Genetic Analysis of a Mouse t Complex Locus That Is Homologous to a Kidney Cdna Clone

A mouse kidney cDNA clone, pMK174, identifies restriction fragment length polymorphisms (RFLPs) that map to two unlinked loci. One, designated D17Rp17, has been mapped near quaking, (qk), on chromosome 17 using three sets of recombinant inbred (RI) strains. A study of several t haplotypes resulted in the identification of t-specific alleles of D17Rp17 that map to the proximal half of the t complex. Neither t-specific nor wild-type D17Rp17 alleles are present in chromosomes carrying either the T Orleans (TtOrl) or the T hairpin tail (Thp) deletions. Comparison with other molecular markers indicates that pMK174 identifies a new proximal t complex locus, Rp17. The second locus identified by pMK174, termed D4Rp18, is tentatively assigned to chromosome 4 by mouse-Chinese hamster somatic cell hybrid analysis.     

Inhibitory Effect of Autoclaving Whey-Based Medium on Propionic Acid Production by Propionibacterium shermanii

Propionic acid production by Propionibacterium shermanii was compared in pasteurized and autoclaved whey-based media. Propionic acid production decreased with increasing whey concentration in autoclaved media but not in pasteurized media. Increasing the yeast extract concentration from 5 to 10 g/liter greatly reduced the inhibitory effect of autoclaving.     

Production of High-Viscosity Whey-Glucose Broths by a Xanthomonas campestris Strain

Acclimation of a sandy soil to an air-natural gas mixture stimulated the biological oxidation of chloroform to carbon dioxide. Acetylene and methane inhibited chloroform oxidation. Chloroform oxidation continued up to 31 days in the absence of methane. Chloroform oxidation rates increased at chloroform concentrations up to 5 μg g of soil^-1.     

The hormone-sensitive hepatic Na+-pump. Evidence for regulation by diacylglycerol and tumor promoters

Ouabain-sensitive 86Rb+ uptake by isolated rat hepatocytes was studied to elucidate how Ca2+-mobilizing hormones stimulate the Na+-pump. Stimulation of this uptake was observed with concentrations of vasopressin ([8-arginine]vasopressin, AVP), angiotensin II, and norepinephrine which elicited Ca2+ mobilization and phosphorylase activation. These results suggested that changes in cytosolic Ca2+, mediated by inositol trisphosphate, might trigger sodium pump stimulation by AVP. However, in hepatocytes incubated in Ca2+-free Krebs-Henseleit buffer, Na+-pump activity was not altered over 15 min by either 1.5 mM EGTA or 1.5 mM Ca2+. Furthermore, incubation of cells in 5 mM EGTA for 15-30 min drastically impaired the ability of AVP to increase cytosolic Ca2+, but only modestly attenuated AVP-stimulated Na+-pump activity. Two tumor promoters, phorbol myristate acetate (PMA) and mezerein, stimulated Na+/K+-ATPase-mediated transport activity. Similarly, addition of synthetic diacylglycerols or of exogenous phospholipase C from Clostridium perfringens to increase endogenous diacylglycerol levels also resulted in a stimulation of the Na+-pump in the absence of changes in cytosolic or total cellular Ca2+ levels. Stimulation of the Na+-pump by the combination of maximal concentrations of PMA and AVP did not produce an additive response, and both agents displayed a transient time course, suggesting that the two agents share a common mechanism. Stimulation of the Na+-pump by AVP and PMA was not blocked by amiloride analogs which inhibit Na+/H+ exchange, but these compounds blocked the action of insulin. These data suggest that the elevated Na+/K+-ATPase-mediated transport activity observed in hepatocytes following exposure to Ca2+-mobilizing hormones is a consequence of stimulated diacylglycerol formation and may involve protein kinase C.     

