Influence of the cholesterol content of mammalian spermatozoa on susceptibility to cold-shock

The cholesterol content of spermatozoa with highly unsaturated phospholipids, i.e., ram and bull, which are very susceptible to cold-shock was compared with that of rabbit and human spermatozoa which have more saturated phospholipids and a greater resistance to cold-shock. The level of cholesterol in the seminal plasma was also estimated.Cholesterol was present in ram and bull spermatozoa in comparable amounts (280–346 μg) and at approximately half the level (in micrograms per 10⁹ spermatozoa) in rabbit and human spermatozoa (545–556 μg). The molar ratio of cholesterol: phospholipid in rabbit and human spermatozoa was 0.88 and 0.99, respectively, which is similar to the ratio of these lipids in erythrocytes and higher than the ratio of 0.38 and 0.45 for ram and bull spermatozoa, respectively. This ratio is of some importance in determining the nature and degree of packing in the spermatozoan membrane; higher levels of cholesterol result in a more cohesive, rigid, and impermeable structure. A definite relationship is apparent between the ratio of cholesterol: phospholipid, the ratio of polyunsaturated: saturated phospholipid-bound fatty acids, and the susceptibility of the spermatozoa to cold-shock.     

Direct hypophysial inhibition of luteinizing hormone release by dopamine in the rabbit.

The role and site of action of dopamine in regulating gonadotropin secretion remain unclear. In the present study, we investigated the possibility that dopamine regulates LH secretion by acting directly on the pituitary gland of the rabbit. The effect of dopamine infusion on LHRH-evoked LH release was determined in intact and pituitary stalk sectioned animals. Intravenous injection of LHRH (1 μg) in intact and acutely stalk sectioned rabbits increased peripheral plasma LH levels from a resting value of 0.2 ng/ml to maximal values of 12–14 ng/ml within 10–20 min. When dopamine was infused iv at a dose of 6.6 μg/min/kg BW from 30 min before LHRH injection until 120 min after, the rise in plasma LH levels in intact and stalk sectioned animals was decreased by 50–70%. However, dopamine infused at a lower dose (0.66 μg/min/kg BW) or at a higher dose (66.0 μg/min/kg BW), did not affect the LHRH-induced secretion of LH. These results suggest that dopamine can exert a direct hypophysial inhibitory effect on release of LH. They also demonstrate that dopamine is inhibitory only within a restricted dose-range, extending to the pituitary an established property of dopamine in the cardiovascular system.     

Acid phosphatases of rabbit spermatozoa: II. Partial purification and biochemical characterization of the multiple forms of rabbit spermatozoan acid phosphatase

Five acid phosphatases, S4, S3, S2, Szn and S1 (orthophosphoric monoester phosphohydrolase, EC 3.1.3.2) of ejaculated rabbit spermatozoa were either partially purified by DEAE-Sephadex column chromatography or prepared by specific extraction methods.The pH optimum of S4 was 6.0–6.5 in acetate buffer and 7.0 in Tris-HCl buffer; the pH optima of S3, S2, Szn, and S1 were 4.5, 5.5., 6.0 and 5.2, respectively, in acetate buffer. The apparent molecular weights of S3, S, Szn and S1, determined by disc gel electrophoresis, were 123 000, 86 000, 64 000 and 45 000–49 000, respectively. Incubation with neuraminidase did not alter the electrophoretic mobilities of any of the enzymes.Ten natural phosphoric esters were tested as substrates. S4 preferentially hydrolyzed ATP, ADP, PP_i and 3′-AMP. S3 hydrolyzed only β-glycerophosphate and glucose 6-phosphate to a significant extent. S2 hydrolyzed β-glycerophosphate, glucose 1-phosphate, the phosphoproteins, casein and phosvitin. S1 hydrolyzed ADP and β-glycerophosphate most readily. Szn may be an ATPase since it exhibits very high Zn²⁺-stimulated against ATP.These characteristics combined with the effects of NaF, ZnCl₂, l-(+)-tartaric acid, and formaldehyde on the activity of each partially purified enzyme with α-naphthyl phosphate as substrate indicate that these phosphatases are structurally and functionally different.     

