Functional changes in the structure of the SRP GTPase on binding GDP and Mg2+GDP.

Ffh is a component of a bacterial ribonucleoprotein complex homologous to the signal recognition particle (SRP) of eukaryotes. It comprises three domains that mediate both binding to the hydrophobic signal sequence of the nascent polypeptide and the GTP-dependent interaction of Ffh with a structurally homologous GTPase of the SRP receptor. The X-ray structures of the two-domain 'NG' GTPase of Ffh in complex with Mg2+GDP and GDP have been determined at 2.0 A resolution. The structures explain the low nucleotide affinity of Ffh and locate two regions of structural mobility at opposite sides of the nucleotide-binding site. One of these regions includes highly conserved sequence motifs that presumably contribute to the structural trigger signaling the GTP-bound state. The other includes the highly conserved interface between the N and G domains, and supports the hypothesis that the N domain regulates or signals the nucleotide occupancy of the G domain.     

Specific localization of 2′,3′-cyclic nucleotide 3′-phosphohydrolase, (Ca2+/Mg2+)-ATPase,and acetylcholinesterase in human erythyrocyte membrane

A procedure was developed for the detection of 2′,3′-cyclic nucleotide 3′-phosphohydrolase in myelin. This assay was sufficiently sensitive to detect the low levels of 2′,3′-cyclic nucleotide 3′-phosphohydrolase in human erythrocytes. The 2′,3′-cyclic nucleotide 3′-phosphohydrolase of human erythrocytes was determined to be exclusively associated with the inner (cytosolic) side of the membrane. Leaky ghostsand resealed ghosts were assayed for 2′,3′-cyclic nucleotide 3′-phosphohydrolase, (Ca²⁺/Mg²⁺-ATPase, and acetylcholinesterase activity, and the 2′,3′-cyclic nucleotide 3′-phosphohydrolase profile is the same as that of the (Ca²⁺/Mg²⁺)-ATPase, an established inner membrane maker.     

Preparation and characterization of radioactive castanospermine

A procedure for the preparation of tritiated castanospermine is described. The tritiated alkaloid was shown to be chromatographically identical to the native material and exhibited the same inhibitory properties. Radiolabeled castanospermine tightly bound to purified intestinal sucrase. Following gel chromatography, each mole of enzyme was shown to have bound 1 mol of the radioactive alkaloid. Cultured MDCK cells were also shown to take up the labeled castanospermine. This compound should be a useful tool in the investigation of enzymes that are responsible for the processing of glycoprotein oligosaccharides.     

Unimpaired coupling of phosphorylated, desensitized beta-adrenoceptor to Gs in a reconstitution system

Heterologous desensitization of turkey erythrocyte beta-adrenoceptors correlates with receptor phosphorylation and impaired receptor-Gs coupling, as assessed by fusion of purified desensitized receptors with X. laevis erythrocytes [(1984) Science 225, 837-840]. We have purified beta-receptors from desensitized and untreated turkey erythrocytes and have compared the abilities of these two receptors to couple with pure turkey erythrocyte Gs in a reconstituted system. Functional receptor-Gs coupling was assessed by measuring hormone-dependent Gs activation by GTP gamma S and GTPase activity. While in membranes prepared from desensitized cells, receptor-Gs coupling was clearly reduced, this effect was absent when coupling of purified desensitized receptor was measured. We conclude that covalent modification by phosphorylation does not fully explain the functional uncoupling at the membrane level.     

Functional and structural characterization of the two beta 1-adrenoceptor forms in turkey erythrocytes with molecular masses of 50 and 40 kilodaltons

We have previously described a specific protease in turkey erythrocytes that converts the larger 50-kDa (P50) form of the beta 1-adrenoceptor to a smaller 40-kDa (P40) form [Jürss, R., Hekman, M., & Helmreich, E. J. M. (1985) Biochemistry 24, 3349-3354]. Further functional and structural characterization studies of the two forms are reported here. When purified P50 and P40 receptors were compared with respect to their relative capabilities to couple in lipid vesicles with pure stimulatory G-proteins (Gs-proteins) prepared from turkey erythrocytes or rabbit liver, a faster and larger activation of Gs-proteins was observed in response to l-isoproterenol and guanosine 5'-O-(3-thiotriphosphate) (GTP gamma S) with P40 than with P50 receptor. The kon values for P40 were 0.47 min-1 in the case of liver Gs and 0.22 min-1 in the case of erythrocyte Gs, whereas the corresponding values for P50 were 0.34 min-1 and 0.12 min-1, respectively. The binding properties of P50 and P40 forms of the receptor were not different, and desensitization of turkey erythrocytes on exposure to l-isoproterenol did not activate the protease. We furthermore ascertained that only the larger form with a molecular mass of 50 kDa carries the N-linked carbohydrates, which are removed on proteolytic conversion to the 40-kDa form and have either a triantennary or a tetraantennary nonfucosylated complex-type structure containing terminal sialyl residues.     

