Organization of α-chain genes among Hb G-Philadelphia heterozygotes in association with Hb S, β-thalassemia,and α-thalassemia-2

The percentages of the -chain variant Hb G-Philadelphia (Hb G) or ₂ 68 AsnLys₂ were evaluated in 84 adult and 18 newborn heterozygotes. These included members of three families who were studied in more detail by nucleic acid hybridization techniques. The adult heterozygotes fell in two categories, one with a higher proportion of Hb G [46.5±1.0% (SD), N=21] and another with lower values (33.9±3.4%, N=63). Among the newborn heterozygotes, two babies fell in the category with the higher proportion of Hb G while 16 babies gave values between 25 and 34%. Studies of -chain gene organization on the parents of one neonate with a Hb G level of 27% at birth and 37% at 8 months excluded the presence of chromosomes with triplicated -chain genes which could lead to the ^0G/ genotype. Rather, these studies on five Hb G heterozygotes from three families confirmed the linkage between Hb G and a specific type of -thalassemia-2 associated with the presence of a 16-kbp Bgl II fragment which most probably carries the ^G locus since it has been found in 19 Hb G heterozygotes studied to date. The presence of an -thal-2 heterozygosity and three -chain genes (^0G/) was confirmed among Hb G heterozygotes with lower proportions of this variant. It is likely that the even lower values found in some newborn could arise through defective assembly of ^G- dimers. The presence of an -thal-2 homozygosity and two active -chain genes, one on each chromosome (^0G/⁰), was confirmed among heterozygotes with the higher proportion of Hb G. One of each of these categories was present in each of the three families investigated. This type of variability in the number of active -chain genes due to a heterozygosity or a homozygosity for -thalassemia-2 explains the trimodality of Hb S percentages among heterozygotes and the atypical hematological or biosynthetic features among patients with -thalassemia and sickle-cell syndromes.This research was supported by USPHS Research Grants HLB-05168 and HLB-15158 and by designated research funds of the Veterans Administration. This is Contribution No. 0693 of the Department of Cell and Molecular Biology, Medical College of Georgia, Augusta.     

Inhibition of protein synthesis enhances the lytic effects of tumor necrosis factor α and interferon γ in cell lines derived from gynecological malignancies

Summary Few clinical responses have occurred in preliminary studies using the cytokines tumor necrosis factor (TNF) or interferon (IFN) in cancer patients. This may be related to the observation that many malignant cell lines are resistant to lysis by these cytokinesin vitro. Resistance to lysis by TNF or IFN in many cells is controlled by a protein-synthesis-dependent mechanism, such that when protein synthesis is inhibited cells become sensitive to lysis by these cytokines. Because there is some evidence that TNF and IFN act through different lytic mechanisms and are opposed by different resistance mechanisms, we treated a panel of eight cell lines, five derived from human cervical carcinomas (ME-180, MS751, SiHa, HT-3, and C-33A) and three derived from ovarian carcinomas (Caov-3, SK-OV-3, and NIH: OVCAR-3) with both TNF and IFN to determine whether such combination treatment might maximizein vitro cell lysis. Our results showed that pretreatment with IFN followed by exposure to TNF in the presence of protein synthesis inhibitors increased lysis of seven of the eight cell lines above that seen with either TNF or IFN and inhibitors of protein synthesis. Only the cell line C-33A was resistant to lysis by TNF and IFN, when exposed to these agents both alone and in combination with protein synthesis inhibitors. Clinically, combining the cytokines TNF and IFN with protein synthesis inhibitors may maximize thein vivo lytic effects of these cytokines.Supported by American Cancer Society Career Development Award 90-221     

SDS Induced Structural Changes in α-Crystallin and It’s Effect on Refolding

-Crystallin, a major eye lens protein and a key member of the small heat shock protein family, acts like a chaperone by preventing aggregation of substrate proteins. One of the hallmarks of most small heat shock proteins is their existence as a large oligomer, the role of which in its function is not understood at present. We have studied the role of the oligomer in the stability of its structure against SDS induced destabilization by CD measurements. -Crystallin from bovine source as well as recombinant preparation was used for this purpose. As SDS concentration was gradually increased, the -sheet structure was diminished followed by concomitant increase in the -helical structure. The quaternary structural changes in presence of SDS were also monitored by light scattering, polarization and anisotropy measurements. It was found that the breakdown of the oligomeric structure was nearly complete above 1 mM SDS concentration. The results were compared with that of a monomeric -crystallin, which is also a major -sheet protein like -crystallin. When -crystallin was first converted into monomeric random coil structure in presence of 6 M urea and allowed to refold in SDS solution, amount of -helix was more than that incubated directly in the same concentration of SDS. The results show that -crystallin attains extra structural stability against external stress due to its oligomeric structure. The implication for the extra stability is discussed in reference to its function as molecular chaperone.     

