FORMATION OF BONE TISSUE IN CULTURE FROM ISOLATED BONE CELLS

A system is described for the formation of bone tissue in culture from isolated rat bone cells. The isolated bone cells were obtained from embryonic rat calvarium and periosteum or from traumatized, lifted periosteum of young rats. The cells were cultured for a period of up to 8 wk, during which time the morphological, biochemical, and functional properties of the cultures were studied. Formation of bone tissue by these isolated bone cells was shown, in that the cells demonstrated osteoblastic morphology in light and electron microscopy, the collagen formed was similar to bone collagen, there was mineralization specific for bone, and the cells reacted to the hormone calcitonin by increased calcium ion uptake. Calcification of the fine structure of the cells and the matrix is described. Three stages in the calcification process were observed by electron microscopy. It is concluded that these bone cells growing in vitro are able to function in a way similar to such cells in vivo. This tissue culture system starting from isolated bone cells is therefore suitable for studies on the structure and function of bone.     

Alleles at four HLA class II loci determined by oligonucleotide hybridization and their associations in five ethnic groups

The use of polymerase chain reaction (PCR) and oligonucleotide hybridization offers a new approach for the definition of HLA class II alleles. It has been possible to determine 43 alleles of DRB1, four of DRB3, two of DRB4, four of DRB5, eight of DQA1, and 14 of DQB1. These alleles are inherited together in members of families and form closely associated groups which are found repeatedly and in characteristics patterns in different populations. We have determined the HLA class II alleles and analyzed their association in 431 healthy unrelated subjects including 161 North American Caucasians, 53 Latin Americans, 61 Blacks, 88 Chinese, and 68 Israeli Jews. For-locus haplotypes (DRB1; DRB3/4/5; DQA1; DQB1) were derived from 79 B cell lines and the analysis of segregation in 34 nuclear families. The B-cell lines yielded 37 and the families showed the same, and 20 other, haplotypic combinations. In addition to these 57 haplotypes, associated alleles were assigned in the unrelated panels following certain rules. The resulting haplotypes were assigned to groups known to share associated alleles. The groups were: (1) DR1, DR2, and DRw10 (13 haplotypes); (2) DR3 and DRw6 (26 haplotypes); (3) DR5 and DRw8 (24 haplotypes); (4) DR4, DR7, and DR9 (24 haplotypes). Their distribution in populations with different ethnic backgrounds was analyzed. The expressed DRB4 allele and its null mutant were determined by PCR and oligonucleotide hybridization. The different DR7 haplotypes resulting from these determinations were analyzed in a panel of 130 North American Caucasoids. This comprehensive analysis of class II HLA haplotypes in human populations should be useful in understanding the role of these genes and in various applications including anthropolgy, disease susceptibility, and transplantation of allogeneic organs and tissues. Address correspondence and offprint requests to: P. Stastny     

Polyamine levels in pollinated and auxin-induced fruit of tomato (Lycopersicon esculentum) during development

The changes taking place during fruit development in the concentration of the 3 polyamine fractions, i.e. free, perchloric acid-soluble conjugates and perchloric acid-insoluble bound polyamines, were analyzed in tomato fruits ( Lycopersicon esculentum Mill, cv. F121) induced to set by either pollination or auxin application. Before the onset of cell division, total polyamines were 50% higher in auxin-treated fruits than in pollinated ones, most of the polyamines being found as perchloric acid-soluble conjugates in both fruit set treatments. At the onset the level of polyamines in both fruit types was 100 times higher than during cell expansion or ripening. The highest polyamine found during cell division was perchloric acid-soluble conjugated spermidine in both fruit set treatments. After cell division, polyamine concentration was similar in both fruit set treatments. The concentration of polyamines in the jelly was similar in pollinated and auxin-induced fruits during cell expansion but not during ripening. At the onset of ripening there was an increase of one order of magnitude in the concentration of perchloric acid-insoluble bound putrescine in the jelly of pollinated fruits. Polyamines were more than 5-fold higher in unpollinated ovaries than in fruits induced to set by either pollination or auxins. It is suggested that pollinated and parthenocarpic fruits differ in their polyamine metabolism during the initial stages of development, but not after cell division. It is also suggested that polyamines undergo rapid turnover during cell division. Perchloric acid-insoluble bound putrescine might play a role in seed formation in tomatoes.     

Intraamniotic Ethyl Docosahexaenoate Administration Protects Fetal Rat Brain from Ischemic Stress

