Purification and cardiovascular activity of [Met1, Met5]-bradykinin from the plasma of a sturgeon (Acipenseriformes)

The sturgeons (Order Acipenseriformes) are extant representatives of a group of primitive Actinopterygian (ray-finned) fish that probably shared a common ancestor with present-day teleosts. Incubation of heat-denatured plasma from a sturgeon (a hybrid of the shovelnosed sturgeon Scaphirhynchus platorynchus and the pallid sturgeon Scaphirhynchus albus) with either trypsin or porcine pancreatic kallikrein generated bradykinin-like immunoreactivity. The primary structure of sturgeon bradykinin was established as Met-Pro-Pro-Gly-Met-Ser-Pro-Phe-Arg. This amino acid sequence contains two amino acid substitutions (Arg1 --> Met and Phe5 --> Met) compared with mammalian bradykinin. Bolus injections of synthetic sturgeon bradykinin in doses as low as 1 pmol/kg into the dorsal aorta of unanesthetized sturgeon resulted in an immediate and significant fall in arterial blood pressure with a maximum depressor response at 300 pmol/kg. Thus, the cardiovascular response of the sturgeon to bradykinin resembles more closely the response of mammals rather than the predominantly pressor response seen in teleost fish. Sturgeon bradykinin produced a strong and concentration-dependent (EC50 = 4.7 +/- 0.7 x 10(-10) M) relaxation of rings of vascular tissue from the sturgeon ventral aorta that had been pre-contracted with acetylcholine. The data indicate that sturgeon tissues are particularly responsive to native bradykinin and suggest that the kallikrein-kinin system may have evolved before the appearance of the neopterygians (gars, bowfin and teleosts).     

Atomic force microscopy of crystalline insulins: the influence of sequence variation on crystallization and interfacial structure

The self-association of proteins is influenced by amino acid sequence, molecular conformation, and the presence of molecular additives. In the presence of phenolic additives, LysB28ProB29 insulin, in which the C-terminal prolyl and lysyl residues of wild-type human insulin have been inverted, can be crystallized into forms resembling those of wild-type insulins in which the protein exists as zinc-complexed hexamers organized into well-defined layers. We describe herein tapping-mode atomic force microscopy (TMAFM) studies of single crystals of rhombohedral (R3) LysB28ProB29 that reveal the influence of sequence variation on hexamer-hexamer association at the surface of actively growing crystals. Molecular scale lattice images of these crystals were acquired in situ under growth conditions, enabling simultaneous identification of the rhombohedral LysB28ProB29 crystal form, its orientation, and its dynamic growth characteristics. The ability to obtain crystallographic parameters on multiple crystal faces with TMAFM confirmed that bovine and porcine insulins grown under these conditions crystallized into the same space group as LysB28ProB29 (R3), enabling direct comparison of crystal growth behavior and the influence of sequence variation. Real-time TMAFM revealed hexamer vacancies on the (001) terraces of LysB28ProB29, and more rounded dislocation noses and larger terrace widths for actively growing screw dislocations compared to wild-type bovine and porcine insulin crystals under identical conditions. This behavior is consistent with weaker interhexamer attachment energies for LysB28ProB29 at active growth sites. Comparison of the single crystal x-ray structures of wild-type insulins and LysB28ProB29 suggests that differences in protein conformation at the hexamer-hexamer interface and accompanying changes in interhexamer bonding are responsible for this behavior. These studies demonstrate that subtle changes in molecular conformation due to a single sequence inversion in a region critical for insulin self-association can have a significant effect on the crystallization of proteins.     

Insulin lispro, a new insulin analog

Insulin lispro is a rapid-acting insulin analog to regular insulin. Inversion of the proline-lysine amino acid sequence at positions 28 and 29 on the B chain is responsible for its more rapid absorption, faster onset, and shorter duration of action compared with regular insulin. The fast onset of action allows for greater flexibility in dosing and mealtime scheduling. Insulin lispro provides equivalent or slightly improved glycemic control in patients with types I and II diabetes mellitus compared with regular insulin, without subsequent increases in hypoglycemic episodes. It also results in greater reduction in postprandial blood glucose excursion than regular insulin. Compared with other insulins, insulin lispro represents a more physiologic approach to exogenous insulin therapy.     

