Monoclonal antibody specific for α2→8-linked oligo deaminated neuraminic acid (KDN) sequences in glycoproteins. Preparation and characterization of a monoclonal antibody and its application in immunohistochemistry

Two particular types of sialoglycoproteins have been detected in fish: polysialoglycoproteins containing 28-linked polysialic acid (8Neu5Gc2) _n present in unfertilized Salmonidae fish eggs, and glycoproteins bearing oligo/polymers of deaminated neuraminic acids (KDN) found in the vitelline envelope of the eggs and ovarian fluid. We report the preparation and characterization of a monoclonal antibody specifically recognizing oligo/polymers of KDN sequences in glycoproteins and its application in immunohistochemistry. Fusion of spleen cells from a BALB/c mouse immunized with a KDN-rich glycoprotein (KDN-gp) containing (8KDN2) _n 6(KDN23Gal13GlNAc13) GalNAc1 residues, with mouse myeloma cells yielded a hybrid cell line producing a monoclonal antibody that bound to KDN-gp, but not to KDN-gp depleted of KDN residues. The specificity of the monoclonal antibody, designated mAb.kdn8kdn, was determined by an enzyme-linked immunosorbent assay using KDN-gp samples that varied in KDN content. These antigens were prepared by the selective removal of KDN residues from the native KDN-gp. The mAb.kdn8kdn reacted most strongly with the intact KDN-gp and less strongly with KDN-gp samples containing decreased numbers of KDN residues. The mAb.kdn8kdn was shown specifically to recognize the 28-linked oligo/polyKDN sequences, (8KDN2) _n , and to be able to distinguish specifically (8KDN2) _n chains from (8Neu5Ac2) _n and (8Neu5Gc2) _n chains. The antibody was used successfully for the immunohistochemical detection of reactive KDN epitopes in sections of paraffin embedded rat pancreas. Several controls verified the specificity of the immunohistochemical staining, thus providing the first demonstration of (8KDN2) _n sequences in a mammalian tissue. The mAb.kdn8kdn can now be used to search further for glycoconjugates containing (8KDN2) _n chains and will facilitate studies on their biosynthesis, intracellular localization and function.     

α-Thalassemia and the production of different α chain variants in heterozygotes

The production of five chain variants (Hb G-Georgia, Hb St. Luke's, Hb Lloyd, Hb Montgomery, and Hb G-Philadelphia) in heterozygotes was evaluated through hematological observations, hemoglobin quantification, and biosynthetic studies. All heterozygotes for Hb St. Luke's and Hb Lloyd and most heterozygotes with Hb G-Georgia and Hb Montgomery had normal hematology and average / values of about 1.1. They were assigned a normal genotype (^G/), although the proportions of Hb St. Luke's and Hb G-Georgia were low (10 to 13%) and those of Hb Lloyd and Hb Montgomery twice as high (20%). Data from short-term incubations confirmed this genotype for some of these heterozygotes. Isolated Hb St. Luke's and Hb G-Georgia gave low ^G/ values (0.2 and 0.3) indicating that these Hb variants were defective at the level of Hb assembly. Isolated Hb Montgomery and Hb G-Philadelphia, however, gave higher ^G/ values of 0.6 and 0.8, respectively. A second type of variability existed among Hb G-Georgia (20 vs. 13%), Hb Montgomery (28 vs. 20%), and Hb G-Philadelphia (47 vs. 34%) heterozygotes, in whom the levels of Hb G differed. The occurrence of higher levels of these three chain heterozygosities was associated with hematological or biosynthetic evidence of a mild or moderate chain deficiency due to an -thalassemia-2 heterozygosity (^G/⁰ or ^0G/) or a homozygosity (^0G/⁰), respectively.This study was supported in part by USPHS Research Grants HLB-05168 and HLB-15158.     

Transformation of 16-dehydroprogesterone and 17α-hydroxyprogesterone by Mucor piriformis