Enzymology of long-chain base synthesis by liver: characterization of serine palmitoyltransferase in rat liver microsomes

Serine palmitoyltransferase [palmitoyl-CoA:L-serine C-palmitoyltransferase (decarboxylating) EC 2.3.1.50] catalyzes the initial and committed step in the biosynthesis of the long-chain bases of sphingolipids. A simple assay, based upon the incorporation of [3H]serine into the chloroform-soluble product 3-ketosphinganine, has been developed and demonstrated to be valid for analyzing this enzyme in rat liver microsomes. More than 75% of the serine palmitoyltransferase of rat liver was associated with the microsomal subfraction. The dependencies of activity on the incubation time, pH, temperature, other assay components (e.g., dithiothreitol, EDTA, and pyridoxal 5'-phosphate), and the concentrations of microsomal protein, L-serine, and palmitoyl-CoA were investigated. The requirement of pyridoxal 5'-phosphate for activity was established by formation of the apoenzyme by dialysis against cysteine, and recovery of full activity upon reconstitution with the coenzyme. Activities with fatty acyl-CoA's of varying alkyl chain length were distributed nearly symmetrically around a maximum at 16 carbons (palmitoyl-CoA) for the fully saturated substrates. Less activity was obtained with the CoA thioesters of cis-unsaturated fatty acids, but trans-9-hexadecenoyl-CoA yielded essentially the same activity as palmitoyl-CoA. Hence, this enzyme is capable of initiating the synthesis of the major long-chain bases, as well as compounds that may constitute the unidentified bases reported in analyses of mammalian sphingolipids.     

Ultrasonic characteristics of frozen liver

The recent development of new ultrasound probes has made real-time intraoperative monitoring of cryosurgery, and thermocouple placement a possibility. It is shown that frozen tissue and thermocouple needles have acoustic characteristics that enable them to be easily visualized by ultrasound examination. Further in vivo animal studies are needed to examine temperature characteristics of visualized cryolesions, to develop scanning techniques, and to correlate ultrasonic findings with histologic changes in tissue.     

Tissue difference in gamma-glutamyl transpeptidase attributed to sialic acid content.

Gamma-glutamyl transpeptidase (GGT) was extracted from the microsomal fraction of various bovine tissues and partially purified. Purified enzymes demonstrated different mobilities toward the anode in polyacrylamide gel electrophoresis in 0.5% Emulphogene BC720, pH 7.5. The ciliary-body GGT migrated fastest, while the brain enzyme was electrophoresed most slowly. The apparent Km values (Km′) of GGT for L-gamma-glutamyl-p-nitroanilide were 1.4–2.0 mM when assayed with glycylglycine as the gamma-glutamyl acceptor. After neuraminidase treatment, electrophoretic mobility was decreased considerably for all enzyme preparations, compatibly with the removal of negatively charged sialic-acid residues. The Km′ values of the enzyme were not affected by the hydrolytic treatment. Electrophoresis of digested enzymes showed essentially identical mobilities. From these results we conclude that tissue differences in GGT are attributable to the varying extent of sialylation of enzyme.     

Translation of Sindbis virus 26 S RNA and 49 S RNA in lysates of rabbit reticulocytes

Sindbis virus-specific polypeptides were synthesized in lysates of rabbit reticulocytes in response to added 26 S or 49 S RNA. Sindbis 26 S RNA was translated into as many as three polypeptides which co-migrate in acrylamide gels with proteins found in infected cells.Wild type 26 S RNA was translated primarily into two polypeptides, which appear to be the Sindbis nucleocapsid protein (mol. wt 30,000) and the precursor of the two glycoproteins of the virion (mol. wt 100,000). A larger polypeptide (mol. wt 130,000) was synthesized in response to ts2 26 S RNA, a species of RNA which was isolated from cells infected with the ts2 mutant of Sindbis virus. This large polypeptide is apparently the protein which accumulates in cells infected with the mutant virus and which is thought to be a precursor of all three viral structural proteins.These results support the hypothesis that 26 S RNA is the messenger for the three structural proteins of the virion and that the RNA codes for one large polypeptide precursor. The precursor may then be cleaved at a specific site to yield the nucleocapsid protein and a second polypeptide which, in infected cells, is cleaved in a series of steps to yield the two glycoproteins of the virion.Sindbis 49 S RNA was translated into eight or nine polypeptides ranging from 60,000 to 180,000 molecular weights. The viral structural proteins, as such, were not synthesized in response to the added 49 S RNA.     

