Neurohormonal regulation of calcium in the cell

Neurohormone C (NC) is a glycopeptide isolated from bovine hypothalamus, which inhibits Ca-calmodulin (CaM)-dependent cAMP and cGMP phosphodiesterase (PDE) and is a regulator of Ca in the cell. Distribution of [⁴⁵Ca]CaCl₂ in the mitochondria and reticulum (SR) of heart and brain mitochondria and changes of Ca-binding proteins in these organelles under NC influence have been studied in the myocardium before and after isoproterenol-induced necrosis. Intraperitoneal administration of 80–100 mU of PDE inhibitory activity of NC to rats did not cause any noticeable changes in the protein content of intracellular organelles, but altered the affinity of certain proteins to⁴⁵Ca²⁺. This property of NC was especially noticable after isoproterenol necrosis. Necrotic injury of the myocardium induced Ca²⁺ storage in the mitochondria and SR of brain, and decreased the Ca²⁺ concentration in myocardial mitochondria. NC injection to the animals with necrosis was followed by Ca²⁺ release from all the studied organelles.     

Cell calcium signalling induced by endogenous lectin carbohydrate interaction in the Jurkat T cell line

The effects of the -galactoside-binding lectin from human placenta (HPL14) on intracellular calcium concentration ([Ca²⁺]_i) were examined in the human Jurkat T cell line. The lectin induces a concentration dependent increase in [Ca²⁺]_i. This calcium signalling effect is clearly mediated through complementary cell surface galactoglycoconjugates because it can be blocked by -galactosides. The observed Ca²⁺-response involves both the release of calcium from intracellular stores and a calcium influx from the extracellular space. It is sustained in the presence of 1 mM extracellular calcium whereas it becomes transient when the influx of extracellular calcium was blocked by calcium chelation to EGTA. Voltage-sensitive calcium channel blockers like verapamil and prenylamine were without effect on the action of HPL14. Protection of the sugar binding activity of HPL14 in the absence of a thiol-reducing reagent by carboxamidomethylation (CM-HPL14) or by substitution Cys2 with serine (C2S) results in lectin proteins with considerably decreased calcium signalling efficiency. The recombinant lectin (Rec H) and the mutant protein obtained by substitution of highly conservative Trp68 with tyrosine (W68Y) induce lower levels of [Ca²⁺]_i compared to wild type lectin.Abbreviation [Ca²⁺]_i concentration of intracytoplasmic free calcium - CM carboxamidomethylation - CRD earbohydrate recognition domain - C2S mutant lectin protein in which Cys2 was replaced by serine - EGTA ethyleneglycol-bis(2-aminoethylether)-N,N,N - N-tetraacetic acid HEPES,N-(2-hydroxyethyl)piperazine-N-2-ethanesulfonic acid - HPL14 human -galactoside-binding placental lectin - Rec H recombinant human 14 kDa lectin - W68Y mutant lectin protein in which Trp68 was substituted to tyrosine     

Comparative studies on [Ca2+]i-level of fibroblasts from Alzheimer patients and control individuals

The accumulation of the -amyloid peptide (AP) in the brain, produced from the ubiquitously expressed amyloid precursor protein (APP) is a defining feature of Alzheimer's disease (AD). Consistent with studies demonstrating the importance of skin biopsy in the diagnosis of neurodegenerative disorders, we investigated whether differences in intracellular free calcium levels ([Ca²⁺]_i) of cultured cutaneous fibroblasts derived from sporadic AD patients and from age-matched control individuals might be present. [Ca²⁺]_i was measured in Fura-2AM-loaded human fibroblasts by dual wavelength spectrofluorimetry. AD cells exhibited lower [Ca²⁺]_i as compared to the control cultures. Exposure of fibroblasts to AP resulted in increased [Ca²⁺]_i of the control cells, but not of AD fibroblasts. Our test could prove useful in supporting the diagnosis of (sporadic) AD in patients suspected of suffering from the disease.     