Inhibition of hepatic alpha 1-adrenergic effects and binding by phorbol myristate acetate

Treatment of isolated hepatocytes with the tumor-promoting agent, 4 beta-phorbol 12 beta-myristate 13 alpha-acetate (PMA) produced a time- and dose-dependent, non-competitive inhibition of alpha 1-adrenergic responses, including the activation of phosphorylase, increase in Ca2+ efflux, increase in free cytosolic Ca2+, and release of myo-inositol-1,4,5-P3. The actions of [8-arginine] vasopressin (AVP) on liver cells were also inhibited by PMA, but the inhibition could be overcome by high AVP concentrations. No significant inhibition of beta-adrenergic and glucagon-mediated activation of phosphorylase was induced by PMA and no inhibitory or synergistic effects of PMA were observed on the dose-dependent activation of phosphorylase by the Ca2+ ionophore A23187. In radioligand binding studies, PMA did not directly interfere with [3H]prazosin specific binding, the displacement of [3H]prazosin by (-)-norepinephrine nor with [3H]AVP specific binding to purified liver plasma membranes. Plasma membranes prepared from livers perfused with PMA exhibited a 30-44% reduction in [3H]prazosin binding capacity. Under identical conditions [3H]AVP binding was unchanged. The alpha 1-receptors remaining in membranes from PMA-treated livers had equivalent affinities for [3H]prazosin and (-)-norepinephrine, and were unaffected in terms of coupling to guanine nucleotide-regulating proteins as indicated by the ability of guanosine 5'-(beta, gamma-imido)triphosphate to promote the conversion of the remaining alpha 1-receptors into a low affinity state. These data indicate that tumor promoters are potent antagonists of alpha 1-adrenergic and vasopressin (low dose) responses in liver. It is proposed that PMA acting via protein kinase C (which presumably mediates the action of PMA) exerts its inhibitory action on alpha 1-adrenergic responses at the alpha 1-adrenergic receptor itself and also at a site close to or before myo-inositol-1,4,5-P3 release.     

Evidence for [D-Ala2,D-Leu5]Enkephalin-Induced Supersensitivity to 5-Hydroxytryptamine in a Neurotumor × Brain Hybrid Cell Line (NCB-20)

A neuroblastoma X Chinese hamster embryonic brain explant hybrid cell line (NCB-20) expressed 5-hydroxytryptamine (5-HT1) receptors, linked to adenylate cyclase, which closely resembled 5-HT1 receptors previously characterized in central nervous tissue. However, the affinity of the receptors for 5-HT was only 150 nM compared to 5 nM in membranes prepared from cerebral cortex. The elevation of cyclic AMP levels in NCB-20 cells produced by 5-HT was found additive to that produced by cholera toxin but synergistic with that produced by either prostaglandin E1 (PGE1) or forskolin, suggesting that these latter two agents elevate cyclic AMP levels by a different mechanism than 5-HT. The elevation of cyclic AMP levels by either 5-HT or PGE1 was reversed by [D-Ala2,D-Leu5]enkephalin (DADLE), morphine, clonidine, and 3,4-dihydroxyphenylethylamine (dopamine) on a short (30 min) time scale. However, continued exposure to DADLE resulted in loss of the initial inhibitory effects of DADLE after 6 h and return of cyclic AMP levels to that seen with either 5-HT or PGE1 alone. When the DADLE exposure time was increased to 48 h, 5-HT produced a further twofold increase in cyclic AMP levels, but there was no increase in the responsiveness of the cells to PGE1 unless naloxone was added 1 h prior to treatment with PGE1. Scatchard analysis showed that the increased potency of 5-HT resulted from an increase in receptor affinity for 5-HT (from a KD of 150 +/- 20 nM to one of 20 +/- 7 nM), with a reduction in the number of apparent binding sites. The 5-HT supersensitivity observed in NCB-20 cells may be a good model for neurotransmitter interactions that produce desensitization or facilitation in the intact nervous system.     

Stimulation of inositol trisphosphate formation in hepatocytes by vasopressin, adrenaline and angiotensin II and its relationship to changes in cytosolic free Ca2+.

