Absence of covalent binding by insulin to erythrocyte and reticulocyte insulin receptors

We investigated whether insulin forms covalent bonds with its receptors on erythrocytes and reticulocytes, as it does in adipocytes (1). Of the [125I]-insulin specifically bound at 37 degrees C to human and rat erythrocytes and rat reticulocytes, only 1.5-2.3% was non-dissociable on extensive washing. When ghosts prepared from the washed cells were solubilized in Triton X-100, only 0.6-1.5% of the specifically bound radioactivity appeared in the void volume of a Sephadex G-50 column. Moreover in contrast to adipocytes, this high molecular weight radioactivity was not immunoprecipitable by antibodies to the insulin receptor and was dissociated during chromatography in sodium dodecyl sulphate. Thus we have been unable to demonstrate the formation of covalent bonds between insulin and its receptors on erythrocytes and reticulocytes. This finding is consistent with the hypothesis that covalent binding of insulin is a necessary receptor modification for insulin's metabolic effects.     

Drug residue formation from ronidazole, a 5-nitroimidazole. II. Involvement of microsomal NADPH-cytochrome P-450 reductase in protein alkylation in vitro

Purified liver microsomal NADPH-cytochrome P-450 reductase is able to catalyze the activation of [14C]ronidazole to metabolite(s) which bind covalently to protein. Like the reaction catalyzed by microsomes, protein alkylation catalyzed by the reductase is (1) sensitive to oxygen, (2) requires reducing equivalents, (3) is inhibited by sulfhydryl-containing compounds and (4) is stimulated several fold by either flavin mononucleotide (FMN) or methytlviologen. A cytochrome P-450 dependent pathway of ronidazole activation can be demonstrated as judged by the inhibition of the reaction by carbon monoxide, metyrapone and 2,4-dichloro-6-phenylphenoxyethylamine but the involvement of specific microsomal cytochrome P-450 isozymes has not been definitively established. Milk xanthine oxidase is also capable of catalyzing ronidazole activation. Polyacrylamide sodium dodecyl sulfate (SDS)-gel electrophoresis reveals that the reactive intermediate(s) of ronidazole does not alkylate proteins selectively.     

Use of methyl green-DNA agarose for detecting deoxyribonuclease activity in polyacrylamide gels

A liquid scintillation counting system is described that allows recovery of compounds for further study and analysis. For most classes of compounds tested (with the exception of steroids) the recovery was high (usually at least 90%) and in the case of nucleosides was accompanied by very little degradation of the sample. The counting method should be useful for the counting of samples where a high recovery of the compound is necessary.     

Conditions for reproducible detection of calmodulin and S100 beta in immunoblots

The conditions used in some immunoblot procedures can fail to detect calmodulin, S100 proteins, and other proteins with similar physical properties. We describe here some of the basis of this difficulty, and provide an immunoblot protocol that allows the rapid and reproducible detection of calmodulin and S100 beta in crude biological samples. These proteins are rapidly transferred from sodium dodecyl sulfate-polyacrylamide gels to membrane matrices, and retention on the matrix is enhanced by a glutaraldehyde fixation step. Either nitrocellulose or a positively charged membrane filter (ZetaProbe) can be used as the immobilizing matrix. By combining microslab gel electrophoresis, 30 min electrophoretic transfer, and glutaraldehyde fixation of nitrocellulose paper, an immunoblot analysis can be done in an 8-hr day.     

Fluorography--limitations on its use for the quantitative detection of 3H- and 14C-labeled proteins in polyacrylamide gels

The suitability of fluorography for the detection of 3H- and 14C-labeled proteins on polyacrylamide gradient gels has been investigated. It was found that the absorbance of the fluorographic film image produced by a given level of radioactivity decreased as the acrylamide concentration in the gel increased. The use of Coomassie brilliant blue protein dyes to stain the gel prior to fluorography reduced the absorbance of the fluorographic image. It is concluded that quantitative fluorography can only be applied to unstained gels of a uniform acrylamide concentration.     