Electrostatic destabilization of the cytochrome b6f complex in the thylakoid membrane.

Three of the membrane-spanning polypeptides of the chloroplast cytochrome (cyt) b6f complex were sequentially released from the thylakoid membrane, in the order cyt b6, suIV and Rieske iron-sulfur protein, as the pH was increased from 10 to 12, a protocol usually employed to remove peripheral proteins from membranes. The fourth polypeptide of the cyt b6f complex, cyt f, which spans the membrane once, was apparently not released. The pH values for half-release at low ionic strength were approximately 10.7, 11.1 and 11.3 respectively. The separation of the polypeptides of the complex and the sequential release is readily seen at pH 11, where the loss from the membrane of cyt b6, suIV and Fe iron-sulfur center is approximately 90%, 50% and 20%, respectively. the release of cyt b6 from the membrane was reflected by the absence of its characteristic reduced minus oxidized absorbance signal. The pH values at which the release occurred increased as the ionic strength was raised, implying that the release of the b6f polypeptides arises from extrusion due to repulsive electrostatic interactions probably caused by deprotonation of tyrosine and lysine residues. The lipid content of the released polypeptides was very low, consistent with the observation of a non-membranous state. It is proposed that the pH-dependent extrusion requires two electrostatic effects at alkaline pH higher than approximately 10.5: (i) increased electrostatic repulsion between neighbouring polypeptides of the complex, arising from increased net negative charge in the peripheral segments of these polypeptides, which can cause separation of the polypeptides from the complex; and (ii) ionization of residues such as tyrosine in the membrane-spanning alpha-helices, and neutralization of residues such as lysine which can bind to the negative membrane surface.(ABSTRACT TRUNCATED AT 250 WORDS)     

Cyclic AMP-dependent phosphorylation, Ca2+ and calmodulin: possible influences on acyltransferases and pyruvate dehydrogenase activities of rat mammary gland

Specific activities of diacylglycerol acyltransferase, glycerol 3-phosphate acyltransferase and pyruvate dehydrogenase were studied in virgin, pregnant, lactating and involuting rat mammary glands. An inverse relationship was evident between cAMP binding to protein kinase(s) and the activities of the above enzymes in lactating rat mammary glands. Results suggested that free Ca2+ concentration may also contribute to control of the activity of pyruvate dehydrogenase in these glands. However, no consistent change was observed between the activities of these enzymes and cAMP binding in young, pregnant and involuting rat mammary glands. Calmodulin levels paralleled bound Ca2+ except in lactating rats. Almost all parameters studied peaked on day 8 of lactation.     

Effects of osmotic conditions on ultrastructure of rat mammary epithelium

Summary Effects of osmotic conditions on secretion of milk serum were examined using standard transmission electron microscopy. Rat mammary glands were infused with hyper-, iso-, and hypo-osmotic solutions. The intramammary infusion of these agents elicited distinct and repeatable morphological responses from lactating epithelial cells. The response to hyperosmolarity was an increase in compound exocytotic figures and an increase in secretory vesicle size (¯x=1.65 m in diameter). Glands infused with hypo-osmolar solutions exhibited the opposite response; reduction in compound exocytotic figures and reduced vesicle size (¯x=0.34 n in diameter). The response to iso-osmotic solutions was indistinguishable from untreated control tissue. The ratio of vesicular projections to depressions (vesicle membrane/plasma membrane interactions) could be experimentally altered through the intramammary infusion of solutions with different osmotic potentials. These observations support the suggestion that osmotic conditions may influence exocytosis of milk serum.     

Colocalization of α-lactalbumin and a major casein in secretory vesicles of rat mammary epithelial cells

Summary Whether both casein and noncasein (serum or whey) proteins of milk are contained within the same secretory vesicles of milk secreting mammary epithelial cells was explored. Antibodies to a major casein and to -lactalbumin of rat milk were localized in thin sections with colloidal gold-conjugated second antibodies. Antibodies to the casein component bound to an antigen present within lumina of Golgi apparatus cisternae and within secretory vesicles. This antigen was also recognized in structures within secretory vesicles and within alveolar lumina which were ultrastructurally identified as casein micelles. Antigens recognized by antibodies to -lactalbumin also were present in Golgi apparatus cisternae and within secretory vesicles. Both anti-casein and anti--lactalbumin antibodies recognized antigens within the same secretory vesicles. These observations show that one major noncasein protein of rat's milk is present in casein-containing secretory vesicles.