Increases in microtubule assembly and in tubulin content in mitogenically stimulated mouse splenic T lymphocytes

We have examined the changes in the microtubule and tubulin contents in populations of mouse splenic T lymphocytes stimulated by the mitogen concanavalin A. Indirect immunofluorescence staining with antiserum to tubulin indicated that a more extensive microtubule network was assembled from the centrosome in those cells which had increased in size in response to the mitogen. Direct counts of microtubules from electron micrographs of the centrosome regions of cells showed approximately a 2-fold increase in microtubule number in 48 h stimulated populations and up to a 5-fold increase in the large, fully stimulated, blast cells. Determinations of tubulin and actin contents were made by the measurement of peptides specific to those proteins. As a percentage of total cell protein both of these cytoskeletal proteins increased during the first 24 h of stimulation. Tubulin increased 50% by 24 h and remained high in populations stimulated for 48 h. The tubulin content per cell increased 2.5-fold, from 0.20 to 0.51 μg/10⁶ cells, in the 48 h stimulated population. An increase in tubulin content was also seen following the stimulation of nude mouse B lymphocyte populations and of total splenic lymphocyte populations. Our results show that during lymphocyte stimulation there is a large increase in the numbers of microtubules assembled which is correlated with, and appears dependent on, a similar large increase in the cellular tubulin content.     

Hypoxia and cold: influence on cellular oxygen consuming systems in guinea pig liver

Traditionally any biochemical changes found in animals exposed to high altitude have been interpreted solely in relation to hypobaric hypoxia. The present work has been carried out to study the influence of cold and hypoxia in guinea pig native to high altitude.The three major oxygen consuming systems of the liver were measured using cytochrome oxidase as a mitochondrial marker, catalase as a peroxisomal marker, and the o-demethylation of p-nitroanisole and the hydroxilation of hexobarbital as markers for microsomal activity. Serum levels of thyroid hormones (T₃ and T₄) were also determined.Evidence is presented showing that cold produces a dramatic increase of liver catalase and cytochrome oxidase activities, and of serum T₃ and T₄.Interestingly, the increase in thyroid hormones did not precede the increase of the two enzyme activities in the liver of guinea pig exposed to 4°C.On the other hand, it was found that hypoxia appears to have no significant influence upon any of the three major oxygen consuming systems of the liver.     

Changes in the content of cyclic AMP and cyclic GMP during the development of Xenopus laevis.

The levels of the three major DNA-dependent RNA polymerases (enzymes I, II and III) present in the dimorphic fungus Mucor rouxii have been investigated during the transition from yeast-like cells to mycelial growth. Increases in the specific activity of crude extracts were observed at 2 h and at 6 h after induction of mycelium formation by aeration of yeast-like cells. These increases could be attributed to changes in the specific activities of enzymes I and II. Alterations were also found in the relative amounts of enzymes I and II: prior to aeration, 31% of the total polymerase activity of crude extracts was present as enzyme I; after 2 h of aeration, the specific activity of this enzyme doubled and the relative amount increased to 64% of the total activity. After 6 h of aeration, the relative amounts of enzymes I and II were 25 and 65%, respectively, and the specific activity of enzyme II had nearly doubled. The amounts and specific activities of enzyme III did not change significantly during the transition.     

The effect of streptozotocin-induced diabetes on glycogen metabolism in rat kidney and its relationship to the liver system.

The effects in kidney of streptozotocin-induced diabetes and of insulin supplementation to diabetic animals on glycogen-metabolizing enzymes were determined. Kidney glycogen levels were approximately 30-fold higher in diabetic animals than in control or insulintreated diabetic animals. The activities of glycogenolytic enzymes i.e., phosphorylase (both a and b), phosphorylase kinase, and protein kinase were not significantly altered in the diabetic animals. Glycogen synthase (I form) activity decreased in the diabetic animals whereas total glycogen synthase (I + D) activity significantly increased in these animals. The activities were restored to control values after insulin therapy. Diabetic animals also showed a 3-fold increase in glucose 6-phosphate levels. These data suggest that higher accumulation of glycogen in kidneys of diabetic animals is due to increased amounts of total glycogen synthase and its activator glucose 6-phosphate.     

