Nonallelic histone gene clusters of individual sea urchins (Lytechinus pictus): mapping of homologies in coding and spacer DNA

The linear arrangement and lengths of the spacers and coding regions in the two nonallelic histone gene variant clusters of L. pictus are remarkably homologous by R loop analysis and are similar in general topography to the histone gene repeat units of other sea urchins examined to date. No interventing sequences were detected. The coding regions of these two histone gene variants share considerable sequence homology; however, there are areas of nonhomology in every spacer region and the lengths of the nonhomologous spacers between the H2A and H1 genes are not the same for the two repeat unit classes (inter-gene heterogeneity). Combining length measurements obtained with both R loops and heteroduplexes suggests that the DNA sequences of the analogous leader regions for the two H1 mRNAs are nonhomologous. Similar observations were made for the H4 leader sequences, as well as the trailer region on H2B. S. purpuratus spacer DNA segments share little sequence homology with L. pictus; however, the analgous coding (and possibly flanking) regions have conserved their sequences. The various coding and spacer regions within a repeat unit do not share DNA sequences. Thus certain areas in the sea urchin histone gene repeat units have been highly conserved during evolution, while other areas have been allowed to undergo considerable sequence change not only between species but within a species.     

Isolation and sequence analysis of sea urchin (Lytechinus pictus) histone H4 messenger RNA

Histone messenger RNAs isolated from early blastula stage Lytechinus pictus sea urchin embryos have been separated into discrete RNA bands on polyacrylamide gels. The most rapidly migrating of these molecules, the putative histone H4 mRNA, has been digested with T₁ ribonuclease to generate oligonucleotides for nucleotide sequence analysis. Many of these sequences are colinear with the highly conserved amino acid sequence of histone H4 protein as determined for both cows and peas.Histone H4 messenger RNA hybridizes in conditions of DNA excess to sea urchin DNA which is repeated approximately 470-fold. Despite this level of repetition the nucleotide sequence of the H4 messenger RNA reflects little evolutionary divergence within the H4 genes of L. pictus as judged by the stoichiometric yield of T₁ oligonucleotides and the hybridization and thermal stability of histone H4 mRNA-DNA hybrids.     

Sequence analysis and evolution of sea urchin (Lytechinus pictus and Strongylocentrotus purpuratus) histone H4 messenger RNAs

The putative histone H4 (F2a₁) mRNA has been isolated from early blastula Strongylocentrotus purpuratus sea urchin embryos. Nucleotide sequences of oligonucleotides obtained by digestion of this RNA with T₁ ribonuclease have been obtained and many are found to be colinear with the amino acid sequence of histone H4 protein. The sequences obtained from the H4 mRNAs of S. pnrpuratus have been compared with those obtained from Lytechinus pictus (Grunstein & Schedl, 1976). The two mRNAs for this highly conserved protein have undergone considerable divergence of the sort that would be predicted from the degeneracy of the genetic code. 11.5% of the bases have undergone substitution at a rate calculated to be 3 × 10^?9 base changes · codon^?1 · year^?1.     

Estimation of branched-chain α-keto acids in blood by gas chromatography

Plasma or whole blood is treated with o-phenylenediamine dihydrochloride in phosphoric acid under conditions found spectrophotometrically to give maximum yields of the quinoxalinols. The quinoxalinols are extracted and, after removing phosphoric acid, etc., silylated with bis-trimethylsilyltrifluoracetamide in acetonitrile. Other solvents caused instability of the trimethylsilyl(TMS)-quinoxalinols. Gas chromatography on a packed column of trifluoropropyl silicone gave good separation of the TMS-quinoxalinols from one another and from other substances derived from blood. Some representative values for normal arterial and venous human and canine plasma are reported.     