Amyloid beta-peptide promotes permeability transition pore in brain mitochondria

In this work the effect of the neurotoxic amino acid sequence, A_25–35, on brain mitochondrial permeability transition pore (PTP) was studied. For the purpose, the mitochondrial transmembrane potential (m), mitochondrial respiration and the calcium fluxes were examined. It was observed that A_25–35, in the presence of Ca²⁺, decreased the m, the capacity of brain mitochondria to accumulate calcium and led to a complete uncoupling of the respiration. However, the reverse sequence of the peptide A_25–35 (A_35–25) did not promote the PTP. The alterations promoted by A_35–25 and/or Ca²⁺ could be reversed when Ca²⁺ was removed by EGTA or when ADP plus oligomycin were present. The pre-treatment with CsA or ADP plus oligomycin prevented the m drop and preserved the capacity of mitochondria to accumulate Ca²⁺. These results suggest that A_25–35 can promote the PTP induced by Ca²⁺.     

Homocysteine stimulates the expression of monocyte chemoattractant protein-1 in endothelial cells leading to enhanced monocyte chemotaxis

The effect of intraperitoneal administration of tocopherol (100 mg/kg wt/24 h) on ascorbate (0.4 mM) induced lipid peroxidation of mitochondria and microsomes isolated from rat liver and testis was studied. Special attention was paid to the changes produced on the highly polyunsaturated fatty acids C20:4 n6 and C22:6 n3 in liver and C20:4 n6 and C22:5 n6 in testis. The lipid peroxidation of liver mitochondria or microsomes produced a significant decrease of C20:4 n6 and C22:6 n3 in the control group, whereas changes in the fatty acid composition of the tocopherol treated group were not observed. The light emission was significantly higher in the control than in the tocopherol treated group. The lipid peroxidation of testis microsomes isolated from the tocopherol group produced a significant decrease of C20:4 n6 , C22:5 n6 and C22:6 n3, these changes were not observed in testis mitochondria. The light emission of both groups was similar. The treatment with tocopherol at the dose and times indicated showed a protector effect on the polyunsaturated fatty acids of liver mitochondria, microsomes and testis mitochondria, whereas those fatty acids situated in testis microsomes were not protected during non enzymatic ascorbateFe²⁺ lipid peroxidation. The protector effect observed by tocopherol treatment in the fatty acid composition of rat testis mitochondria but not in microsomes could be explained if we consider that the sum of C20:4 n6 + C22:5 n6 in testis microsomes is 2-fold than that present in mitochondria.     

Effect of transmembrane Ca2+ gradient on the coupling of β-adrenergic receptors and adenylyl cyclase

In order to investigate the effect of transmembrane Ca²⁺ gradient on G_s mediated coupling of -AR and adenylyl cyclase, -AR from duck erythrocytes and G_s and adenylyl cyclase from bovine brain cortices were co-reconstituted into asolectin liposomes with different transmembrane Ca²⁺ gradient. These proteoliposomes were proven to be impermeable to water-soluble substances. The results obtained indicate that a physiological transmembrane Ca^2– gradient (1000-fold) is essential for higher stimulation of adenylyl cyclase by hormone-activated -AR via coupling to G_s and can be further enhanced by the decrease of such Ca²⁺ gradient within certain range (100 fold) following Ca²⁺ influx into cells during signal transduction. Fluorescence polarization of DPH revealed that transmembrane Ca²⁺ gradient modulates adenylyl cyclase and its stimulation by hormones through mediating a change in lipid fluidity. Correspondent conformational changes of -AR were also detected from the fluorescence spectra and quenching of Acrylodan-labelled -AR in those proteoliposomes. It is suggested that a proper transmembrane Ca²⁺ gradient is essential for the optimal fluidity of the phospholipid bilayer in the proteoliposomes, which favors the formation of a suitable conformation of the reconstituted -AR and thus promotes the stimulation of adenylyl cyclase activities by hormone-activated -AR via Gs.Abbreviations ATP adenosine triphosphate - -AR -adrenergic receptors - AC adenylyl cyclase - DHA dihydroalprenolol - DPH diphenylhexatriene - [Ca²⁺]_i Ca²⁺ concentration inside proteoliposomes - [Ca²⁺]_o Ca²⁺ concentration outside proteoliposomes - cAMP cyclic adenosine monophosphate - DTT Dithiothreitol - FS fluorescein sulfonate - G_s Stimulatory GTP-binding protein - GTP guanosine triphosphate - GTPS guanosine 5-O-(3-thiotriphosphate) - kDa kilodalton - SDS sodium dodecyl sulfate - Tris N-tris(hydroxymethyl)aminomethane     

