A genetic study of bovine lymphocyte antigens (BoLA) and their frequency in several breeds

Using sera which defined the BoLA specificities at the two International BoLA workshops (Edinburgh, 1978 and Wageningen, 1980) and the European Regional workshop (Paris, 1979),142 informative matings from 15 bulls have been studied. On the basis of this data, 11 of the 15 internationally agreed specificities and one of the regionally defined specificities behave as if controlled by alleles at a single autosomal locus. Data has not as yet been obtained for the other four internationally agreed specificities which are also believed to be at this locus. — The frequencies of 13 of the internationally agreed specificities and one of the regionally defined specificities have been studied for both sexes in one breed and for a single sex in another five breeds. The other two internationally agreed specificities are very recent and the populations have not been tested for them. The frequencies between sexes within a breed and within sexes between breeds differ significantly.     

Expansion of the tetragonally arrayed cell wall protein layer during growth of Bacillus sphaericus.

The outermost layer of the cell wall of Bacillus sphaericus strain P-1 is a tetragonally arrayed structure (T-layer) which is assembled from a single polypeptide. No turnover of T-layer was detected during growth of cultures. In contrast, the turnover of peptidoglycan was between 20 and 25% per generation. The sites of deposition of new T-layer on the cell surface were identified by the indirect fluorescent antibody technique, which labeled old T-layer, and by the reverse technique, which labeled new T-layer. These experiments demonstrated that the major area of T-layer deposition was a band at the site of an incipient cell division. This band subsequently split and covered the new pole of each progeny cell. Little or no T-layer was inserted into existing poles. In addition, multiple bands of new T-layer, which probably accommodate cell elongation, were inserted along the lateral surface of the cell.     

The role of single-strand breaks in the catenation reaction catalyzed by the rat type I topoisomerase

The type I topoisomerase from rat cells produces true catenanes from circular SV40 DNA in a reaction which is dependent on the presence of a single-strand break in at least one member of a pair of reacting molecules. The role of the single-strand break in the reaction was examined. Molecules containing a nick with a 3'-hydroxyl and 5'-phosphate or a nick with a 3'-phosphate and 5'-hydroxyl and molecules with single-stranded gaps were all found to be equally effective in the catenation reaction. It was found that the enzyme could, at a low frequency, break DNA by acting opposite a pre-existing single-strand break. Thus, incubation of nicked circular DNA in the presence of the topoisomerase, polynucleotide kinase, and [gamma-32P]ATP led to the production of a low level of labeled linear molecules containing covalently attached protein. Nicked linear molecules treated with topoisomerase in the absence of polynucleotide kinase generated fragments of sizes consistent with breakage in the opposite strand near the pre-existing nick. Based on these results, we propose that the catenation reaction may involve the transient production of linear intermediates by the action of the topoisomerase opposite a pre-existing nick in the DNA. Rejoining of the two ends by the enzyme could lead to the interlocking of two or more circular DNAs. In addition, these results suggest a possible role for the type I topoisomerase in illegitimate recombination.     

Interaction of heme oxygenase-2 with nitric oxide donors. Is the oxygenase an intracellular 'sink' for NO?

Heme oxygenase-2 (HO-2) is the constitutive cognate of the heat-shock protein-32 family of proteins. These proteins catalyze oxidative cleavage of heme to CO and biliverdin, and release Fe. HO-2 is a hemoprotein and binds heme at heme regulatory motifs (HRMs) with a conserved Cys-Pro pair; two copies of HRM are present in HO-2 (Cys264 and Cys281). The HO-2 HRMs are not present in HO-1 and are not involved in HO-2 catalytic activity. Optical CD, and spectral and activity analyses were used to examine reactivity of HO isozymes with NO species produced by NO donors. Purified Escherichia coli-expressed HO preparations, wild-type HO-2, Cys264/Cys281 --> Ala/Ala HO-2-mutant (HO-2-mut) and HO-1 preparations were used. A type II change (red shift) of the Soret band (405 nm --> 413-419 nm) was observed when wild-type HO-2 was treated with sodium nitroprusside (SNP), S-nitroglutathione (GSNO), S-nitroso-N-acetylpenicillamine (SNAP) or 3-morpholinosydnonimine (SIN-1); the NO scavenger, hydroxocobalamin (HCB) prevented the shift. Only SIN-1, which produces peroxynitrite by generating both NO and superoxide anion, decreased the Soret region absorption and the pyridine hemochromogen spectrum of HO-2; superoxide dismutase (SOD) blocked the decrease. Binding of heme to HO-2 protein was required for shift and/or decrease in absorption of the Soret band. NO donors significantly inhibited HO-2 activity, with SNP being the most potent inhibitor (> 40%). Again, trapping NO with HCB blocked HO-2 inactivation. HO-1 and HO-2-mut were not inactivated by NO donors. CD data suggest that the decrease in HO-2 activity was not related to change by NO species of the secondary structure of HO-2. Western blot analysis suggests that NO donors did not cause HO-1 protein loss and Northern blot analysis of HeLa cells treated with SIN-1 and SNP indicates that, unlike HO-1 mRNA, which is remarkably responsive to the treatments, HO-2 mRNA levels were modestly increased ( approximately two to threefold) by NO donors. The data are consistent with the possibility that NO interaction with HO-2-bound heme effects electronic interactions of residues involved in substrate binding and/or oxygen activation. The findings permit the hypothesis that HO-2 and NO are trans-inhibitors, whereby biological activity of NO is attenuated by interaction with HO-2, serving as an intracellular 'sink' for the heme ligand, and NO inhibits HO-2 catalytic activity. As such, the cellular level of both signaling molecules, CO and NO would be moderated.     