The polycystic kidney disease-1 protein, polycystin-1, binds and activates heterotrimeric G-proteins in vitro

Analysis of the C-terminal cytosolic domain of human and mouse polycystin-1 has identified a number of conserved protein motifs, including a 20-amino-acid heterotrimeric G-protein activation sequence. A peptide specific for this sequence was synthesized and shown to activate purified bovine brain heterotrimeric Gi/Go in vitro. To test whether the C-terminal cytosolic domain of polycystin-1 stably binds G-proteins, GST-fusion constructs were used in pull-down and co-immunoprecipitation assays with purified bovine brain Gi/Go and rat brain lysates. This identified a 74-amino-acid minimal binding domain that includes the G-protein activation sequence. This region of polycystin-1, including the G-protein activation peptide and flanking amino acid sequences, is highly conserved in mouse, human, and puffer fish, lending further support to the functional importance of the minimal binding domain. These results suggest that polycystin-1 may function as a heterotrimeric G-protein coupled receptor.     

Purity and antigenicity of the new insulin preparations

A short review on new types of insulin preparations purified by chromatography is presented. The purity of these new chromatographed insulins, which have almost completely replaced the conventional types of insulin, has been considerably improved. Our own investigations have revealed significantly lower antigenicity of porcine depot preparations compared with beef or mixed beef-pork insulins. By means of gel filtration and additional anion exchange chromatography the antigenicity of porcine insulin can be significantly reduced. Monocomponent insulins prepared by these methods produce low titers of insulin antibodies in only one third of diabetics treated by insulin for the first time. Mixed beef-pork Lente Insulin purified by single chromatography is also less antigenic than Lente Insulin of conventional purity, but more antigenic than pork insulin (e.g. Monotard). Pork insulin purified by chromatography is indicated in cases of insulin allergy, insulin resistance and lipoatrophy, and also for first insulin treatment in younger and middle-aged diabetics.     

Hemarthrosis of the knee and bone contusion

The displacement of porcine [125I] insulin bound to rat and lamprey isolated hepatocytes with unlabeled lamprey and porcine insulins was investigated. Binding affinity of lamprey insulin for insulin receptor of rat was similar to that of porcine insulin. In contrast, the binding affinity of lamprey insulin for its own insulin receptor was higher than for a rat receptor. To determine the binding affinity constants of lamprey insulin receptor, the competition binding experiments were carried out on isolated lamprey hepatocytes using lamprey insulin as unlabeled ligand and tracer. The affinity of the same binding sites on lamprey hepatocytes was assessed in similar experiments but employing porcine insulin as unlabeled ligand and tracer. It was found that while Kd of low affinity binding sites on lamprey hepatocytes were similar for lamprey and porcine insulins, the Kd of high affinity binding sites was different: the displacement curve for lamprey insulin being shifted to the left as compared to the curve for porcine insulin. The number of high and low affinity binding sites, calculated independently in Scatchard plots, was equal. We conclude that the high affinity insulin binding sites of lamprey but not of rat hepatocytes reveal some species specificity in ligand-receptor interaction.     

Porcine pyridoxal kinase c-DNA cloning, expression and confirmation of its primary sequence

Porcine brain pyridoxal kinase has been cloned. A 1.2 kilo-based cDNA with a 966-base pair open reading frame was determined from a porcine brain cortex cDNA library using PCR technique. The DNA sequence was shown to encode a protein of 322 amino acid residues with a molecular mass of 35.4 kDa. The amino acid sequence deduced from the nucleotide sequence of the cDNA was shown to match the partial primary sequence of pyridoxal kinase. Expression of the cloned cDNA in E. coli has produced a protein which displays both pyridoxal kinase activity and immunoreactivity with monoclonal antibodies raised against natural enzyme from porcine brain. With respect to the physical properties, it is shown that the recombinant protein exhibits identical kinetic parameters with the pure enzyme from porcine brain. Although the primary sequence of porcine pyridoxal kinase has been shown to share 87% homology with the human enzyme, we have shown that the porcine enzyme carries an extra peptide of ten amino acid residues at the N-terminal domain.     

Altering the association properties of insulin by amino acid replacement

The importance of ProB28 and LysB29 on the self-association of insulin was established by systematically truncating the C terminus of the B chain. The relationship between structure and association was further explored by making numerous amino acid replacements at B28 and B29. Association was studied by circular dichroism, size-exclusion chromatography and ultracentrifugation. Our results show that the location of a prolyl residue at B28 is critical for high-affinity self-association. Removal of ProB28 in a series of C-terminal truncated insulins, or amino acid replacement of ProB28, greatly reduced association. The largest disruption to association was achieved by replacing LysB29 with Pro and varying the amino acid at B28. Several of the analogs were predominantly monomers in solutions up to 3 mg/ml. These amino acid substitutions decreased association by primarily disrupting the formation of dimers. Such amino acid substitutions also substantially reduced the Zn-induced insulin hexamer formation. The formation of monomeric insulins through amino acid replacements was accompanied by conformational changes that may be the cause for decreased association. It is demonstrated that self-association of insulin can be drastically altered by substitution of one or two key amino acids.     