The precursor of the F1β subunit of the ATP synthase is covalently modified upon binding to plant mitochondria

We present evidence for a unique covalent modification of a nuclear-encoded precursor protein targeted to plant mitochondria. We investigated the early events of in vitro import for the mitochondrial precursor of the ATP synthase F₁ subunit from Nicotiana plumbaginifolia (pF₁) into plant mitochondria. When pF₁ of 59 kDa was incubated with mitochondria isolated from different higher-plant species, a band of 61 kDa was generated. The 61 kDa protein was a covalently modified form of the 59 kDa pF₁. The modification was dependent on the 25 amino acid long N-terminal region of the presequence of pF₁. The modification was catalysed by an enzyme located in the outer mitochondrial membrane which was specific for higher plants and could not be washed off from the membrane by urea, KCl or EDTA. The modification was ATP- and Ca²⁺-dependent, but it was not affected by inhibitors of protein kinases. No inhibition of the modification was observed with phosphatase, methylation or acylation inhibitors. The modification occurs prior to translocation through the mitochondrial outer membrane. Inhibition of the modification process does not affect the import of the precursor protein, hence precursor modification was not a prerequisite for import. Both the modified and the unmodified pF₁ proteins were strongly associated with the mitochondrial outer membrane.     

Charybdotoxin-sensitive K(Ca) channel is not involved in glucose-induced electrical activity in pancreatic β-cells

Summary The effects of charybdotoxin (CTX) on single [Ca²⁺] _i -activated potassium channel (K _(Ca)) activity and whole-cell K⁺ currents were examined in rat and mouse pancreatic -cells in culture using the patch-clamp method. The effects of CTX on glucose-induced electrical activity from both cultured -cells and -cells in intact islets were compared. K_(Ca) activity was very infrequent at negative patch potentials (–70<V _m <0 mV), channel activity appearing at highly depolarizedV _m . K_(Ca) open probability at these depolarizedV _m values was insensitive to glucose (10 and 20mm) and the metabolic uncoupler 2,4 dinitrophenol (DNP). However, DNP blocked glucose-evoked action potential firing and reversed glucose-induced inhibition of the activity of K⁺ channels of smaller conductance.The venom fromLeiurus quinquestriatus hebreus (LQV) and highly purified CTX inhibited K_(Ca) channel activity when applied to the outer aspect of the excised membrane patch. CTX (5.8 and 18nm) inhibited channel activity by 50 and 100%, respectively. Whole-cell outward K⁺ currents exhibited an early transient component which was blocked by CTX, and a delayed component which was insensitive to the toxin. The individual spikes evoked by glucose, recorded in the perforated-patch modality, were not affected by CTX (20nm). Moreover, the frequency of slow oscillations in membrane potential, the frequency of action potentials and the rate of repolarization of the action potentials recorded from pancreatic islet -cells in the presence of glucose were not affected by CTX.We conclude that the K_(Ca) does not participate in the steady-state glucose-induced electrical activity in rodent pancreatic islets.     

Influence of temperature on energetics of hydrogen metabolism in homoacetogenic,methanogenic, and other anaerobic bacteria

Hydrogen consumption by various thermophilic, mesophilic and/or psychrotrophic homoacetogens and methanogens was measured at temperatures between 4 and 80°C. Within the tolerated temperature range H₂ was consumed until a final H₂ threshold partial pressure was reached. H₂ thresholds generally decreased with temperature, parallel to the values calculated from the thermodynamics prevailing under culture conditions, i.e. the Gibbs free energy (G) of H₂ oxidation corrected for temperature by both the free-energy form of the Nernst equation and the Van't Hoff equation. The difference between the observed and the calculated H₂ partial pressures gives the minimum energy required for H₂ utilization being about-5 to-6 kJ/mol H₂ for the homoacetogenes and-9 to-12 kJ/mol H₂ for methanogens. The temperature dependence of the standard Gibbs free energy (G⁰) as described by the Van't Hoff equation apparently became the more important for thermodynamics as well as H₂ thresholds the more the temperature deviated from standard conditions (i.e. 25°C). Correction factors for calculation of temperature-corrected G _infT ^sup0 are presented for various H₂-producing and H₂-consuming reactions.     

