Isolation, characterization, and localization of the spanning protein from skeletal muscle triads.

A monoclonal antibody has been developed against the putative junctional protein or spanning protein (SP) from skeletal muscle triads. By immuno-affinity chromatography, we have purified this protein. The native protein has a molecular mass of 630-800 kD, as determined by gel filtration and rate zonal centrifugation. Within the limits of the methods used, the basic unit of the SP appears to be a dimer. In electron micrographs, it is shown to exhibit a circular profile with a diameter of approximately 100 A. In thin section analysis, the protein is frequently observed as parallel tracks of electron-dense particles bordering a translucent core. We suggest that the basic unit of the junctional structure is a dimer of 300-kD subunits and that four such entities constitute the intact SP. The purified protein has been used to develop polyclonal antibodies. By immunoelectron microscopy using immunogold probes, the SP has been localized to the junctional gap of the triad. By attaching the SP to an affinity resin, three proteins have been identified as forming associations with the SP. The Mrs of the proteins are 150, 62, and 38 kD; the 62-kD protein is calsequestrin.

Calcium transport, ATPase activity and lipid composition in sarcoplasmic reticulum isolated from isogenic lines of normal and dystrophic chickens.

Two new lines of chickens with near identical genotypes (greater than 90% isogeneity), one demonstrating avian dystrophy, were used for isolation of sarcoplasmic reticulum vesicles. Vesicles from line 433 (dystrophic) displayed reduced Ca2+-ATPase activity, phosphoenzyme formation and steady-state calcium transport capabilities in comparison with vesicles from line 03 (normal). Lipid analyses show that dystrophic vesicles have greater amounts of cholesterol and lesser amounts of phosphatidylcholine. The results support the use of isogenic chickens in further studies of avian dystrophy. However, the results also suggest that current sarcoplasmic reticulum vesicle purification procedures dependent on differential calcium accumulation may not fully achieve the intended purpose.

Isolation and characterization of sarcoplasmic reticulum from normal and dystrophic chicken.

Purified sarcoplasmic reticulum vesicles from normal and dystrophic chicken skeletal muscle have been isolated by a procedure employing pressure disruption of a microsomal suspension. The dystrophic sarcoplasmic reticulum (SR) exhibited reduced Ca++ transport and phosphoenzyme formation, but the Ca++-ATPase activity was normal. Normal and dystrophic SR showed similar lipid profiles, except for a significant increase in free fatty acids in the dystrophic SR. Investigations involving the interaction of oleic acid with normal SR showed fatty acids can induce conditions similar to those found in dystrophic SR.

Autophosphorylation of glyceraldehydephosphate dehydrogenase and phosphorylation of protein from skeletal muscle microsomes.

Glyceraldehydephosphate dehydrogenase purified from rabbit skeletal muscle is auto-phosphorylated with MgATP. Half-maximal phosphorylation is achieved around 0.3 mM. The phosphorylation is Ca2+ independent. The phosphoenzyme complex is labile in alkaline conditions and stable in moderately acid media. The complex is readily hydrolyzed by 0.1 M neutral hydroxylamine, indicating the complex formed is a high-energy acyl phosphate. The phosphorylation is reduced by nicotinamide adenine dinucleotides, reduced form (NADH), glyceraldehyde 3-phosphate, and nicotinamide adenine dinucleotide (NAD+). The enzyme is also dephosphorylated by these metabolites although to a lesser extent by NAD+. Calsequestrin isolated from rabbit skeletal muscle inhibits the phosphorylation of the enzyme. The phosphoenzyme behaves as a kinase catalyzing the phosphorylation of proteins of Mr 80 000 and 72 000 found in the skeletal muscle terminal cisternae/triad preparation. This reaction is enhanced by NADH. The phosphate found in the protein substrate has been shown to be the same phosphate initially involved in the phosphorylation of glyceraldehydephosphate dehydrogenase.

Effects of mercaptans upon dihydropyridine binding sites on transverse tubules isolated from triads of rabbit skeletal muscle.