Mucor piriformis was used to study the mode of transformation of 16-dehydroprogesterone (I, pregna-4, 16-diene-3, 20-dione) and 17-hydroxyprogesterone (II, 17-hydroxypregn-4-ene-3, 20-dione). Biotransformation products formed from I were 14-hydroxypregna-4, 16-diene-3, 20-dione (Ia), 7, 14-dihydroxypregna-4, 16-diene-3, 20-dione (Ib), 3, 7, 14-trihydroxy-5-pregn-16-en-20-one (Ic), and 3, 7, 14-trihydroxy-5-pregn-16-en-20-one (Id). Metabolites Ic and Id appear to be hitherto unknown. Time-course studies suggested that the transformation is initiated by hydroxylation at the 14-position (Ia) followed by hydroxylation at the 7-position (Ib). Microsomes (105,000 g sediment) prepared from 16-dehydroprogesterone-induced cells hydroxylate I to its 14-hydroxy derivative (Ia) in the presence of NADPH. Incubation of Ia with the organism resulted in the formation of Ib, Ic and Id. Biotransformation products formed from compound II were 17, 20-dihydroxypregn-4-en-3-one (IIa), 7, 17-dihydroxypregn-4-ene-3, 20-dione (IIb), 6, 17, 20-trihydroxypregn-4-en-3-one (IIc) and 11, 17, 20-trihydroxypregn-4-en-3-one (IId). Time-course studies indicated that IIa is the initial product formed, which is further hydroxylated either at the 6 or 11 position. Incubation of IIa with the organism resulted in the formation of IIc and IId. Reduction of the 4-en-3-one system and 20-keto group has not been observed before in organisms of the order Mucorales. In addition, M. piriformis has been shown to carry out hydroxylation at the C-6, C-7, C-11 and C-14 positions in the steroid molecules tested.     

Identification of surface exposed amino acids of isolated and membrane-bound CF1 by protease accessibility

In order to compare surface-exposed amino acids in isolated and membrane-bound CF₁ the technique of limited proteolysis was employed. The cleavage sites of several proteases were identified by sequence analysis of the resulting peptides after isolation by SDS-PAGE. In isolated CF₁ the N-terminal region of the subunit was found to be highy sensitive to proteases; the accessible peptide bonds included E17-G18, R21-E22, E22-V23, and K24-V25. Additional protease-attacked bonds in subunit were S86-S87, xE125-S126. and R127-L128. In the subunit of isolated CF₁ the bonds L14-E15 and V76-A77 were identified as being accessible. All identified protease accessible amino acids are located at the protein surface according to a molecular model of CF₁ computed after the crystal structure of mitochondrial F₁ by S. Engelbrecht (1997). In membrane bound CF₁ the primarily accessible peptide bond of the N-terminal domain of is R21-E22. After this bond is cleaved by trypsin, the K24-V25 becomes accessible to further trypsin attack. Moreover, the peptide bonds R14O-S141 and G16O-R161 are cleaved. According to the Engelbrecht model G16O is almost completely shielded and actually this amino acid was hardly accessible to protease in isolated CF₁. The subunit in general is much more sensitive to proteolysis in membrane-bound than in solubilized CF₁. In the subunit of membrane-bound CF₁ a papain-sensitive bond G102-G103 was identified. The results indicate major structural alterations when CF₁ is extracted from the CF₀CF₁ complex. Thiol modulation, i.e. reduction of the regulatory disulfide bond between C199 and C205 of y subunit, enhances the accesibility of a number of peptide bonds, in particular G160-R161, to proteolytic attack by papain. In contrast, thylakoid membrane energization results in masking of this peptide bond.     

Structures and Functions of Calcium Channel β Subunits

Calcium channel subunits have profound effects on how ₁ subunits perform. In this article we summarize our present knowledge of the primary structures of subunits as deduced from cDNAs and illustrate their different properties. Upon co-expression with ₁ subunits, the effects of subunits vary somewhat between L-type and non-L-type channels mostly because the two types of channels have different responses to voltage which are affected by subunits, such as long-lasting prepulse facilitation of _1C (absent in _1E) and inhibition by G protein dimer of _1E, absent in _1C. One subunit, a brain 2a splice variant that is palmitoylated, has several effects not seen with any of the others, and these are due to palmitoylation. We also illustrate the finding that functional expression of ₁ in oocytes requires a subunit even if the final channel shows no evidence for its presence. We propose two structural models for Ca²⁺ channels to account for ₁ alone channels seen in cells with limited subunit expression. In one model, dissociates from the mature ₁ after proper folding and membrane insertion. Regulated channels seen upon co-expression of high levels of would then have subunit composition ₁. In the other model, the chaperoning remains associated with the mature channel and ₁ alone channels would in fact be ₁ channels. Upon co-expression of high levels of the regulated channels would have composition [₁].     