Modification of β-adrenoceptor signal transduction pathway by genetic manipulation and heart failure

The -adrenoceptor (-AR) mediated signal transduction pathway in cardiomyocytes is known to involve ₁- and ₂-ARs, stimulatory (G_s) and inhibitory (G_i) guanine nucleotide binding proteins, adenylyl cyclase (AC) and cAMP-dependent protein kinase (PKA). The activation of ₁- and ₂-ARs has been shown to increase heart function by increasing Ca²⁺-movements across the sarcolemmal membrane and sarcoplasmic reticulum through the stimulation of G_s-proteins, activation of AC and PKA enzymes and phosphorylation of the target sites. The activation of PKA has also been reported to increase phosphorylation of some myofibrillar proteins (for promoting cardiac relaxation) and nuclear proteins (for cardiac hypertrophy). The activation of ₂-AR has also been shown to affect G_i-proteins, stimulate mitogen activated protein kinase and increase protein synthesis by enhancing gene expression. ₁- and ₂-ARs as well as AC are considered to be regulated by PKA- and protein kinase C (PKC)-mediated phosphorylations directly; both PKA and PKC also regulate -AR indirectly through the involvement of -AR kinase (ARK), -arrestins and G-protein subunits. Genetic manipulation of different components and regulators of -AR signal transduction pathway by employing transgenic and knockout mouse models has provided insight into their functional and regulatory characteristics in cardiomyocytes. The genetic studies have also helped in understanding the pathophysiological role of ARK in heart dysfunction and therapeutic role of ARK inhibitors in the treatment of heart failure. Varying degrees of defects in the -AR signal transduction system have been identified in different types of heart failure to explain the attenuated response of the failing heart to sympathetic stimulation or catecholamine infusion. A decrease in ₁-AR density, an increase in the level of G_i-proteins and overexpression of ARK are usually associated with heart failure; however, these attenuations have been shown to be dependent upon the type and stage of heart failure as well as region of the heart. Both local and circulating renin-angiotensin systems, sympathetic nervous system and endothelial cell function appears to regulate the status of -AR signal transduction pathway in the failing heart. Thus different components and regulators of the -AR signal transduction pathway appears to represent important targets for the development of therapeutic interventions for the treatment of heart failure.     

Intracellular calcium activity in split frog skin epithelium: Effect of cAMP

Summary Measurement of intracellular calcium activity (a _Ca ^c ) by ion-selective microelectrodes has previously been technically limited to relatively large cells (20 m). We now report results obtained with this technique in the small epithelial cells (10 m) of split frog skin using microelectrodes having an outer tip diameter of <0.2 m. The basolateral membrane potential was measured with Ca²⁺-selective microelectrodes (E _Ca ^sc ) and with reference micropipettes ( ^sc ) either sequentially or simultaneously in 15 successful experiments. Under baseline conditions,a _Ca ^c was measured to be 215±39nm (mean±se), in close agreement with the mean values estimated from published data obtained withNecturus proximal tubule. Stimulation of Na⁺ transport across six skins with 1mm serosal 8p-chlorophenylthio-3,5 cyclic AMP (CPTcAMP) increaseda _Ca ^c by a factor of 2.6±0.6. The increase ina _Ca ^c preceded the CPTcAMP-induced increase inI _sc. The results of the present study indicate that electrometric determination of intracellular calcium activity is now feasible in a much wider range of cell systems than heretofore possible. CPT cAMP elevates intracellular Ca²⁺ activity; this phenomenon is an early event, preceding the natriferic effect of CPTcAMP.     