Non-random binding of N-acetoxy-N-2-acetylaminofluorene to chromatin subunits as visualized by immunoelectron microscopy

The influence of chromatin structure on the accessibility of DNA to the model ultimate carcinogen N-acetoxy-N-2-acetylaminofluorene (N-Aco-AAF) was investigated by means of an immunoelectron microscopic technique developed recently. An homogeneous population of core particles or trinucleosomes from chicken erythrocytes, was submitted to electrophilic attack by N-Aco-AAF. After DNA isolation, N-2-acetylaminofluorene (AAF) binding sites were mapped upon the DNA fragments using specific antibodies as a probe. Our results indicate a non-random binding of AAF along the DNA. Our data support the results of previous studies showing a preferential binding on the linker region.     

delta-Aminolevulinate synthase isozymes in the liver and erythroid cells of chicken

Antibodies raised against the purified chicken liver delta-aminolevulinate synthase showed a partial cross-reactivity with the chicken erythroid delta-aminolevulinate synthase. delta-Aminolevulinate synthase synthesized in vitro using polysomes from erythroid cells showed a subunit molecular weight of 55,000, whereas the enzyme synthesized in vitro using liver polysomes had a subunit molecular weight of 73,000. delta-Aminolevulinate synthase isolated from mitochondria of erythroid cells showed a molecular weight of 53,000, while the enzyme in liver mitochondria had a value of 65,000. These observations imply that the erythroid delta-aminolevulinate synthase differs from the hepatic enzyme.     

59Fe]Ferrous bathophenanthroline sulfonate: a radioactive stain for labeling proteins in situ in polyacrylamide gels

The use of a protein stain, [⁵⁹Fe]ferrous bathophenanthroline, to radioactively label proteins in polyacrylamide gels after electrophoresis using simple staining and destaining procedures is described.     

A method of DNA quantitation for localization of DNA in metrizamide gradients.

A quantitative assay for DNA is described that involves the binding of the cytologicalstain, methyl green, to DNA. At pH 7.9, solutions containing free methyl green undergo complete fading whereas solutions containing DNA-bound methyl green retain color in proportion to the amount of DNA present. The procedure allows for the quantitation of DNA in the presence of urea, sucrose, EDTA, protein, dithiothreitol, metrizamide, and low-concentration salts. This method is also applicable to the quantitation of DNA in chromatin.     

Plasmids with temperature-dependent copy number for amplification of cloned genes and their products

Miniplasmids (pKN402 and pKN410) were isolated from runaway-replication mutants of plasmid R1. At 30°C these miniplasmids are present in 20–50 copies per cell of Escherichia coli, whereas at temperatures above 35°C the plasmids replicate without copy number control during 2–3 h. At the end of this period plasmid DNA amounts to about 75% of the total DNA. During the gene amplification, growth and protein synthesis continue at normal rate leading to a drastic amplification of plasmid gene products. Plasmids pKN402 (4.6 Md) and pKN410 (10 Md) have single restriction sites for restriction endonucleases EcoRI and HindIII; in addition plasmid pKN410 has a single BamHI site and carries ampicillin resistance. The plasmids can therefore be used as cloning vectors. Several genes were cloned into these vectors using the EcoRI sites; chromosomal as well as plasmid-coded β-lactamase was found to be amplified up to 400-fold after thermal induction of the runaway replication. Vectors of this temperature-dependent class will be useful in the production of large quantities of genes and gene products. These plasmids have lost their mobilization capacity. Runaway replication is lethal to the host bacteria in rich media. These two properties contribute to the safe use of the plasmids as cloning vehicles.     

Crosslinking of proteins to ribosomal RNA in HeLa cell polysomes by sodium periodate.

HeLa cell polysomes were oxidized with sodium periodate and reduced with sodium borohydride to induce covalent crosslinks between ribosomal RNA and nearby proteins. We proved that RNA was tryly crosslinked to protein in oxidized, and not in control, samples using denaturing cesium trichloroacetate density gradients and phenol extraction. By both one- and two-dimensional gel analysis, we found that protein S3a can be crosslinked to 18S RNA, protein L3 to 28S RNA, and proteins L7′ and L23′ to 5.8S RNA. Because of the specificity of the periodate reaction, and since we were able to crosslink protein S1 to 16S RNA in $\text{Escherichia}$,$\text{coli}$ 30S ribosomal subunits, it is likely that we have crosslinked proteins to the 3′OH ends of HeLa polysomal RNAs.     