Isolation and reconstitution of an N-ethylmaleimide-sensitive phosphate transport protein from rat liver mitochondria

An N-ethylmaleimide-sensitive phosphate transport protein has been isolated from rat liver mitochondria, substantially purified, and reconstituted into phospholipid vesicles. Purified inner mitochondrial membrane vesicles depleted of F1-ATPase by urea treatment proved to be the most satisfactory starting material. Treatment of these membrane vesicles with Triton X-100 resulted in solubilization of the phosphate transport protein. Further purification was achieved using hydroxylapatite powder. Polyacrylamide gel electrophoresis of the purified fraction in sodium dodecyl sulfate indicated the presence of two Coomassie blue-staining bands with apparent Mr's of 30,000 and 35,000. Labeling of the 35,000 Mr band by the Pi transport inhibitor diazobenzene sulfonate was reduced markedly by prior treatment of the mitochondria with the inhibitor N-ethylmaleimide. The purified fraction containing both proteins could be reconstituted into liposomes prepared from purified asolectin. Phosphate efflux from these vesicles was inhibited by N-ethylmaleimide, by the impermeant mercurial agent, p-chloromercuribenzoate, and by diazobenzene sulfonate. Treatment of the purified fraction with N-ethylmaleimide prior to incorporation into liposomes resulted in a reconstituted system incapable of catalyzing Pi efflux. These studies summarize the first detailed attempt to purify the Pi/H+ transport system from rat liver mitochondria and emphasize the need to commence the purification with purified inner membrane vesicles depleted of F1-ATPase. In addition, these studies show that the final fraction contains a reconstitutively active transport system which when incorporated into phospholipid vesicles has its essential sulfhydryl groups oriented outward. Finally, it is shown that the purified fraction also contains a 30,000 Mr component.     

Studies on avian erythrocyte metabolism: purification and properties of myo-inositol 1-phosphatase form chick erythrocytes

An enzyme capable of hydrolyzing myo-inositol 1-phosphate was identified and partially purified from the erythrocytes of 7-day chicks. It has an apparent molecular weight of approximately 60,000, is heat stable, and has a pH of optimal activity between 6.5 and 7.3. In most regards the kinetic properties are similar to the myo-inositol 1-phosphatases of rat testis, rat mammary gland, bovine brain, and of yeast. The enzyme has an absolute requirement for a divalent cation; Mg²⁺ gave the greatest activity, with an optimal concentration of 2.5 mm in the standard assay employed. Zn²⁺, Co²⁺, and Mn²⁺ supported activity to a lesser degree. Activity was inhibited by NaF, HgCl₂, and p-hydroxymercuribenzoate. myo-Inositol tetrakis (dihydrogen phosphate) and myo-inositol 1,3,4,5,6-pentakis (dihydrogen phosphate) were not substrates for this enzyme and inhibited the hydrolysis of myo-inositol 1-phosphate. Unlike other phosphatases for myo-inositol 1-phosphate, this enzyme cleaved myo-inositol 1-phosphate (K_m = 8.6 × 10^?5 m) and myo-inositol 2-phosphate (K_m = 2.86 × 10^?4 m) at approximately the same rates. It also hydrolyzed 2′-purine and pyrimidine ribonucleotides about as well as myo-inositol 1-phosphate, but was only 20–30% as active against the 3′-ribonucleotides and had scarcely any activity against the 5′-ribonucleotides. The amount of enzyme activity in erythrocytes of embryos, chicks, and mature chickens was the same (~29 μmol/ml rbc/h). The biological function of this enzyme in avian erythrocytes is unclear at this time. Other tissues containing this phosphatase also have an enzyme which synthesizes myo-inositol 1-phosphate from glucose 6-phosphate, but we have been unable to detect the presence of such an enzyme in avian erythrocytes.     

Prostaglandin (PG) analysis in urine of humans and rats by different radioimmunoassays: Effect on PG-excretion by PG-synthetase inhibitors, laparotomy and furosemide

Thw radioimmunological (RIA) determination of prostaglandin (PG) E₂ and of PGF_2α in urine humans and rats is described in detail. After extraction and chromatography PGE₂ was determined by using a PGE specific antibody or by using either PGB or PGF_2α specific antibodies after the respective conversion procedures. The three different RIA procedures were compared to each other. PGF_2α was determined by a specific antibody to PGF_2α. Basal excretion of PGE₂ and of PGF_2α in healthy women on free diet was 9.3 ng/hour ± 0.96 and 18.3 ng/hour ± 2.5 respectively. Furosemide increased the excretion of PGE₂ and of PGF_2α in humans significantly, while PG-excretion rates decreased on indomethacin. In rat urine PGE₂ and PGE_2α increased markedly from 46.2 pg/min ± 9.3 and 27 ± 3.4 to 253.8 ± 43.3 and 108 ± 12.6 pg/min (per one kidney) in the anesthetized-laparotomized animal. This increase was abolished after giving two different PG synthetase inhibitors.     