Conformational and hydrophobic properties of rat and bovine S-100 proteins

The binding of Ca²⁺ to rat or bovine S-100 proteins, in the absence of ligands, showed a dissociation constant (in 60 mM K⁺) of 0.5 to 1.0 mM as measured by the effects of Ca²⁺ on binding of S-100 to phenyl-Sepharose, reactivity of sulfhydryl groups, and difference spectra for PHE, TYR, and TRP residues. Binding of the ligands, Stainsall and chlorpromazine lowered the dissociation constant of S-100 for Ca²⁺ by 2-to 10-fold as measured by the same parameters. The conformational change, in response to Ca²⁺ binding, probably occurs by exposure to solvent of the hydrophobic region of and subunits of S-100 at residue positions 74-93.     

The effect of ATP on cucumber (<Emphasis Type="Italic">Cucumis sativus</Emphasis> L.) regeneration from nodal explants: association with α-tocopherol,H<Subscript>2</Subscript>O<Subscript>2</Subscript> and size of culture vessel

We investigated the effect of adenosine 5-triphosphate (ATP), -tocopherol and H₂0₂ on the micropropagation of cucumber (Cucumis sativus L.) from nodal explants. The effect of the size of the liquid culture vessel (250-ml flask vs. 2.5-l airlift bioreactor) was also evaluated. The addition of ATP alone caused a significant increase in the number of branches (internodes) and in internodal length, but also a reduction of leaf number, compared to control cultures. It also increased significantly the accumulation of NO₃^– and K⁺ . The application of ATP + -tocopherol was associated with a significant increase in bud, internodal, leaf and petiole number, internodal, petiole and root length, as well as plant fresh weight, but reduced PO₄^3– and Ca²⁺ accumulation. The combined application of ATP + -tocopherol + H₂O₂ was associated with maximum petiole length and increased plant fresh weight but reduced Ca²⁺ accumulation. Compared to all other treatments, application of ATP + -tocopherol in bioreactor-incubated cultures produced significantly larger plants, with an increased bud number, internode lenght and soluble carbohydrate concentration, but also with a reduced fresh weight, root length and reduced NO₃^– and PO₄^3– and Ca²⁺ concentrations. These effects were associated with changes in the redox status of the regenerants, as well as dehydrogenase and peroxidase activities. The perspective for an application of ATP and antioxidants as novel, cost-efficient growth regulators in the micropropagation of this commercially important vegetable species is discussed.     

A Confirmation of 125I-ω-Conotoxin Labeled Sites in a Crude Membrane Fraction from Chick Brain as the α1 Subunit of N-Type Calcium Channels

Omega-conotoxin GVIA (-CTX), as a selective blocker for an N-type Ca²⁺ channel, has been conveniently used in many molecular biochemical and pharmacological experiments. There has been little elucidation of ¹²⁵I--CTX binding sites (mainly the 135-kDa band) in the crude membranes from chick brain, although the characteristics of specific ¹²⁵I--CTX binding and labeling sites in chick brain membranes have been investigated in our previous research. In this work, our goal is to further identify ¹²⁵I--CTX labeling sites in chick brain membranes by using anti-B1Nt antibodies (against the N-terminal segment B1Nt of N- or P-type Ca²⁺ channel ₁-subunits). The ¹²⁵I--CTX–labeled sites in chick brain membranes could be solubilized and immunoprecipitated by using an anti B1Nt antibody. The molecular weight of the immunoprecipitated protein was determined as 135 kDa, which is inconsistent with that of the specific ¹²⁵I--CTX binding protein reported previously. Moreover, the ¹²⁵I--CTX–labeled protein could be purified by the method of preparative SDS-PAGE and recognized by anti-B1Nt antibodies in Western blotting analysis. These results indicated that anti-B1Nt antibodies could truly recognize ¹²⁵I--CTX–labeled sites as the main band of 135 kDa from chick brain membranes, and the -CTX–labeled site (mainly the 135-kDa band) should be N-type Ca²⁺ channel ₁-subunits.     

Quantitation of the β-bungarotoxin-induced release of lactate dehydrogenase from cerebrocortical synaptosomes

Treatment with -bungarotoxin for 1 h induces lactate dehydrogenase release from cerebrocortical synaptosomes. The effect is Ca²⁺-dependent as suggested by the inhibition observed with EGTA. An inhibition of the effect can be also obtained by addition of Sr²⁺ ions, suggesting that the phospholipase A₂ activity associated to the toxin is involved in the efflux of the enzyme. The -bungarotoxin-induced release of synaptoplasmic lactate dehydrogenase is a saturable effect, showing a half-maximal effect concentration of 32 nM and a maximal efflux of 25% of the total synaptosomal enzyme as calculated by double-reciprocal plot.     