Modulation of natural killer activity by thymosin alpha 1 and interferon

Summary A single injection of -interferon (-IFN) (30 000 units/mouse), a major biological modifier of natural killer (NK) cytolytic activity, strongly stimulated NK activity in normal mice, as expected, while the same treatment did not statistically alter the NK response in cyclophosphamide (CY)-suppressed animals.We investigated the possibility of thymosin ₁ cooperating with -IFN in boosting NK activity in CY-suppressed animals.The results show that treatment with thymosin ₁ (200 g/kg) for 4 days, followed by a single injection of -IFN 24 h before testing, strongly restored NK activity in CY-suppressed mice. Thymosin ₁ was, moreover, able to accelerate the recovery rate of NK activity in bone marrow reconstituted murine chimeras.Taken together the data support the concept that the synergic effect between thymosin ₁ and -IFN could be the result of effects on differentiation of the NK lineage at different levels.     

Characterization of a new Bacillus stearothermophilus isolate: a highly thermostable α-amylase-producing strain

A novel strain of Bacillus stearothermophilus was isolated from samples of a potato-processing industry. Compared to known -amylases from other B. stearothermophilus strains, the isolate was found to produce a highly thermostable -amylase. The half-time of inactivation of this -amylase was 5.1 h at 80°C and 2.4 h at 90°C. The temperature optimum for activity of the -amylase was 70°C; the pH optimum for activity was relatively low, in the range 5.5–6.0. -Amylase synthesis was regulated by induction and repression mechanisms. An inverse relationship was found between growth rate and -amylase production. Low starch concentrations and low growth temperatures were favourable for enzyme production by the organism. At the optimal temperature for growth, 65°C, the -amylase was a growth-associated enzyme. The optimal temperature for -amylase production, however, was 40°C, with -amylase increasing from 3.9 units (U)/ml to 143 U/ml when lowering the growth temperature from 65°C to 40°C. Maximal -amylase production in a batch fermentor run at 65°C was 102 U/ml, which was 26-fold higher than in erlenmeyer flasks at 65°C. The dissolved O₂ concentration was found to be a critical factor in production of the -amylase.     

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.     

Spectral position control of dye absorption band maximum in an orienting matrix

The continuous control of the maximum position of the dye absorption band (the zero of the derivative dD ()/d of the cell's optical density D ()) in a nematic matrix is demonstrated experimentally, as a result of changing the angle between the optical axis of a planar-oriented sample and the plane of polarization of absorbed light incident normal to the optical axis. The theory proposed describes quantitatively the experimental dependence (). The rotation of the polarizer with given frequency results in the spectral position modulation of the solute band maximum () within (=0°)–(90°)=700 cm^–1.     

α-Subunit Composition of Nicotinic Cholinoreceptors of Neurons of the Guinea Pig Inferior Mesenteric Ganglion: an Immunohistochemical Study

Using immunoperoxidase labeling, we studied the subunit composition of nicotinic acetylcholine receptors, nAChR, in preparations of the inferior mesenteric ganglion, IMG, of the guinea pig. Antibodies against synthetic peptides corresponding to agonist-binding membrane components of the ₃, ₄, ₅, and ₇ nAChR subunits were used. The presence of ₃-specific antibodies was revealed on the membranes of about 58% of large neurons and of all small ganglionic cells (means of the greater and smaller diameters of the somata 53.8 ± 1.8 vs 33.6 ± 1.4 m, n = 20, and 14.1 ± 0.5 vs 7.5 ± 0.4 m, n = 50, respectively). Labeled cells of the rostral node were distributed evenly, while those of the caudal node were localized mostly within the regions of branching of the lumbar, colonic, and both hypogastric tracts. Immune labels to the ₄ subunit were observed only on the membranes of small ganglionic cells distributed mostly in the region of the internodal commissural tracts. ₅-Specific labeling was found on the membranes of about 63% large neurons, whose distribution was similar to that of the ₃-labeled units, and on all small cells. Immunoreactivity to the ₇ subunit was observed only on the membranes of small cells concentrated around unlabeled large neurons in the region of branching of the intermesenteric, colonic, and both hypogastric tracts. Thus, nAChR in the guinea pig IMG include ₃, ₄, ₅, and ₇ subunits. The nAChR with ₃ and ₅ subunits are localized on the membranes of large ganglionic neurons, whose number and topographical distribution are very close to each other. Our data agree with our results of earlier electrophysiological experiments and are indicative of the crucial role of the ₃- and ₅-containing nAChR in synaptic transmission via the ganglion under study. The presence of the ₄- and ₇-containing nAChR was found only on small ganglionic cells (which are, probably, not the relay units) and their processes.     