Characterization of insulin autoantibodies in relatives of patients with type I diabetes

We studied in detail the anti-insulin autoantibodies in 29 nondiabetic relatives of patients with type I diabetes. The affinity of the autoantibodies for [125I]human insulin was high (1.34 x 10(9)-20.71 x 10(9) L/mol), and the capacity was low (0.84 x 10(-12)-37.80 x 10(-12) M). The product of affinity x capacity of each relative's antibodies directly correlated (r = 0.99) with the level of antibodies determined in our standard radioassay. The autoantibodies from each of the subjects studied had the same rank order of affinities for insulin from different species. Guinea pig, fish insulin, and insulin containing Trp rather than Leu in position 13 of the A-chain inhibited minimally the human insulin binding. Human proinsulin, insulin containing Gln rather than Glu in position 17 of the A-chain, and desoctapeptide insulin (des B23-30) all inhibited binding effectively. Insulin autoantibodies in relatives of patients with type I diabetes share common epitope(s), which suggests a common pathogenic mechanism for production of such antibodies. The epitopes from this initial analysis appear to include amino acids B1-B3 and A8-A13. The region recognized can be distinguished from the insulin receptor binding domain.     

Heparin-induced thrombocytopenia: pathophysiology

We have used computer modeling of insulin 3-D structure and experimental data about action of site point mutation on insulin activity to design functionally important domain with signaling activity and synthesized peptide than might be sufficient for the binding to insulin receptor. The designed and synthesized peptide consist of ten residues and may be obtained in two forms: oxidized and reduced (with or without disulfide bond). The synthesized decapeptide peptide represents functionally important site for binding to the insulin receptor. Amino acid residues at position 1-8 correlate with B-chain of insulin at position (B19-B26). Residues at position 9.10 correlate with A-chain at position A-10-A21. This peptide was tested with cell culture L-929 (glucose uptake) in comparison with bioactive commercial peptide (R-G-FF) and insulin. It was shown that synthesized peptide exhibit biological activity at molar concentration 0.01-1 mkM. Our results successfully demonstrate the synthetic insulin fragment have insulin-like biological activity.     

The complete amino acid sequence of a Kunitz family trypsin inhibitor from seeds of Acacia confusa

The complete amino acid sequence of a Kunitz-type two-chain trypsin inhibitor was determined for the first time. The sequence of the inhibitor from Acacia confusa (ACTI) was determined by analysis of peptides obtained from the reduced and S-carboxymethylated protein by digestion with endopeptidase Lys-C, endopeptidase Arg-C, and V8 endopeptidase. ACTI is comprised of two chains, namely A and B chains linked by the disulfide bridge between Cys(133) and Cys(141), and the inhibitor consists of 175 amino acid residues, 136 residues in the A-chain and 39 residues in the B-chain. The N-terminal amino acid sequence of ACTI shows extensive homology to the trypsin inhibitors from Acacia elata and Albizzia julibrissin, while the whole amino acid sequence of ACTI has a high degree of homology to the other Kunitz-type trypsin inhibitors from soybeans, winged bean seeds [Psophocarpus tetragonolobus (L) DC.], and seeds of Erythrina species.     

Isolation and amino acid sequence of a protein-synthesis inhibitor from the seeds of rye (Secale cereale)

A protein-synthesis inhibitor, designated RPSI, was isolated from the seeds of rye (Secale cereale) using gel filtration and S-Sepharose column chromatography. RPSI is a basic protein with an isoelectric point of over 10, and the concentration of protein required for 50% inhibition of protein synthesis (IC50) of purified RPSI was about ten-fold the concentration of ricin A-chain. The complete amino acid sequence of RPSI was discovered by analyzing the peptides and fragments obtained from the proteolytic digests and by the cyanogen bromide- and hydroxylamine-cleavages of RPSI. RPSI consists of 280 amino acid residues and has a molecular weight of 30,171. RPSI has only 21% sequence identity with that of ricin A-chain, but all five amino acid residues involved in the active site of ricin A-chain are conserved in RPSI.     