Purification of squalene epoxidase from rat liver microsomes

Squalene epoxidase was purified from rat liver microsomes by DEAE-cellulose, alumina C_ν gel, hydroxylapatite, CM-Sephadex C-50 and Cibacron Blue Sepharose 4B in the presence of Triton X-100. The specific activity was increased 50 fold with a yield of about 10%. On SDS-polyacrylamide gel electrophoresis, the preparation gave one major band and one minor band with apparent molecular weights of 47,000 and 27,000 daltons, respectively. The protein of 47,000 was the most probable candidate for squalene epoxidase. Squalene epoxidase activity could be reconstituted in the squalene epoxidase preparation with the addition of NADPH-cytochrome P-450 reductase, FAD, and Triton X-100.     

A method for determining DNA and chondrocyte content of articular cartilage

A novel and precise method was devised to study the DNA and chondrocyte content of articular cartilage. It involved the sequential digestion of cartilage matrix with hyaluronidase, trypsin, and collagenase to release the chondrocytes. A direct cell count and DNA assays were then performed on the cells. The concentration of cells was the quotient of the total number of cells and the weight of cartilage used. The DNA content of cartilage is identical to the amount of DNA in the chondrocytes. Our data also confirmed the earlier findings that cell density and DNA content of articular cartilage decreased gradually to a relatively constant level as animals matured to adulthood.     

A one-step procedure for the isolation of fructose 1,6-bisphosphatase and fructose 1,6-bisphosphate aldolase from rabbit liver

Human ceruloplasmin, which is usually cleaved by limited proteolysis into three major fragments during preparation ($\text{M}{}_{\mathrm{<mtext>r</mtext>}}\text{? 18,650}$, 50,000, and 70,000) was isolated in good yield as an undegraded single-chain protein ($\text{M}{}_{\mathrm{<mtext>r</mtext>}}\text{? 135,00}$). The cryosupernatant from fresh frozen plasma (100 liters) was fractionated with polyethylene glycol (PEG 4000) at + 5°C yielding a ceruloplasmin-enriched fraction in the 20% PEG supernatant. Three steps of chromatography on DEAE-Sephacel, hydroxyapatite, and Sephadex G-200 produced a homogeneous protein with maximal enzymatic activity and the $\text{A}{}_{610}\text{A}{}_{280}$ ratio of 0.046 corresponding to 98–100% purity. Two forms of ceruloplasmin having this absorbance ratio were obtained; Form I was predominant and was studied further. The procedure separated both forms from apoceruloplasmin and degraded ceruloplasmin. The single-chain ceruloplasmin (Form I) had an NH₂-terminal sequence of Lys-Glu-Lys-His-Tyr-Tyr-Ile-, the same as for the 70,000 fragment, and is suitable for structural study by sequence analysis and physicochemical methods.     

Age-related alterations in plasma membrane glycoprotein content and scheduled or unscheduled DNA synthesis.

WI-38 cells of various ages and SV40-transformed WI-38 cells were examined for differences in plasma membrane composition of glycoproteins and DNA synthesis. Sialic acid per milligram of protein content of the membranes of WI-38 cells decreased with passage of time in culture. Other glycoprotein fractions and alkaline phosphatase activity disappeared in the WI-38 cells with passage of time in culture (Phase III). Studies of DNA repair correlated with changes observed in the plasma membrane glycoprotein content of WI-38 cells over a passage of time in culture were also reported. Both the extent and rate of ultraviolet-induced unscheduled DNA synthesis remained relatively constant during the passage of the WI-38 cells until late phase III. At that time the extent of unscheduled DNA synthesis was measurably reduced. The number of cells in a population of phase III cells able to perform semiconservative DNA synthesis diminished with age in culture but not to an extent capable of explaining the observed changes seen in membrane composition of semiconservative DNA synthesis during passage of the cells in culture. Cells with an extended lifespan SV40-transformed WI-38 (VA 13.2 RA) cells, did not vary in membrane composition, semiconservative DNA synthesis, or unscheduled DNA synthesis over 200 serial subpassages of the cells in culture.     

Biosynthesis of transcobalamin II by adult rat liver parenchymal cells in culture.