At maximally effective concentrations, vasopressin (10(-7) M) increased myo-inositol trisphosphate (IP3) in isolated rat hepatocytes by 100% at 3 s and 150% at 6 s, while adrenaline (epinephrine) (10(-5) M) produced a 17% increase at 3 s and a 30% increase at 6 s. These increases were maintained for at least 10 min. Both agents increased cytosolic free Ca2+ [( Ca2+]i) maximally by 5 s. Increases in IP3 were also observed with angiotensin II and ATP, but not with glucagon or platelet-activating factor. The dose-responses of vasopressin and adrenaline on phosphorylase and [Ca2+]i showed a close correspondence, whereas IP3 accumulation was 20-30-fold less sensitive. However, significant (20%) increases in IP3 could be observed with 10(-9) M-vasopressin and 10(-7) M-adrenaline, which induce near-maximal phosphorylase activation. Vasopressin-induced accumulation of IP3 was potentiated by 10mM-Li+, after a lag of approx. 1 min. However the rise in [Ca2+]i and phosphorylase activation were not potentiated at any time examined. Similar data were obtained with adrenaline as agonist. Lowering the extracellular Ca2+ to 30 microM or 250 microM did not affect the initial rise in [Ca2+]i with vasopressin but resulted in a rapid decline in [Ca2+]i. Brief chelation of extracellular Ca2+ for times up to 4 min also did not impair the rate or magnitude of the increase in [Ca2+]i or phosphorylase a induced by vasopressin. The following conclusions are drawn from these studies. IP3 is increased in rat hepatocytes by vasopressin, adrenaline, angiotensin II and ATP. The temporal relationships of its accumulation to the increases in [Ca2+]i and phosphorylase a are consistent with it playing a second message role. Influx of extracellular Ca2+ is not required for the initial rise in [Ca2+]i induced by these agonists, but is required for the maintenance of the elevated [Ca2+]i.     

Structural analysis of a maize gene coding for glutathione-S-transferase involved in herbicide detoxification

Summary We have used the cDNA clone encoding maize glutathione-S-transferase (GST I) to isolate a genomic DNA clone containing the complete GST I gene. Nucleotide sequence analysis of the cDNA and genomic clones has yielded a complete amino acid sequence for maize GST I and provided the exon-intron map of its gene. The mRNA homologous sequences in the maize GST I gene consist of a 107 bp 5 untranslated region, a 642 bp coding region and 340 bp of the 3 untranslated region. They are divided into three exons by two introns which interrupt the coding region. The 5 untranslated spacer contains an unusual sequence of pentamer AGAGG repeated seven times. The inbred maize line (Missouri 17) contains a single gene for GST I, whereas the hybrid line (3780A) contains two genes. Nucleotide sequence analysis of the primer extended cDNA products reveals that the 5 untranslated regions of the two genes in the hybrid 3780A are identical except for a 6 bp internal deletion (or insertion). The amino acid sequence of maize GST I shares no apparent sequence homology with the published sequences of animal GST's and represents the first published sequence of a plant GST. re]19850813 ac]19851126     

Mechanism of hepatic glycogen synthase inactivation induced by Ca2+-mobilizing hormones. Studies using phospholipase C and phorbol myristate acetate.

Incubation of hepatocytes with the protein kinase C activator and tumour promoter 4 beta-phorbol 12 beta-myristate 13 alpha-acetate (PMA) produced a time- and concentration-dependent inactivation of glycogen synthase, but no change in phosphorylase. The same rate and extent of inactivation occurred in hepatocytes depleted of Ca2+ by treatment with the Ca2+ chelator EGTA. When hepatocytes were treated with the Ca2+-mobilizing hormone vasopressin (10 nM), the rate of glycogen synthase inactivation was similar to that observed with PMA (1 microM). Depletion of intracellular Ca2+ stores with EGTA abolished the ability of vasopressin to mobilize Ca2+ and activate phosphorylase without abolishing its ability to inactivate glycogen synthase and increase 1,2-diacylglycerol (DAG), the endogenous activator of protein kinase C. Protein kinase C, either in membranes or after partial purification, was shown to be activated in vitro by PMA in the presence of very low concentrations of Ca2+. Exogenous phospholipase C from Clostridium perfringens, at low concentrations, inactivated glycogen synthase and increased DAG without affecting cell Ca2+ or phosphorylase. It is proposed that the inactivation of glycogen synthase elicited by the Ca2+-mobilizing hormones is due, at least in part, to generation of DAG and activation of protein kinase C.