Abstract: Studies were conducted on the prenatal rat given a single intraamniotic injection of ethyl docosahexaenoate (Et-DHA; 9.6–12 mmol per fetus) or subjected to an n-3 fatty acid-deficient diet to assess the role of docosahexaenoate on oxidative stress during episodes of ischemia. A time-dependent decrease in the ability of brain slices from animals treated with Et-DHA to produce thiobarbituric acid-reactive substance (TBARS), most pronounced after 1 day (from 58.1 ± 4.22 to 15.9 ± 1.6 nmol/mg of DNA), was noticed on stimulation with Fe²⁺. Brain slices from fetuses treated for 1 day with Et-DHA and those from untreated fetuses produced TBARS levels of 46.7 ± 6.5 and 114.8 ± 10.8 nmol/mg of DNA, respectively, after a 20-min occlusion of the fetal-maternal circulation at embryonic day 20, suggesting a protective effect of Et-DHA. The protective effect of a single dose of Et-DHA in utero remained high up to 3 days after injection ( p < 0.001) and was long-lasting, yet not significant, up to 3 days following birth. In agreement with a reduction in TBARS production by slices, the endogenous levels of TBARS in brains of Et-DHA-treated animals were lower than in the controls. Et-DHA-injected fetuses exhibited significantly higher levels of esterified DHA than the non-injected controls. n-3-deficient diet given to dams for 2 weeks before birth did not affect the levels of TBARS production in control fetal brain slices but abolished the increase caused by ischemia. Et-DHA administration for 24 h to n-3-deficient fetuses reduced the amount of TBARS produced by the fetal brain slices from 49.1 ± 8.5 to 31.7 ± 4.1 nmol/mg of DNA. A protective effect from oxidative damage after postischemic oxidative stress in fetal brain following DHA supplements is suggested, whereas the effect of n-3 fatty acid deficiency in this regard is more ambiguous.     

Identification of Two Distinct Populations of Protein Kinase C in Rat Brain Membranes

The regulatory enzyme protein kinase C (PKC) is proposed to be activated on its translocation from the cytosol to the membrane. However, a portion of the native activity is always associated with the membrane fraction. Using a noninvasive procedure to extract this endogenous activity from rat brain membranes, it has been possible to characterize the activity in a partially purified reconstituted system bearing resemblance to the in vivo system. Two subpopulations of membrane-associated PKC were identified and characterized at the level of activation, inhibition, and isozyme immunologic characteristics and chromatographic properties. One peak had properties similar to those of cytosolic PKC, whereas the second population, extracted as protein-lipid complexes, had considerable constitutive activity that could be stimulated further on addition of PKC activators. This latter activity was relatively resistant to staurosporine inhibition and phorbol ester treatment, but it phosphorylated the exogenous PKC substrates, histone 1 and the epidermal growth factor receptor peptide KTRLRR. The constitutive activity was totally dependent on its endogenous associated lipids coextracted by the solubilization procedure. The ratio between these two populations was ontogenetically regulated and modulated by phorbol ester treatment, suggesting that different PKC populations may serve unique functions in the rat brain regulated by the lipid environment. Analyses of the phospholipids extracted in these protein-lipid complexes showed differences in the major classes correlating to age. However, apart from a markedly lower cholesterol content in these complexes, no direct relationship between a specific lipid composition and the amount of constitutive PKC activity was evident.     

Differential inhibitory effects of vitamin E and other antioxidants on prostaglandin synthetase,platelet aggregation and lipoxidase

Prostaglandin biosynthesis from eicosa-8,11,14-trienoic acid in microsomes from the bovine vesicular gland is inhibited by the antioxidants α-naphthol, guaiacol, NDGA and propyl gallate. Prostaglandin biosynthesis in this system is not inhibited by the antioxidants BHT, DL-α-tocopherol and Trolox C. Arachidonic acid induced platelet aggregation is inhibited specifically by α-naphthol, guaiacol, NDGA and propyl gallate. Both arachidonic acid induced platelet aggregation and ADP induced platelet aggregation are inhibited non-specifically by the antioxidants BHT, DL-α-tocopherol and Trolox C. All antioxidants tested in this study inhibit soybean lipoxidase. Thus α-naphthol, NDGA and propyl gallate are non-specific inhibitors of both prostaglandin synthetase and soybean lipoxidase while BHT, DL-α-tocopherol and Trolox C are specific inhibitors of soybean lipoxidase alone.     

Polar Head Group Decarboxylation and Methylation of Phospholipids: An Alternate Route for Phosphatidylcholine Formation in Cultured Neuronal Cells

Decarboxylation of phosphatidylserine (SPG) and methionine-dependent, stepwise methylation of phosphatidylethanolamine (EPG) to form phosphatidylcholine (CPG) were examined in monolayer cultures of rat cerebral cells. Ethanolamine, monomethylaminoethanol, or dimethylaminoethanol nitrogenous bases (N-bases) added to culture medium at millimolar level result each in synthesis of the corresponding phospholipid via a de novo pathway at initial rates of 0.18, 0.30, and 0.36 nmol/h/micrograms DNA, respectively. Addition of methyl-labeled methionine to culture medium at tracer levels or at millimolar concentration enabled measurements of the rates of phospholipid methylation from EPG phosphatidylmonomethylaminoethanol (Me1EPG) and phosphatidyldimethylaminoethanol (Me2EPG) precursors. At tracer doses, the rates of methylation from the above respective phospholipids are 0.45, 1.17, and 1.70 pmol/h/micrograms DNA. At 1 mM methionine, synthesis of CPG proceeds from [14C]EPG or [14C]Me2EPG at initial rates of 8 and 17 pmol/h/micrograms DNA, respectively. Although the latter phospholipid analog can be generated from its monomethyl precursor, methylation of EPG does not result in the accumulation of Me2EPG, suggesting two segregated and metabolically distinct pathways. In the presence of N-bases, of the total [3H]serine incorporated into cellular phospholipids 30-36.5% of labelled SPG is converted into decarboxylation products. The decarboxylation and methylation routes contribute a significant portion of choline from endogenous sources, most likely through conversion of SPG.