The binding of nitrendipine to transverse (T) tubules isolated from skeletal muscle triads is inhibited by dithiothreitol (KI approximately 0.05 mM) and glutathione (KI approximately 3 mM). The t 1/2's of inhibition (18.3 and 11.5 min, respectively) suggest that these hydrophylic reagents act upon the exposed surface of the vesicles. Dithiothreitol shifts the apparent KD for nitrendipine from 8.5 nM to 30 nM without altering the Bmax extrapolated by Scatchard analysis. That T-tubules isolated by disruption of triad junctions are constrained to have the protoplasmic (P) face uniformly exposed was experimentally confirmed. These studies show that a sulfhydryl residue on the P-face of the T-tubule influences the affinity of the receptor for dihydropyridines.

Dihydropyridine binding sites on transverse tubules isolated from triads of rabbit skeletal muscle.

Receptors for the dihydropyridine class of Ca2+ channel antagonists are present on transverse tubules isolated by mechanical disruption of skeletal muscle triads. These observations account for the previously reported presence of nitrendipine binding sites in heavy sarcoplasmic reticulum. Nitrendipine receptors were not found in the terminal cisternae after disruption of the triad junctions. The number of sites in junctional T-tubules (27 pmol/mg) is only half that reported for transverse tubules isolated as free vesicles (pmol/mg). The presence of nitrendipine receptors in that region of the transverse tubules held in close apposition to the SR cisternae is consistent with the architectural requirements for the Ca2+ induced Ca2+ release phenomenon to be the mechanism of excitation-contraction coupling.

Tissue localization of active Na,K-ATPase isoenzymes by determination of their profile of inhibition with ouabain, digoxin, digitoxigenin and LND 796, a new aminosteroid cardiotonic.

Recently, Na,K-ATPase isoforms with differential affinities for digitalis have been identified that may contribute to different toxicity profiles. Our objectives were to localize them and to define tissue receptor patterns by examining the effect of different glycosides on the Na,K-ATPase activity. The digitalis derivatives used exhibit variation in lipophilicity and rate of enzyme inhibition. Membrane fractions enriched in Na,K-ATPase were prepared from canine heart, brain, aorta and peripheral nerves. The inhibition of enzyme activities indicates a pattern of differential sensitivities with IC50 values starting from 3 nM in heart and 30 nM in brain. Therefore, high and low affinity active forms of the Na,K-ATPase enzyme coexist in these tissues. The data also suggest the existence of two Na,K-ATPase isoforms in aorta and peripheral nerves as identified by the action of digitoxigenin and LND 796 where the predominant expression is that of a high affinity form. The comparison of the patterns of digitalis sensitivities in these different tissues, suggests a more complex molecular interaction than that which can be explained by the presence of only two forms.

Localization by immunoelectron microscopy of spanning protein of triad junction in terminal cisternae/triad vesicles.

Polyclonal antibodies have been developed against the junctional feet or spanning protein from skeletal muscle triads. These probes in combination with immunogold labels have been used to localize the spanning protein by electron microscope of isolated vesicles from terminal cisternae/triads. The spanning protein antibodies specifically bind to the electron dense junctional feet. In vesicles permeabilized by hypotonic treatment or by saponin, some gold particles may be seen on the luminal side of the vesicle. Trypsin treatment of vesicles causes complete loss of the 300 K spanning protein from SDS gels while dot blots show that some but not all the antigenic activity is lost. This treatment is associated with the loss of the electron dense projections from the membrane surface and is coincident with the loss of immunogold staining when antibody is added to the intact vesicles. On the other hand, in experiments in which the luminal portions of the isolated vesicles have been made accessible to the polyclonal antibodies by sectioning lightly fixed vesicles before immunogold tagging, extensive gold labelling was found to occur in trypsin treated vesicles which have lost detectable projections from the cytoplasmic side of the membrane. These data support the view that the spanning protein projects from the sarcoplasmic reticulum towards the transverse tubules but further suggest that spanning protein extends into and probably through the sarcoplasmic reticulum membrane in accord with the proposition that it is a Ca2+ channel.

Parallel synthesis and evaluation of N-(1-phenylethyl)-5-phenyl-imidazole-2-amines as Na+/K+ ATPase inhibitors.

A series of N-(1-phenylethyl)-5-phenyl-imidazole-2-amines was prepared using solution-phase, parallel synthesis and evaluated for Na+/K+ ATPase inhibition.