Deoxyadenosine metabolism and cytotoxicity in cultured mouse T lymphoma cells: a model for immunodeficiency disease.

The inherited absence of either adenosine deaminase (ADA) or purine nucleoside phosphorylase is associated with severe immunological impairment. We have developed a cell culture model using a mouse T cell lymphoma to simulate ADA deficiency and to study the relationship between purine salvage enzymes and immune function. 2′-deoxyadenosine triphosphate (deoxyATP) levels have been shown to be greatly elevated in erythrocytes of immunodeficient, ADA-deficient patients, suggesting that deoxyadenosine is the potentially toxic substrate in ADA deficiency. Using a potent ADA inhibitor, we have demonstrated that deoxyadenosine is growth-inhibitory and cytotoxic to S49 cells, and that deoxyATP accumulates in these cells. Cell variants, unable to transport or phosphorylate deoxyadenosine, are much less sensitive to deoxyadenosine, indicating that intracellular phosphorylation of deoxyadenosine is required for the lethal effects.We have partially reversed the cytotoxic effects of deoxyadenosine with deoxycytidine in wild-type cells, but we cannot show any reversal in cell lines lacking deoxycytidine kinase. Adenosine (ado) kinase-deficient cells are extremely resistant to deoxyadenosine in the presence of deoxycytidine. This deoxycytidine reversal of deoxyadenosine toxicity is consistent with an inhibition of ribonucleotide reductase by deoxyATP, and we have shown that incubation of S49 cells with deoxyadenosine markedly reduces intracellular levels of deoxyCTP, deoxyGTP and TTP.Kinetics data in wild-type cells and in cell variants are consistent with the presence of two deoxyadenosine-phosphorylating activities — one associated with ado kinase and another associated with deoxycytidine kinase.The S49 cells appear to be a valid model for the simulation of ADA deficiency in cell culture, and from our results, we can suggest administration of deoxycytidine as a pharmacological regimen to circumvent the clinicopathologic symptoms in ADA deficiency.     

The apical lamina of the sea urchin embryo: Major glycoproteins associated with the hyaline layer

The hyaline layer (HL) surrounding the sea urchin blastula appears to dissolve in 1 M glycine. However, after this treatment, there persists over the surfaces of the blastomeres a layer of material, referred to here as the apical lamina (AL), that sloughs off as an adhesive convoluted bag upon gradual dissociation of the embryo. Isolated hyaline layers, referred to as HL-AL complexes, were analyzed by urea-SDS-polyacrylamide gel electrophoresis. A major protein of the HL-AL complex, hyalin, bands or precipitates in the stacking gel. Two other major proteins, both strongly PAS positive, migrate with apparent molecular weights of 175K and 145K daltons. As with intact embryos, the glycine wash removes the hyalin protein from the isolated HL-AL complex, leaving the undissolved AL which consists primarily of the 175K- and 145K-dalton proteins. The embryo's own perivitelline-localized cortical granule peroxidase heavily radioiodinates the proteins of the HL-AL complex, further verifying their apical, extracellular location. Unlike hyalin, the AL proteins do not precipitate with calcium ions. Compared to the entire HL-AL complex, the AL contains a greater percentage of carbohydrate. No sialic acid is associated with the HL-AL complex, but the AL contains some sulfate. In contrast to a published report based on ultrastructural staining, no biochemical evidence was found in this study for the presence of collagen or significant glycosaminoglycan within the HL-AL complex. No developmental differences were observed in AL proteins from 1-hr-old embryos compared to those from blastulae. However, there is evidence suggesting heterogeneity and developmental differences in hyalin. The possible organization of hyalin and the AL proteins into separate layers surrounding the embryo is discussed. The influence of the AL proteins in morphogenesis and cell adhesion is considered, and hypothetical roles attributed to the HL and hyalin are critically questioned.     