The minimal polymorphism of class II Eα chains is not due to the functional neutrality of mutations

Given the extensive allelic amino acid sequence polymorphism present in the first domain of A, A, and E chains and its profound effects on class II function, the minimal polymorphism in the mouse E chain (and in its human homologue DR) is paradox. Two possible explanations for the lack of polymorphism in E are: (1) the E chain plays such a uniquely critical structural/functional role in antigen presentation, T-cell activation, repertoire selection, and/or pairing with E or other proteins for expression that it cannot vary, and mutations are selected against; (2) the E chain plays a less significant role than the outer domains of other major histocompatibility complex (MHC) proteins in determining the interactions with processed peptides or with T-cell receptor (TCR), so there is no selective pressure to maintain new mutations. To explore this question we compared the ability of transfectants expressing wild type (wt) EE ^d and mutant E wt E ^d proteins to present peptides and bacterial superantigens to T-cell hybridomas. Mutations at the E amino acid positions 31, 52, and 65&66, to residues that represent allelic alternatives in A chains, significantly reduced activation of peptide-specific T hybridomas, and mutations at 71 sometimes enhanced T-cell stimulation. None of the E mutations reduced, and some enhanced, superantigen stimulation of T-cell hybridomas. These results argue against the hypothesis that E chains are minimally polymorphic because mutations in E are functionally neutral.     

Labdane diterpene derivatives from Holwaya mucida

Clumps of white crystals present in 40-day-old malt agar cultures of Holwaya mucida were isolated as long white needles by crystallization from ethanol following short extraction with chloroform. The levorotary compound ([] ₂₈₉ ²¹ =-193.8°) was recognized as a -lactone (C₁₇H₂₀O₅) by infrared and mass spectrometry. It was identified as 7-methoxy-3a, 10b-dimethyl-1, 2, 3, 3a, 5a, 7, 10b, 10c-octahydro-4H, 9H-furo[2, 3, 4 : 4, 5]naphtho[2, 1-c]pyran-4, 9-dione, a labdane-derived compound known as antibiotic LL-Z1271. Preparative thin-layer chromatography of the mother liquor afforded 2 minor metabolites. One was identified as LL-Z1271, the demethylated analogue of LL-Z1271. The other one named LL-Z1271, was recognized as a compound related to and : its structure could not be fully elucidated. H. mucida (anamorph: Crinula calciiformis) has no taxonomic relationship with two other LL-Z1271 producing species viz. Acrostalagmus sp. (= Acremonium cf. atrogriseum) and Oidiodendron truncatum.     

Subunit Interacting Surfaces of Human Hemoglobin in Solution: Localization of the α–β Subunit Interacting Surfaces on the α-Chain by a Comprehensive Synthetic Strategy

By using synthetic overlapping peptides encompassing the entire -chain of adult human hemoglobin (HbA), we have mapped on the -chain the regions responsible for its binding to the -chain in solution. These binding surfaces were, in general, in good agreement with those expected from the crystal structure (peptides 81–95, 101–115, 111–125, and 131–141). However, we observed some significant differences in the levels of binding found here in solution and those expected from the crystal structure. Peptide 31–45, which in the crystal had the highest number of contact residues of all the -chain peptides, did not bind the -chain in solution. Similarly, peptide 91–105, with seven contact residues in the crystal, showed low binding with the -chain in solution. On the other hand, peptides 41–55 and 121–135 possessed much higher binding activity in solution than would be expected from their contribution to subunit association in the crystal. In fact, peptide 121–135 had the highest binding activity of the -chain peptides. These studies and our previous findings, which localized on the -chain the regions that bind to the -chain in solution, have shown that the regions of subunit association in solution are close to, but not identical with, those in the crystal. The approach should be quite useful for mapping subunit association in oligomeric proteins and could even be applied to proteins that are isolated only in traces or whose three-dimensional structure is not yet known.     

Genetic polymorphisms of gene conversion within the duplicated human α-globin loci

Summary Of the 645 Japanese subjects studied, we have identified 10 individuals heterozygous for a chromosome with the triplicated -globin loci. The frequency of the triple -loci was 0.008 in this population, while that of the single -locus, i.e., -thalassemia 2 gene, might be lower than 0.0008. Analysis of haplotypes using particular RsaI site polymorphism in the -globin gene complex strongly suggests that the triple loci may have had multiple origins in this population.     

