue, and also inhibited secretion of protein from the pancreas. Carbachol increased the rate of efflux of ⁴⁵Ca from the pancreas independently of the presence or absence of La³⁺. In the presence of La³⁺, however, the net loss of ⁴⁵Ca from the tissue was reduced. The data suggest that La³⁺ inhibits ⁴⁵Ca influx into the pancreas and may additionally displace intracellular calcium.     

Size of the inositol 1,4,5-trisphosphate-sensitive calcium pool in guinea-pig hepatocytes.

Permeabilized hepatocytes accumulated 45Ca2+ into a non-mitochondrial pool when provided with ATP. 45Ca2+ efflux from this pool was revealed by removal of ATP with glucose and hexokinase or by inhibiting uptake with NaVO3. The effect of inositol 1,4,5-trisphosphate (IP3) on 45Ca2+ efflux from the pool was investigated. IP3 (5 microM) evoked a rapid increase in the rate of 45Ca2+ efflux. Kinetic analysis of the effect of IP3 indicated the existence of two distinct Ca2+ fractions within the pool; only one, accounting for about one-third of the ATP-dependent Ca2+ content of the pool, was responsive to IP3. The effect of IP3 on 45Ca2+ efflux from the non-mitochondrial pool does not require ATP, a finding that is inconsistent with a previous suggestion that this effect may be mediated by protein phosphorylation.     

Regulation of calcium fluxes in rat pancreatic islets: Calcium extrusion by sodium-calcium countertransport

Summary The mechanisms by which glucose regulates calcium fluxes in pancreatic endocrine cells were investigated by monitoring the efflux of⁴⁵Ca from prelabeled and perifused rat pancreatic islets. In the absence of both extracellular calcium and glucose, partial or total removal of extracellular sodium decreases the efflux of⁴⁵Ca from prelabeled islets. Glucose also reduces the efflux of⁴⁵Ca from islets perifused in the absence of extracellular calcium. This inhibitory effect of glucose on⁴⁵Ca efflux is decreased by half when the extracellular concentration of sodium is lowered to 24mm. In the absence of extracellular calcium but presence of glucose, partial or even total removal of extracellular sodium fails to decrease the efflux of⁴⁵Ca. At normal extracellular calcium concentration (1mm) partial removal of extracellular sodium dramatically increases⁴⁵Ca efflux from pancreatic islets. This increase in⁴⁵Ca efflux is partially but not totally suppressed by either 16.7mm glucose or cobalt. It is totally suppressed by 4.4mm glucose or by the combination of 16.7mm glucose and cobalt. At normal extracellular calcium concentration, glucose initially reduces and subsequently increases⁴⁵Ca efflux. The initial fall is unaffected by tetrodotoxin but decreased by 50% at low extracellular sodium concentration (24mm). The present results suggest the existence in pancreatic endocrine cells of a glucose-sensitive process of sodium-calcium counter-transport. By inhibiting such a process, glucose may decrease the efflux of calcium from islet cells. The effect of glucose is not mediated by an increase in intracellular sodium concentration. It could contribute to the intracellular accumulation of calcium which is thought to trigger insulin release.This paper is the IVth in a series.     

Calcium Efflux from Internally Dialyzed Squid Giant Axons

Calcium efflux has been studied in squid giant axons under conditions in which the internal composition was controlled by means of a dialysis perfusion technique. The mean calcium efflux from axons dialyzed with 0.3 µM calcium and 5 mM ATP was 0.26 pmol/cm²·s at 22°C. The curve relating the Ca efflux with the internal Ca concentration had a slope of about one for [Ca]_i lower than 0.3µM and a slope smaller than one for higher concentrations. Under the above conditions replacement of [Na]_o and [Ca]_o by Tris and Mg causes an 80% fall in the calcium efflux. When the axons were dialyzed with a medium free of ATP and containing 2 mM cyanide plus 5µg/ml oligomycin, analysis of the perfusion effluent gave values of 1–4 µM ATP. Under this low ATP condition, replacement of external sodium and calcium causes the same drop in the calcium efflux. The same effect was observed at higher [Ca]_i, (80 µM). These results suggest that the Na-Ca exchange component of the calcium efflux is apparently not dependent on the amounts of ATP in the axoplasm. Axons previously depleted of ATP show a significant transient drop in the calcium efflux when ATP is added to the dialysis medium. This effect probably represents the sequestering of calcium by the mitochondrial system. The consumption of calcium by the mitochondria of the axoplasm in dialyzed axons was determined to be of the order of 6.0 x 10^-7 mol Ca⁺⁺/mg of protein with an initial rate of 2.6 x 10^-8 mol Ca⁺⁺/min·mg of protein. Axons dialyzed with 2 mM cyanide after 8–10-min delays show a rise in the calcium efflux in the presence of "normal" amounts of exogenous ATP. This effect seems to indicate that cyanide, per se, can release calcium ions from internal sources.     

A rapid method for the measurement of [γ-32P]ATP specific radioactivity in tissue extracts and its application to the study of 32Pi uptake in perfused rat heart

(i) A new, rapid method for the measurement of [γ-³²P]ATP specific radioactivity in tissue extracts in the presence of other ³²P-containing compounds is described. The deproteinized extract is incubated with phosphorylase b and phosphorylase kinase, and the incorporation of ³²P into protein from [γ-³²P]ATP is measured by precipitation on filter paper in trichloroacetic acid. No separation of ATP or other treatment of the extracts is required for the assay. (ii) ³²P_i uptake in perfused rat heart was found to be a relatively slow process, with a K_m of 0.084 mm, whereas equilibration between intracellular ³²P_i and [γ-³²P]ATP occurred rapidly.     

Active calcium ion uptake by inside-out and right side-out vesicles of red blood cell membranes

The relationship between active extrusion of Ca⁺⁺ from red cell ghosts and active uptake of Ca⁺⁺ by isolated red cell membrane fragments was investigated by studying the Ca⁺⁺ uptake activities of inside-out and right side-out vesicles. Preparations A and B which had mainly inside-out and right side-out vesicles, respectively, were isolated from red cell membranes and were compared with respect to Ca⁺⁺ adenosine triphosphatase (ATPase) and ATP-dependent Ca⁺⁺ uptake activities. Preparation A had nearly eight times more inside-out vesicles and took up eight times more ⁴⁵Ca in the presence of ATP compared to preparation B. Separation of the ⁴⁵Ca-labeled membrane vesicles by density gradient centrifugation showed that the ⁴⁵Ca label was localized to the inside-out vesicle fraction. In addition, the ⁴⁵Ca taken up in the presence of ATP was lost during a subsequent incubation in the absence of ATP. The rate of ⁴⁵Ca loss was not influenced by the presence of EGTA, but was slowed in the presence of La⁺⁸ (0.1 mM) in the efflux medium. The results presented here support the thesis that the active uptake of Ca⁺⁺ by red cell membrane fragments is due to the active transport of Ca⁺⁺ into inside-out vesicles.