A direct, stimulating effect of cyclic GMP on purified phosphoribosyl pyrophosphate synthetase and its antagonism by cyclic AMP

The activity of phosphoribosyl pyrophosphate synthetase, purified from a line of rat hepatoma cells in continuous culture, is maximally stimulated (2–4 fold) by less than 10^?7M cyclic GMP. Half maximal stimulation occurs at 2 × 10^?9M. Cyclic GMP stimulates phosphoribosyl pyrophosphate synthetase by decreasing the Km of the enzyme for ATP from 50 μM to 10 μM without affecting the Vmax; it has no effect on the Km for ribose 5-phosphate, the other substrate. Cyclic AMP alone has no effect on the enzyme activity, but at micromolar concentrations it antagonizes the stimulation by cyclic GMP. GMP, GDP, and GTP do not stimulate enzyme activity; and AMP and ADP at micromolar concentrations do not antagonize the effect of cyclic GMP.There is no detectable cyclic nucleotide-activated protein kinase in the enzyme preparation. Cyclic GMP significantly stabilizes the enzyme to heat inactivation. We conclude that cyclic GMP binds directly to the enzyme in an allosteric fashion, causing it to have an increased affinity for one of its substrates, and that cyclic AMP directly antagonizes this effect.     

Characterization of coho salmon (Oncorhynchus kisutch) insulin

Insulin has been isolated from islet tissue of coho salmon (Oncorhynchus kisutch) by gel filtration and HPLC and the complete amino acid sequence has been determined. The sequence differs from bovine insulin at 14 sites but all interchanges are conservative from the viewpoint of preservation of conformation. A comparison of insulin sequences from other fish is presented. Salmon insulin cross-reacts very weakly with antiserum to bovine insulin and vice versa. A completely homologous radioimmunoassay has been developed and used to estimate the insulin in salmon islet tissue and in plasma. The hypoglycemic effect of salmon insulin in salmon was more pronounced and persisted longer than that caused by identical doses of bovine insulin.     

The effect of cyclic nucleotides on purine biosynthesis and the induction of PRPP synthetase during lymphocyte activation

The activation of lymphocytes has been used to study the regulation of mammalian gene expression. Concanavalin A (Con A) added to mouse spleen lymphocytes in serum-free medium leads to an increase in the rate of DNA synthesis as great as 1000 fold, commencing 20 hr after its addition. Prior to 20 hr, the rate of purine synthesis increases 10–100 fold as measured by accumulation of the purine intermediate, formyl glycineamide ribonucleotide (FGAR). Addition of dibutyryl cyclic GMP to the lymphocyte suspensions results in a 10 fold increase in the rate of DNA synthesis in the absence of Con A and enhances both purine synthesis and DNA synthesis in its presence. The activity of phosphoribosyl pyrophosphate synthetase (PRPP synthetase), an enzyme central to purine and pyrimidine biosynthesis, is increased 2–10 fold during the activation. The increase begins to appear 8 hr after Con A addition and requires concomitant protein synthesis. The induced PRPP synthetase activity is stimulated by the presence of cyclic GMP in the enzyme assay. Addition of dibutyryl cyclic AMP to Con A-stimulated lymphocytes inhibits FGAR production, the stimulation of DNA synthesis, and the appearance of cyclic GMP-sensitive PRPP synthetase. These studies suggest that cyclic nucleotides play a significant role in the molecular mechanism of lymphocyte activation, the regulation of purine biosynthesis, and of eucaryotic genetic expression.     