Spiral CT in acute non-cardiac chest pain

The sturgeons (order Acipenseriformes) are extant representatives of a group of ancient Actinopterygian (ray-finned) fish. Galanin and scyliorhinin I (a tachykinin with limited structural similarity to mammalian substance P) have been isolated from an extract of the gastrointestinal tract of a sturgeon (an F1 hybrid between the shovelnose sturgeon, Scaphirhynchus platorynchus, and the pallid sturgeon, Scaphirhynchus albus). The primary structure of sturgeon galanin (Gly-Trp-Thr-Leu-Asn-Ser-Ala-Gly-Tyr-Leu10-Leu-Gly-Pro-His-Ala-Val -As p-Gly-His-Arg20-Ser-Leu-Ser-Asp-Lys-His-Gly-Leu-Pro.NH2) contains only two amino acid substitutions (Ser23 --> Asn and Pro29 --> Ala) compared with galanin from the bowfin, Amia calva (Amiiformes), but five amino acid substitutions compared with galanin from the trout (Teleostei). Similarly, the sturgeon tachykinin (Ser-Lys-Tyr-His-Gln-Phe-Tyr-Gly-Leu-Met.NH2) contains only one amino acid substitution (Tyr3 --> Ser) compared with scyliorhinin I previously isolated from bowfin stomach but five amino acid substitutions compared with trout substance P. The data support the hypothesis that the Acipenseriformes and the basal Neopterygians (gars and bowfin) share a close phylogenetic relationship.     

Complete nucleotide sequence of the Actinomyces viscosus T14V sialidase gene: presence of a conserved repeating sequence among strains of Actinomyces spp

The nucleotide sequence of the Actinomyces viscosus T14V sialidase gene (nanH) and flanking regions was determined. An open reading frame of 2,703 nucleotides that encodes a predominately hydrophobic protein of 901 amino acids (M(r), 92,871) was identified. The amino acid sequence at the amino terminus of the predicted protein exhibited properties characteristic of a typical leader peptide. Five 12-amino-acid units that shared between 33 and 67% sequence identity were noted within the central domain of the protein. Each unit contained the sequence Ser-X-Asp-X-Gly-X-Thr-Trp, which is conserved among other bacterial and trypanosoma sp. sialidases. Thus, the A. viscosus T14V nanH gene and the other prokaryotic and eukaryotic sialidase genes evolved from a common ancestor. Southern hybridization analyses under conditions of high stringency revealed the existence of DNA sequences homologous to A. viscosus T14V nanH in the genomes of 18 strains of five Actinomyces species that expressed various levels of sialidase activity. The data demonstrate that the sialidase genes from divergent groups of Actinomyces spp. are highly conserved.     

Inhibition of NMDA-gated ion channels by the P2 purinoceptor antagonists suramin and reactive blue 2 in mouse hippocampal neurones

A new ribosome-inactivating protein (RIP), sechiumin, was purified from the seeds of edible gourd, Sechium edule Swartz by gel-filtration and ion-exchange chromatography, with an apparent relative molecular mass of 27 kDa. It inhibits the protein synthesis of rabbit reticulocyte lysate strongly with a concentration causing 50% inhibition (IC50) of 0.7 nM, but has a much lower inhibitory effect on intact HeLa cells, with an IC50 of 5000 nM. Sechiumin has a highly specific RNA N-glycosidase activity towards 28S rRNA, as does the A-chain of abrin. It suggests that sechiumin is one of the type-I ribosome-inactivating proteins. The cDNA of sechiumin has been cloned and expressed using a pET expression system in Escherichia coli. The sechiumin cDNA has 951 nucleotides, encoding a protein with 285 amino acids. The amino acid sequence deduced from the cDNA reveals that the first 21 N-terminal amino acid residues constitutes a signal peptide. Sechiumin has nearly 60% similarity to several type-I RIPs purified from the Cucurbitaceae family, such as luffin-a (62.5%) and trichosanthin (64.8%), but less similarity to other type-I RIPs. Two amino acid residues, Glu160 and Arg163, at the putative active site of sechiumin, are known to be catalytically active in ricin and abrin. The N-terminal amino acid sequence of sechiumin is very similar to that of trichosanthin. The recombinant sechiumin was obtained as an insoluble protein, and the preparation of the active soluble form was achieved by renaturing the denatured protein. These studies suggest that the recombinant sechiumin could be used for the preparation of immunotoxin as a potential cancer chemotherapeutic agent.     