Variation in the surface layer proteins of Clostridium difficile

Surface layers (S-layers) form regular crystalline structures on the outermost surface of many bacteria. Clostridium difficile possesses such an S-layer consisting of two protein subunits. Treatment of whole cells of C. difficile with 5 M guanidine hydrochloride revealed two major proteins of different molecular masses characteristic of the S-layer on SDS-PAGE. In this study 25 isolates were investigated. A high degree of variability in the molecular mass of the two S-layer proteins was evident. Molecular masses ranged from 48 to 56 kDa for the heavier protein and from 37 to 45 kDa for the lighter protein. A further protein component of 70 kDa was detectable in all isolates. No cross-reaction was seen between the two major proteins from isolates that produced different S-layer patterns, and most S-layer proteins from isolates with the same or similar banding patterns did not cross-react. The S-layer proteins, when detected by a combination of Coomassie blue staining and immunoblotting, are a useful marker for phenotyping.     

Crystal structure of a biliverdin IXalpha reductase enzyme-cofactor complex

Biliverdin reductase (BVR) catalyzes the last step in heme degradation by reducing the gamma-methene bridge of the open tetrapyrrole, biliverdin IXalpha, to bilirubin with the concomitant oxidation of a beta-nicotinamide adenine dinucleotide (NADH) or beta-nicotinamide adenine dinucleotide phosphate (NADPH) cofactor. Bilirubin is the major bile pigment in mammals and has antioxidant and anticompliment activity. We have determined X-ray crystal structures of apo rat BVR and its complex with NADH at 1.2 A and 1.5 A resolution, respectively. In agreement with an independent structure determination of the apo-enzyme, BVR consists of an N-terminal dinucleotide-binding domain (Rossmann-fold) and a C-terminal domain that contains a six-stranded beta-sheet that is flanked on one face by several alpha-helices. The C-terminal and N-terminal domains interact extensively, forming the active site cleft at their interface. The cofactor complex structure reported here reveals that the cofactor nicotinamide ring extends into the active site cleft, where it is adjacent to conserved amino acid residues and, consistent with the known stereochemistry of the reaction catalyzed by BVR, the si face of the ring is accessible for hydride transfer. The only titratable side-chain that appears to be suitably positioned to function as a general acid in catalysis is Tyr97. This residue, however, is not essential for catalysis, since the Tyr97Phe mutant protein retains 50% activity. This finding suggests that the dominant role in catalysis may be performed by hydride transfer from the cofactor, a process that may be promoted by proximity of the invariant residues Glu96, Glu123, and Glu126, to the nicotinamide ring.     

Analysis of alloantisera against bovine lymphocytes. Joint report of the 1st International Bovine Lymphocyte Antigen (BoLA) workshop

The results and agreements of the 1 international BoLA workshop, held in Edinburgh, Scotland in August 1978, are reported. Most of these concern the results from a comparison test of 249 alloantisera to bovine lymphocytes, the antisera being contributed by 9 laboratories. These sera were compared directly in Edinburgh on a panel of lymphocytes from 130 cattle of 21 breeds. In the microlymphocytotoxicity test used 75% of the sera reacted. Sixty eight of these sera were grouped into clusters according to their reaction patterns against the lymphocyte panel. Eleven of these clusters were clearly defined and were given workshop BoLA designations. In addition 22 sera were assigned to subgroups of the agreed clusters. There was no evidence that the method of production of the sera had any effect on their specificity. Although genetic data was not available, the phenotypes of the test panel of lymphocytes are consistent with the clusters detecting antigens controlled by multiple alleles at a single autosomal locus. It was agreed to name the genetic region where this putative locus is located BoLA (bovine lymphocyte antigen).     

Neuronal Overexpression of Heme Oxygenase-1 Correlates with an Attenuated Exploratory Behavior and Causes an Increase in Neuronal NADPH Diaphorase Staining

Abstract: Heme oxygenase isozymes, HO-1 (also known as hsp32) and HO-2, are the source for the formation of the putative messenger molecule carbon monoxide (CO), reactive iron, and the in vitro antioxidant bilirubin. We have developed and characterized transgenic (Tg) mice that overexpress the stress protein in neurons in various brain regions. The Tg mice were generated by the use of rat HO-1 cDNA under the control of the neuron-specific enolase promoter. Except for a tendency to have an enlarged spleen, Tg mice did not show gross anatomical changes. Increase in HO-1 mRNA, which was demonstrated by northern blot analysis and in situ hybridization, was accompanied by an increase in neuronal HO-1 protein expression, shown by immunohistochemistry and western blotting, and an increase in HO activity. Expression of the transgene correlated with an attenuation of exploratory behavior and increased circling activity and coincided with enhanced neuronal NADPH diaphorase staining. Those changes were not accompanied by an increase in DNA damage or significant change in whole-brain NO synthase activity. The HO-1 Tg mice potentially represent a good model to examine the function of CO as a neuromodulator, iron as a gene regulator, and bile pigments as in vivo antioxidants.