Eosinophil-mediated killing of schistosomula of Schistosoma mansoni: Oxidative requirement for enhancement by eosinophil colony stimulating factor (CSF-α) and supernatants with eosinophil cytotoxicity enhancing activity (E-CEA)

Factors which enhance eosinophil-mediated killing of antibody-coated schistosomula of Schistosoma mansoni include semipurified eosinophil colony stimulating factor (CSF-α) and eosinophil cytotoxicity enhancing activity (E-CEA) present in supernatants from cultured mononuclear cells. We have examined the mechanism of enhancement. Both actions require oxygen in order to enhance killing and do not enhance killing under anaerobic conditions (P ? 0.005). E-CEA had no detectable effect upon oxidative metabolism. In contrast to CSF-α which, in our previous studies, increased Superoxide anion productions and quantitative leukocyte iodination, E-CEA had no detectable effect upon oxidative metabolism. In order to test whether active oxygen products might mediate enhancement of killing, the effects of the addition of Superoxide dismutase and catalase were tested. Neither enzyme showed inhibition of CSF-α or E-CEA enhancement of eosinophil-mediated killing. The effects of CSF-α and E-CEA were not additive. These studies suggest that both CSF-α and E-CEA exert enhancement of killing by means of an as yet unidentified oxygen requiring process.     

Characterization of fibroblast proliferation factors elaborated by antigen- and mitogen-stimulated guinea pig lymph node cells: Differentiation from lymphocyte-derived chemotactic factor for fibroblasts,lymphocyte mitogenic factor,and interleukin 1

Guinea pig lymph node cells stimulated in culture by T-cell mitogens or sensitizing antigens release ~60,000- and ~16,000-mol wt proteins that induce normal guinea pig fibroblasts to proliferate in vitro. These fibroblast proliferation factors can be separated from lymphocytederived chemotactic factor for fibroblasts and from lymphocyte mitogenic factor by gel filtration employing Sephadex G-100. The 16,000-mol wt fibroblast proliferation factor was found to coelute with interleukin 1 (IL 1) from gel filtration columns. When the 16,000 molecular weight factor was further analyzed by anion exchange-high-performance liquid chromatography five major peaks containing IL 1 activity were obtained, only one contained fibroblast proliferation activity, suggesting forms of IL 1 exist that are not mitogenic for fibroblast. Occasionally, a large-molecular-weight inhibitor of fibroblast proliferation was detectable in void volume fractions from gel filtration of supernatant from antigen-stimulated lymph node cell cultures. This inhibition was accompanied by gross aggregation of fibroblasts. These studies suggest that fibroblast accumulation at sites of certain cell-mediated immune reactions in vivo may in part be attributable to the release of mediators by lymphocytes and, or macrophages that induce fibroblast growth.     

Hypoxanthine and xanthine levels determined by high-performance liquid chromatography in plasma, erythrocyte, and urine samples from healthy subjects: the problem of hypoxanthine level evolution as a function of time

The levels of hypoxanthine and xanthine are determined in plasma, erythrocyte, and urine samples by a reverse-phase high-performance liquid chromatographic (HPLC) method. The hypoxanthine concentration increases in erythrocyte and plasma samples when whole blood is stored at room temperature between sampling and centrifugation. Furthermore, the hypoxanthine concentration increases in erythrocyte samples when they are kept apart at room temperature before analysis, whereas the plasma hypoxanthine level remains constant. This result proves an endogenous formation of hypoxanthine in erythrocytes with time, at room temperature. These studies show the necessity of rigorous conditions for the collection, transport, and treatment of blood samples. In order to achieve accurate results, the blood must be centrifuged immediately after collection. The erythrocyte and plasma samples must be stored frozen until deproteinization and HPLC analysis. Under these conditions, the concentrations of hypoxanthine and xanthine in plasma are 2.5 +/- 1 and 1.4 +/- 0.7 microM, respectively. In erythrocyte samples, hypoxanthine concentration reaches 8.0 +/- 6.2 microM.     

4-Hydroxybenzoate:Polyprenyl transferase and the prenylation of 4-aminobenzoate in mammalian tissues