The biosynthesis of transcobalamin II was investigated in primary cultures of adult rat liver parenchymal cells maintained in serum-free media. The data indicate that these hepatocytes secrete a vitamin B₁₂-binding substance into the culture medium which is identical to rat serum transcobalamin II as judged by the following criteria: (i) gel filtration on columns of Sephadex G-200; (ii) ion-exchange chromatography on columns of diethyl aminoethyl cellulose and carboxymethyl cellulose; (iii) polyacrylamide-gel electrophoresis at pH 9.5; and (iv) the ability to facilitate cellular vitamin B₁₂ uptake by HeLa cells and mouse L-929 fibroblasts in culture. The secretion of transcobalamin II by the liver parenchymal cells was blocked by cycloheximide, puromycin, and p-fluorophenylalanine. The inhibition by cycloheximide, but not that of the other inhibitors, was partially reversed upon removal of the drug. The liver parenchymal cells incorporated radioactive amino acids into transcobalamin II which was absorbed from the growth medium using affinity chromatography on Sepharose containing covalently linked B₁₂. Collectively, these data indicate that rat liver parenchymal cells, in culture, are capable of the biosynthesis de novo of transcobalamin II and the subsequent secretion of this protein into the culture media.     

Dispersion of viable pig liver cells with collagenase.

Viable suspended hepatocytes were prepared from surgical biopsy specimens of pig and human liver by digestion with collagenase. Initial perfusion of the tissue through cannulated blood vessels with 0.5 mM EGTA followed by 0.2% collagenase gave the best results. 20−870 × 10⁶ cells of which 60–95 % excluded trypan blue were obtained from 5–30 g pig liver pieces, while results with human liver specimens were usually less satisfactory. In some experiments, however, viable cells, as judged by vital stain exclusion and ability to synthesize lipids were obtained in sufficient yield. In the pig hepatocytes glycerolipid synthesis from [³H] glycerol and oxidation and esterification of [¹⁴C] oleic acid had the same characteristics as those observed earlier in rat hepatocytes.     

Factors influencing renal cryopreservation. II. Toxic effects of three cryoprotectants in combination with three vehicle solutions in nonfrozen rabbit cortical slices

The [K+]/[Na+] ratio of rabbit renal cortical slices was used to examine, at 25 degrees C, the effects on viability of three cryoprotectant agents (CPA) (dimethyl sulfoxide (Me2SO), ethylene glycol, and glycerol) in combination with three vehicle solutions (Krebs-Henseleit (K-H), solution A, and RPS-2). Viability assessment by [K+]/[Na+] for all test solutions was made after incubating the slices in modified Cross-Taggart solution (C-T). With K-H and solution A, all concentrations of ethylene glycol and glycerol resulted in lowered ratios, whereas with Me2SO, concentrations greater than 1.4 M are required to reduce [K+]/[Na+]. With RPS-2 no decrease in the ratios was found until concentrations greater than 2.8 M were reached for all three CPAs. Binding of Me2SO to albumin, studied using [14C]Me2SO, was inhibited by RPS-2 when compared to K-H. Introduction and removal of Me2SO at 10 degrees C allowed an improvement in viability, at higher Me2SO concentrations, as compared to 25 degrees C.     

Influence of alkyl ether chain length of acetyl glyceryl ether phosphorylcholine and its ethanolamine analog on biological activity toward rabbit platelets

The preparation of the potent new lipid chemical mediator, 1-O-alkyl-2-acetyl-sn-glyceryl-3-phosphorylcholine (AGEPC), through a facile semisynthetic procedure utilizing the vinyl ether-containing lecithins (plasmalogens) of bovine heart muscle as the starting material results in a derivative with mixed chain alkyl residues. In order to focus more closely on the importance of the various components of AGEPC relative to its biological activity, it was of importance to develop a method for isolation of molecules rich in a specific chain length of the alkyl residue. In the current study it was found that a simple thin-layer chromatographic technique, using a solvent system of methanol water (2:1, $\text{v}\text{v}$), afforded an excellent separation of semisynthetic AGEPC into two species, one containing over 95 mol% 16:0 and the other 95 mol% 18:0 alkyl chain species. The same procedure allowed a comparable separation of the species of 1-O-alkyl-2-acetyl-sn-glyceryl-3-phosphorylethanolamine (AGEPE) prepared from AGEPC by phospholipase D action. On the basis of their effectiveness in releasing serotonin from washed rabbit platelets, the 16:0-rich derivatives of AGEPC and AGEPE exhibited significantly higher specific activities, from three to six-fold, on a molar basis, respectively, than the corresponding 18:0-rich derivatives. These findings are discussed in relation to the importance of the chain length of the alkyl ether group in expression of the biological activity of AGEPC.