A Simple Method for Preparation of 18α-Glycyrrhetinic Acid and Its Derivatives

Treatment of 18-glycyrrhizic acid with a methanolic solution of HCl resulted in 1 : 1 mixture of methyl esters of 18- and 18-glycyrrhetinic acids. Benzoylation of the mixture led to methyl esters of 3-benzoyl-18-glycyrrhetinic acid and 3-benzoyl-18-glycyrrhetinic acid, which were separated by chromatography on silica gel. 18-Glycyrrhetinic acid was prepared by alkaline hydrolysis of methyl 3-benzoyl-18-glycyrrhetinate and was further used for the syntheses of 3-keto-18-glycyrrhetinic acid and methyl esters of 18-glycyrrhetinic acid and 3-keto-18-glycyrrhetinic acid.     

Immunocytochemical localization of POMC-derived peptides (adrenocorticotropic hormone, α-melanocyte-stimulating hormone and β-endorphin) in the pituitary,brain and olfactory epithelium of the frog,Rana esculenta,during development

Developmental stages of Rana esculenta, starting with the posterior limb-bud stage (stage 26) up to a few days after metamorphosis, were examined immunohistochemically to localize cells and fibers producing some POMC-derived peptides, namely, -MSH, ACTH and -END. Anti ACTH and anti -MSH revealed a positive reaction in the pars intermedia during all stages of development included in this study, whereas no immunoreactivity in this pituitary zone was ever evidenced with anti -END. In the pars distalis strongly positive cells were seen with anti ACTH and anti -END, while anti -MSH yielded weakly positive cells. Interestingly, these peptides were colocalized in the same cells. Immunoreactivity for -MSH was no longer present in the pars distalis during metamorphic climax and postmetamorphosis. In the brain of premetamorphic tadpoles, belonging to stages 26 to 30, a few neurons in the posterior telencephalon showed a positive reaction only with anti -MSH,but from stage 31 (prometamorphosis) onwards, ACTH and -endorphin-like peptide producing cells, together with -MSH-immunoreactive cells, were seen in this region and in the anterior preoptic area and infundibulum. This situation persisted in the subsequent stages of development. Anti -MSH also revealed weakly positive cells in the olfactory epithelium in premetamorphic tadpoles; strong immunoreactivity with anti -MSH was seen in olfactory epithelium cells in animals during prometamorphosis, metamorphic climax and postmetamorphosis. The possible significance of these findings is briefly discussed.     

Study of amino acid formation during palmitate oxidation in rat brain mitochondria

The interrelation of palmitate oxidation with amino acid formation in rat brain mitochondria has been investigated in purified mitochondria of nonsynaptic origin by measuring the formation of aspartate, -ketoglutarate, and glutamate during palmitate oxidation, and also by assaying¹⁴C-products of [1-¹⁴C]palmitate oxidation. Oxidation of palmitate (or [1-¹⁴C]palmitate) resulted in the formation of aspartate (or¹⁴C-aspartate), and the oxidation was inhibited by aminooxyacetate (an inhibitor of transaminase), Palmitate oxidation also resulted in -ketoglutarate formation, which was sensitive to the effect of aminooxyacetate. Addition of NH₄Cl was found to increase¹⁴C-products and formation of -ketoglutarate, whereas glutamate formation was not increased unless the rate of palmitate oxidation was reduced by 50% by aminooxyacetate or -ketoglutarate was added exogenously. Exogenous -ketoglutarate was found to decrease¹⁴C-products, but not aspartate formation. These results indicated that palmitate oxidation was closely related to aspartate formation via aspartate aminotransferase. During palmitate oxidation without aminooxyacetate or added -ketoglutarate, however, -ketoglutarate was not available for glutamate formation via glutamate dehydrogenase. We discuss the possibility that this was because (a) oxidative decarboxylation of -ketoglutarate to form succinyl-CoA was favored over glutamate formation for the competition for -ketoglutarate in the same pool, and (b) the pool of -ketoglutarate produced in the aspartate aminotransferase reaction did not serve as substrate for glutamate formation.     

Synthesis of α-galacto-oligosaccharides by a cloned α-galactosidase from Bifidobacterium adolescentis

A genomic library of Bifidobacterium adolescentis was constructed in Escherichia coli and a gene encoding an -galactosidase was isolated. The identified open reading frame showed high similarity and identity with bacterial -galactosidases, which belong to Family 36 of the glycosyl hydrolases. For the purification of the enzyme from the medium a single chromatography step was sufficient. The yield of the recombinant enzyme was 100 times higher than from B. adolescentis itself. In addition to hydrolytic activity the -galactosidase showed transglycosylation activity and can be used for the production of -galacto-oligosaccharides.     