The effect of variously substituted derivatives of 4-hydroxybenzoic acid on 4-hydroxybenzoate:polyprenyltransferase activity in mitochondrial preparations derived from rat liver and brain has been investigated. Catecholamines such as dihyroxyphenylalanine and norepinephrine showed a minor inhibition of the activity of the enzyme in brain mitochondrial preparations, 4-aminobenzoic acid and 4-chlorobenzoic acid proved to be the most potent inhibitors of the reaction. Inhibition by 4-hydroxymercuribenzoate indicated that -SH groups were essential for activity. Studies using ¹⁴C-labeled compounds further revealed that 4-aminobenzoic acid was inhibitory by virtue of its ability to serve as an alternate substrate for prenylation. The product of the prenylation is identified as 3-polyprenyl-4-aminobenzoate based on chromatographic characteristics of the products formed in liver mitochondria and Escherichia coli, the retention of the carboxyl group of 4-[carboxyl-¹⁴C]aminobenzoate, the incorporation of isopentenyl pyrophosphate, the effect of bacitracin, and the retention of the amino group. 4-Chlorobenzoic acid was not prenylated. A survey of rat tissues shows that heart tissue contains maximum polyprenyltransferase activity when compared to liver, kidney, spleen and brain. The significance of the above results is discussed.     

Interaction of poly(l-lysine) and Ca2+ with stearic acid monolayers

Interaction of poly(l-lysine) and Ca²⁺ with stearic acid monolayers is studied at pH 9.1, 9.9 and 10.7. The competition between the condensation effect of Ca²⁺ and the expansion effect of the protein on the monolayer is seen to depend on surface pressure as well as pH. Ca²⁺ is much less effective in the competition when the poly(l-lysine) penetration into the monolayer is stabilized by electrostatic interactions.     

alpha 1-Adrenergic receptors in guinea pig myocardium: identification by binding of a new radioligand, (3H)-prazosin.

Binding of (³H)-prazosin to adrenoceptors in guinea pig myocardial membranes was rapid, readily reversible, stereospecific and saturable. By Scatchard analysis (n = 6) Bmax was 58 fmol of (³H)-prazosin bound/mg protein and the K_D was 0.58 nm. The Hill number was 1.05. Adrenergic agonists competed with (³H)-prazosin as follows: (?)adrenaline > (?)noradrenaline > (?)phenylephrine ? ($\text{+}$)isoprenaline > (+)noradrenaline; antagonists competed in the order: non-radioactive prazosin > phentolamine ? piperoxan > yohimbine > sulpiride > propranolol. The K_D for beta-adrenoceptors assessed by (?³H)-dihydroalprenolol was 0.86 nM and the Bmax (96 fmol/mg protein) was almost twice that of alpha-adrenoceptors. (³H)-prazosin appears to be a useful radioligand for the study of post-synaptic (alpha₁) adrenoceptors in myocardial tissue.     

Origin,structure, composition and age-dependence of mineralized dense bodies (concretions) in the midgut epithelium of the adult housefly, Musca domestica

The epithelial cells of the midgut in 1–40 day old adult female houseflies were examined by electron microscopic, X-ray microanalytic and histochemical techniques in order to study the mode of genesis, chemical nature and age-associated distribution of dense bodies. Dense bodies contain high concentrations of phosphorus, sulphur, chlorine, calcium, iron and copper; they are therefore termed concretions. Concretionary material is initially deposited within Golgi vesicles, lamellar bodies and residual bodies. The average size of the concretion granules and the concentration of the sequestered material increases with age, while new concretions are continually formed throughout life. With advancing age, concretions accumulate in the epithelial cells and occupy a considerable proportion of the cytoplasm in old flies. It is postulated that the concretions sequester superfluous minerals and may play an important role in the excretory system of the adult housefly.     

The role of divalent cations in interactions between lymphokines and macrophages

The divalent cation requirements of lymphokine-mediated alterations in macrophage function (activation and inhibition of migration) were examined. Normal rabbit alveolar macrophages exposed to incubation supernatants of antigen-stimulated sensitized lymphocytes (lymphokine) were activated, manifested by increased adherence and enhanced bactericidal activity, as compared with control cells. This lymphokine-mediated activation was dependent upon the presence of extracellular Mg²⁺ (but not Ca²⁺). Our data from both current and previous studies suggest that Mg²⁺ influx is necessary for initiation or support of the macrophage activation process. The divalent cation requirements for lymphokine (MIF)-induced inhibition of macrophage migration differed from that of the activation phenomenon. Specifically, both Ca²⁺ and Mg²⁺ were required for expression of MIF activity. Adsorption experiments indicate that these cations are needed for binding of MIF to the macrophage surface.