Semipreparative electrophoresis with prestained proteins.

A simple method for prestaining proteins with Coomassie blue G prior to acrylamidegel electrophoresis is described. Many, although not all, undenatured proteins can be stained. This prestaining technique can be conveniently coupled with a second electrophoresis step, using Sephadex as a supporting medium, to yield isolated protein in about 4 h.     

Serum albumin biosynthesis and secretion by resting and lectin stimulated human lymphocytes

Normal human peripheral lymphocytes, cultured in serum-deprived medium, synthetized and released serum albumin and some glycoproteins into the culture supernatant. With the use of [3H]leucine, it was shown that this biosynthetic activity was increased about 2-3 times when the mitogenic lectin from Robinia pseudo acacia was added to the lymphocyte culture medium.     

Selective increase in cytokeratin synthesis in cultured rat hepatocytes in response to hormonal stimulation

Addition of a combination of insulin, dexamethasone and EGF at seeding time to cultured rat hepatocytes in serum-free medium caused a selective increase in the biosynthesis of particular cytokeratin components. This increase was prominent during the first day in culture. No significant increases were detected in the absence of hormones or in the presence of either hormones added alone or in pairs, except in the case of insulin plus dexamethasone, which yielded an effect close to that obtained with the three factors. Interestingly, the latter condition also maintained a high level of albumin production over a 6-day period in culture.     

A simplified technique to isolate the porcine and human ileal intrinsic factor receptors and studies on their subunit structures.

The porcine intestinal intrinsic factor receptor was isolated with affinity chromatography utilizing vitamin B12-intrinsic factor-Sepharose and pH adjustments. The purification was about 70 000-fold and in sodium dodecyl sulphate electrophoresis it resolved into two carbohydrate-containing 70 000 and 130 000 dalton bands (alpha and beta subunits) indicating purity. The human receptor was similarly purified and radioiodinated for further studies. It was also composed of two subunits (90 000 and 140 000 dalton). The alpha subunits bound to anti-intrinsic factor antisera.     

Effects of thyroid hormone administration on the susceptibility of rat liver chromatin to digestion with micrococcal nuclease

The accessibility of rat liver chromatin to digestion with micrococcal nuclease was investigated in normal, thyroidectomized and thyroid hormone-treated animals. A significant increase in digestibility of chromatin by micrococcal nuclease was produced by thyroid hormone treatment. The DNA in the soluble fraction analyzed by electrophoresis showed identical sizes in thyroidectomized and triiodothyronine-treated animals. However, DNA in the pellet obtained from thyroidectomized animals showed a relatively high concentration of polynucleosomes which were virtually undetectable in the pellet from thyroid hormone-treated animals. Analysis of proteins in the micrococcal nuclease solubilized fraction of chromatin revealed differences between thyroidectomized and thyroid hormone-treated animals. It is suggested that thyroid hormone causes changes in nucleoproteins which alter the structure of chromatin in such a way as to expose more DNA to nuclease attack and/or increases the solubility of released nucleosomes.     

A simple and sensitive apparatus for continuous monitoring of orthophosphate in the presence of acid-labile compounds

A new technique is described for obtaining reproducible transient-state isoelectric focusing patterns of human pancreatic secretory proteins. This method is excellent for preservation of the proteins for further analysis because of the avoidance of urea, the short running times, and low temperatures. The protein patterns were analyzed on a point-by-point basis by a computer using an extension of our previously published method (Allan, B. J., Kirk, J., and White, T. T., 1978, Biochem. Biophys. Res. Commun., 85, 1239–1246). It was possible with these techniques to subtract various types of backgrounds and to construct average densitometric tracings for statistical analysis.