Mitochondrial protein import: modification of sulfhydryl groups of the inner mitochondrial membrane import machinery in Solanum tuberosum inhibits protein import

Protein import into mitochondria involves several components of the mitochondrial outer and inner membranes as well as molecular chaperones located inside mitochondria. Here, we have investigated the effect of sulfhydryl group reagents on import of the in vitro transcribed/translated precursor of the F₁ subunit of the ATP synthase (pF₁) into Solanum tuberosum mitochondria. We have used a reducing agent, dithiothreitol (DTT), a membrane-permeant alkylating agent, N-ethylmaleimide (NEM), a non-permeant alkylating agent, 3-(N-maleimidopropionyl)biocytin (MPB), an SH-group specific agent and cross-linker 5,5-dithiobis-(2-nitrobenzoic acid) (DTNB) as well as an oxidizing cross-linker, copper sulfate. DTT stimulated the mitochondrial protein import, whereas NEM, MPB, DTNB and Cu²⁺ were inhibitory. Inhibition by Cu²⁺ could be reversed by addition of DTT. The efficiency of inhibition was higher in energized mitochondria than in non-energized. We have dissected the effect of the SH-group reagents on binding, unfolding and transport of the precursor into mitochondria. Our results demonstrated that the inhibitory effect of NEM, DTNB and Cu²⁺ on the efficiency of import was not due to the interaction of the SH-group reagents with import receptors. Modification of pF₁ with NEM prior to the import resulted in stimulation of import, whereas DTNB and Cu²⁺ were inhibitory. NEM, MPB, DTNB and Cu²⁺ inhibited import of the NEM-modified pF₁ into intact mitochondria. Import of pF₁ through a receptor-independent bypass-route as well as import into mitoplasts were sensitive to DTT, NEM, MPB, DTNB and Cu²⁺ in a similar manner as import into mitochondria. As MPB does not cross the inner membrane, these results indicated that redox and conformational status of SH groups located on the outer surface of the inner mitochondrial membrane were essential for protein import.     

ω-Aga IVA selectively inhibits the calcium-dependent fraction of the evoked release of [3H]GABA from synaptosomes

The effect of -Aga IVA, a P-type Ca²⁺ channel blocker, on the release of the inhibitory neurotransmitter GABA and on the elevation of Ca_i induced by depolarization was investigated in [³H]GABA and fura-2 preloaded mouse brain synaptosomes, respectively. Two strategies (i.e. 20 mM external K⁺ and veratridine) that depolarize by different mechanisms the preparation were used. High K⁺ elevates Ca_i and induces [³H]GABA release in the absence of external Na⁺ and in the presence of TTX, conditions that abolish veratridine induced responses. The effect of -Aga IVA on the Ca²⁺ and Na⁺ dependent fractions of the depolarization evoked release of [³H]GABA were separately investigated in synaptosomes depolarized with high K⁺ in the absence of extermal Na⁺ and with veratridine in the absence of external Ca²⁺, respectively. The Ca²⁺ dependent fraction of the evoked release of [³H]GABA and the elevation of Ca²⁺ induced by high K⁺ are markedly inhibited (about 50%) in synaptosomes exposed to -Aga IVA (300 nM) for 3 min before depolarization, whereas the Na⁺ dependent, Ca²⁺ independent carrier mediated release of [³H]GABA induced by veratridine, which is sensitive to verapamil and amiloride, is not modified by -Aga IVA. Our results indicate that an -Aga IVA sensitive type of Ca²⁺ channel is highly involved in GABA exocytosis.     