Two novel isoneolacto-undecaglycosylceramides carrying Galα1→3Lewisx on the 6-linked antenna and N-acetylneuraminic acidα2→3 or Galactose α1→3 on the 3-linked antenna, expressed in porcine kidney

Three sialosylated and three neutral glycosphingolipids sharing a common iso-neolacto core were isolated from porcine kidney cortex. They were purified by preparative HPTLC, and were characterized by partial exoglycosidase hydrolysis followed by thin layer chromatography and immunostaining with anti-Gal13Gal, anti-type 2 lactosamine and anti-Lewisx antibodies, methylation analysis, MALDI-TOF mass spectrometry and 1H-NMR spectroscopy. Among neutral glycolipids, one was a known structure, VI3VI3(Gal)2-iso-nLc8Cer, and two were novel structures differing by the number of Gal3Lewisx determinants: VI3VI3(Gal)2V3Fuc-iso-nLc8, and VI3VI3(Gal)2 V3V3(Fuc)2-iso-nLc8. The single Gal3Lewis x determinant was found on the 6-linked antenna. Among sialosylated glycolipids, two had been previously found in other species and tissues, VI3VI3(NeuAc)2-iso-nLc8, and VI3NeuAcVI3Gal-iso-nLc8. A novel structure was discovered presenting a Gal3Lewisx determinant on the 6-linked antenna and a N-acetylneuraminic acid on the 3-linked antenna, VI3NeuAcVI3GalV3Fuc-iso-nLc8. These results indicate that, in vivo, the porcine kidney 3fucosyltransferase synthesizes the Gal3Lewisx determinant, acting on the 6-linked before the 3-linked Gal3neolactosamine, and appears unable to synthesize the sialosylated Lewisx determinant on neolactoseries glycolipids.     

C-Terminal exchange between Gα o and Gα i3 proteins differently modulates α2A-adrenoceptor activation

Chimeric G proteins, obtained by exchanging their C-terminal portion for that of a G protein from an unrelated class, drive the receptor selectivity to that corresponding to the introduced G protein domain. The _2A-adrenoceptor (_2AAR), which yielded an efficacious and weak [³⁵S]GTPS binding response by respectively G _o and G _i3 protein, was investigated in CHO-K1 cells co-expressing chimeric G proteins for which the six last C-terminal amino acids between G _o and G _i3 proteins, and reciprocally, were permuted. Activation of the chimeric G _{o / i3} protein was highly efficient whereas the G _{i3 / o} protein yielded a weak stimulation. These [³⁵S]GTPS binding responses were not different from their parental wild-type G _o and G _i3 proteins. Similar results were obtained with an _2AAR carrying a facilitating Thr³⁷³Lys mutation in a putative G protein interaction domain. These data indicate that the six terminal G _o protein amino acids do not constitute a major _2AAR interaction domain for G protein activation.     

Peptide modification by incorporation ofα-trifluoromethyl substituted amino acids

Summary Metabolic stabilization of pharmacologically active peptides can be achieved by incorporation of sterically hindered non-natural amino acids, e.g. C ^, -disubstituted amino acids.-Trifluoromethyl substituted amino acids, a subclass of C ^, -disubstituted amino acids, also fulfil this requirement while featuring additional properties based on the electronic influence of the fluorine substituents.This review summarizes the results concerning the stability of peptides containing-TFM amino acids towards proteolysis by-chymotrypsin. Furthermore, configurational effects of-TFMAla on the proteolytic stability of peptides are explained using empirical force field calculations. The influence of-TFMAla incorporation on the secondary structure of selected tripeptide amides is compared to the effects exerted by its fluorine-free analogue, aminoisobutyric acid.Finally, results on metabolic stabilization and biological activity of modified thyrotropin releasing hormone are interpreted.     

Interaction of Phomopsin A with Normal and Subtilisin-Treated Bovine Brain Tubulin

Tubulin, the major component of microtubules, has a tendency to lose its ability to assemble or to bind to ligands in a time-dependent process known as decay. The decay process also causes tubulin to expose sulfhydryl groups and hydrophobic areas. The antimitotic drug phomopsin A strongly protects the tubulin molecule from decay. Here we have studied the interaction of phomopsin A with tubulin and tubulin which has been treated with subtilisin to remove selectively the C-termini of the and chains (_ss). The binding of phomopsin A to tubulin decreases the sulfhydryl titer by approximately 1.0 mol/mol. Selective removal of the peptides from the C-terminal ends does not affect phomopsin A's interaction with tubulin. Moreover, the _ss tubulin–phomopsin A complex appears to be more stable than the tubulin–phomopsin A complex as determined by the time-dependent increase in exposure of sulfhydryl groups and hydrophobic areas on tubulin. In fact, phomopsin A inhibits the decay process of _ss tubulin completely. This observation raises the possibility of determining the conformtion of this configuration of tubulin.