Testosterone and progesterone metabolism in the central nervous system: Cellular localization and mechanism of control of the enzymes involved

Summary This paper summarizes the most recent data obtained in the authors' laboratory on the metabolism of testosterone and progesterone in neurons and in the glia.1. The activities of 5-reductase (the enzyme that converts testosterone into dihydrotestosterone; DHT) and of 3-hydroxy steroid dehydrogenase (the enzyme that converts DHT into 5-androstane-3,17-diol; 3-diol) were first evaluated in primary cultures of neurons, oligodendrocytes, and type-1 and type-2 astrocytes, obtained from the fetal or neonatal rat brain. The formation of DHT and 3-diol was evaluated incubating the different cultures with labeled testosterone or labeled DHT as substrates. The results obtained indicate that the formation of DHT takes place preferentially in neurons; however, also type-2 astrocytes and oligodendrocytes possess considerable 5-reductase activity. A completely different localization was observed for 3-hydroxysteroid dehydrogenase; the formation of 3-diol appears to be prevalently, if not exclusively, present in type-1 astrocytes; 3-diol is formed in very low yields by neurons, type-2 astrocytes, and oligodendrocytes. Moreover, the results indicate that, in type 1 astrocytes, both 5-reductase and 3-HSD are stimulated by coculture with neurons and by the addition of neuron-conditioned medium, suggesting that secretory products released by neurons might intervene in the control of glial cell function.2. Subsequently it was shown that, similarly to what happens when testosterone is used as the substrate, 5-reductase, which metabolizes progesterone into 5-pregnane-3,20-dione, (DHP), shows a significantly higher activity in neurons than in glial cells; however, also type-1 and type-2 astrocytes as well as oligodendrocytes possess some ability to 5-reduce progesterone. On the contrary, 3-hydroxysteroid dehydrogenase, the enzyme which converts DHP into 5-pregnane-3-ol-20-one (THP), appears to be present mainly in type-1 astrocytes; much lower levels of this enzyme are present in neurons and in type-2 astrocytes. At variance with the previous results obtained using androgens as precursors, oligodendrocytes show considerable 3-hydroxysteroid dehydrogenase activity, even if this is statistically lower than that present in type-1 astrocytes. The existence of isoenzymatic forms of the enzymes involved in androgen and progesterone metabolism is discussed.     

Expression of the Arabidopsis G-protein GPα1: purification and characterisation of the recombinant protein

The Arabidopsis G subunit, GP1, was expressedwithin Escherichia coli by co-transformation with the expressionvector and the dnaY gene which encodes tRNA^Arg _AGA/AGG. Isolation of the recombinant GP1 in a highly pureform could be achieved by a combination of anion exchange and dyeaffinity chromatography or by a single step affinity procedure viachromatography on 4-amino-anilido-GTP agarose. The recombinant proteinyielded by both procedures was highly active and bound GTPS withan apparent K_d in the nM range. GTPS binding wasstimulated two-fold in the presence of Zn²⁺ compared with that inthe presence of Mg²⁺, Mn²⁺ or Ca²⁺.Abbreviations: 4aaGTP, 4-amino-anilido-GTP; GTPS,guanosine- 5-(3-O-thiotriphosphate), PMSF,phenylmethylsulphonyl fluoride; PVDF, polvinylidene fluoride;rGP1, recombinant GP1     

Ascorbic acid spares α-tocopherol and prevents lipid peroxidation in cultured H4IIE liver cells

Ascorbic acid, or vitamin C, can recycle -tocopherol in lipid bilayers, but even sparing of -tocopherol has not been a consistent finding in intact cells. Therefore, we tested the ability of ascorbate loading to spare -tocopherol and to prevent lipid peroxidation of cultured H4IIE rat liver cells. Although -tocopherol was undetectable in H4IIE cells, its cell content was increased by overnight incubation with -tocopherol in culture. Cells incubated with ascorbate 2-phosphate accumulated ascorbate to concentrations as high as 0.6 mM after overnight loading, but also released ascorbate into the medium. Ascorbate loading of -tocopherol-treated cells spared -tocopherol in a concentration-dependent manner during overnight incubation. Lipid peroxidative damage, measured as a decrease in fluorescence of cell-bound cis-parinaric acid, was decreased in cells loaded with either -tocopherol or ascorbate 2-phosphate, and showed an additive effect. These results suggest that ascorbate loading of H4IIE cells spares cellular -tocopherol and either directly or through recycling of -tocopherol prevents lipid peroxidative damage due to oxidant stress in culture.