Characterization of the type of calcium channel primarily regulating GABA exocytosis from brain nerve endings

In an attempt to further characterize the type of Ca²⁺ channels primarily regulating GABA exocytosis, the effects of increasing concentrations of CTx MVIIC,--Aga IVA and other Ca²⁺ channel blockers (nitrendipine, Cd²⁺ and Ni²⁺), commonly used for pharmacologically discerning among the various types of Ca²⁺ channels, were tested on the dissected Ca²⁺ dependent fraction of the depolarization evoked release of GABA from mouse brain synaptosomes. Our results show that -CTx MVIIC inhibits GABA exocytosis with a calculated IC₅₀ of 3 M and -Aga IVA with a calculated IC₅₀ of 50 nM. The divalent cation Cd²⁺ only diminishes GABA exocytosis at 70 M, but does not modify this response at lower concentrations (i.e. 1 and 10 M). Neither nitrendipine (10 M) nor Ni²⁺ (100 M and 500 M) modified GABA exocytosis. The failure of nitrendipine at a high concentration to inhibit GABA exocytosis discards L-type Ca²⁺ channels as the main regulators of this response; likewise that of Ni²⁺ discards Ca²⁺ channels of the N-type, and the failure of nM concentrations of -CTx MVIIC or 500 M Ni²⁺, also discards alpha_1A/Q-type Ca²⁺ channels as the main regulators of the GABA response. On the basis of these results and in particular of the higher potency of -Aga IVA than -CTx MVIIC, it is concluded that the type of Ca²⁺ channels that primarily determine the exocytosis of GABA belong to a P-like type of Ca²⁺ channels.     

The effect of amino acids,monoamines and polyamines on pyruvate dehydrogenase activity in mitochondria from rat adipocytes

Summary The ability of polyamines and other cationic compounds including monoamines, amino acids, poly-L-arginine, poly-D-lysine and poly-L-lysine, to alter pyruvate dehydrogenase (PDH) activity in mitochondria from rat epididymal adipocytes was determined. PDH was assayed with the substrate [1-¹⁴C] pyruvate in the presence of 0.05 mM Ca²⁺ and Mg²⁺. Nine of the fourteen compounds tested at 0.1 mM caused a significant increase (procaine, 3-(-morpholinopropionyl) benzo[b]thiophene [VII], spermine, spermidine, putrescine, lysine and tryptophan) or decrease (poly-L-arginine, 3-(-piperidinopropionyl) benzo[b]thiophene) in PDH activity. None of these compounds nonenzymatically decarboxylated [1-¹⁴C] pyruvate to release ¹⁴CO₂. NaF, a PDH phosphatase inhibitor, suppressed the stimulatory effects of those compounds tested: procaine, tryptophan, VII, spermine and spermidine. These results imply that these five compounds activate PDH activity through stimulation of the PDH phosphatase. When the Mg²⁺ concentration was increased from 0.05 to 4.5 mM, the stimulatory effect of spermine was increased, consistent with the finding by others that spermine lowers the Km of the enzyme for Mg²⁺. However, at Mg²⁺ concentrations greater than 0.3 mM, the stimulatory effect of VII was unaltered, procaine failed to alter PDH activity, lysine inhibited PDH activity, and poly-L-lysine stimulated PDH activity. Therefore, polyamines and other positively charged small molecules may be physiologic regulators of PDH activity.     

Purification of the channel component of the mitochondrial calcium uniporter and its reconstitution into planar lipid bilayers

The purification of the channel-forming component of the mitochondrial calcium uniporter and its channel properties are described. After ethanol and 50% ethanol-water extraction of mitochondria from beef heart or perfused rat liver, the extract was passed through thiopropyl-Sepharose 6B column, and absorbed components were eluted with 2-mercaptoethanol, followed by gel-filtration on Sephadex G-15. The last fraction eluted (M _r about 2000) was then subjected to reverse-phase high-performance liquid chromatography. Of the more than 10 distinct peaks, only one showed specific Ca²⁺-channel activity in BLM with properties similar to earlier, less extensively purified preparations, i.e., conductance of 20 pS and multiples thereof, clustering of channels, participation of 2 or more subunits in channel formation, and sensitivity to 1 µM ruthenium red. Voltage sensitivity and cooperativity between channels are described. The Ca²⁺-binding glycoprotein with which the peptide was associated was found to have high homology with human acid ₁-glycoprotein (orosomucoid) and to show identity with beef plasma orosomucoid in the Ouchterlony immunodiffusion test.