Identification of a nonameric H-2Kk-restricted CD8+ cytotoxic T lymphocyte epitope on the Plasmodium falciparum circumsporozoite protein

Class I-restricted CD8+ cytotoxic T lymphocytes (CTL) against the circumsporozoite protein (CSP) protect mice against the rodent malaria parasite, Plasmodium yoelii, and vaccines designed to produce protective CTL against the P. falciparum CSP (PfCSP) are under development. Humans and B10.BR (H-2k) mice have been shown to have CD8+ CTL activity against a 23-amino-acid region of the PfCSP (residues 368 to 390 from the PfCSP 7G8 sequence) that is too long to bind directly to class I major histocompatibility complex molecules. To identify within this 23-amino-acid peptide a shorter peptide that binds to an H-2k class I major histocompatibility molecule, a primarily CD8+ (97.8%) T-cell line (PfCSP TCL.1) was produced by immunizing B10.BR mice with recombinant vaccinia virus expressing the PfCSP and stimulating in vitro spleen cells from these immunized mice with L cells transfected with the PfCSP gene (LPF cells). PfCSP TCL.1 lysed LPF cells and L cells pulsed with peptide PfCSP 7G8 368-390. When 15 overlapping nonamer peptides spanning the 368 to 390 sequence were tested, only one peptide, PfCSP 7G8 375-383 (Y E N D I E K K I), which includes an H-2Kk-binding motif, E at amino acid residue 2, and I at residue 9, sensitized targets for lysis by PfCSP TCL.1. Furthermore, a 10(3)- to 10(4)-fold lower concentration of the nonamer than that of the 23-amino-acid peptide was required to sensitize target cells for lysis by PfCSP TCL.1. Presentation by H-2Kk was demonstrated by using 3T3 fibroblast cells transfected with the murine H-2Kk or H-2Dk genes, and only the H-2Kk transfectants were lysed by PfCSP TCL.1 after incubation with peptide PfCSP 7G8 375-383. Binding to H-2Kk was confirmed by competitive inhibition of binding of labelled peptides to affinity-purified Kk molecules. Substitution of the anchor amino acid residue, E, at position 2 with A dramatically reduced binding to Kk and eliminated the capacity of the peptide to sensitize target cells for killing. Variation of non-anchor residues did not markedly reduce binding to Kk but in some cases eliminated the capacity of the peptide to sensitize targets for cytolysis by PfCSP TCL.1, presumably by eliminating T-cell receptor-binding sites. These data suggest that similar studies with human T cells will be required for optimal development of peptide-based vaccines designed to produce protective class I-restricted CD8+ CTL against the PfCSP in humans.     

An improved quality of life self-questionnaires specific for head and neck tumors

The effects of human and porcine insulins on the symptomatic, physiological, and counterregulatory hormonal responses to acute hypoglycaemia were compared in 40 patients with Type 1 diabetes, 20 of whom were newly diagnosed while 20 had been treated for between 5 and 20 years. In a double-blind, cross-over trial all patients were treated with human or porcine insulin, in random order, for two consecutive 3-month periods. At the end of each treatment period they were subjected to an acute episode of experimental hypoglycaemia induced by a continuous intravenous infusion (2.0 mU kg(-1)min(-1)) of the same insulin species. Haemodynamic, sweating, and tremor responses were measured during both studies, symptom scores were recorded and the arterialized plasma glucose thresholds for autonomic activation and the onset of subjective symptoms were identified. In all patients the glycaemic thresholds for the initiation of the autonomic physiological responses to hypoglycaemia and the onset of the symptomatic response were concurrent and did not differ with insulin species (plasma glucose 1.94 vs 1.96 mmol I(-1), human vs porcine studies). The onset, temporal pattern, nature, and magnitude of the physiological responses (sweating, heart rate, blood pressure, and tremor) during acute experimental hypoglycaemia were also identical with each insulin species. The magnitude and temporal pattern of the response of counterregulatory hormones (adrenaline, noradrenaline, glucagon, ACTH, and GH) to hypoglycaemia as induced by human and porcine insulins were indistinguishable, as were the total and individual scores of autonomic and neuroglycopenic symptoms. In conclusion, in patients who had newly diagnosed and intermediate duration (5-20 years) of diabetes, the symptomatic, physiological, and counterregulatory hormonal responses to acute insulin-induced hypoglycaemia did not differ between human and porcine insulins, and the plasma glucose thresholds at which the symptomatic and autonomic responses were initiated were identical with both insulin species. This study does not support the hypothesis that treatment with human insulin modifies the symptomatic, physiological, and counterregulatory hormonal responses to acute hypoglycaemia.     

The effect of the odour of mother''s milk and orange on the spectral power of EEG in infants

Growth hormone (GH), prolactin, and their relatives constitute a multigene family which is considered to have evolved from a common ancestor. The structural and functional domains of GH appear to be highly conserved among vertebrates. In order to investigate the phylogenetic relationships among GHs in the Actinopterygii and Sarcopterygii, we have cloned and sequenced GH from the pituitary of the primitive bony fish, Amia calva. Bony fishes (teleosts) and Amia (Halecomorphi) are purported sister-groups within the Neoptergii, hence studies on this perspective group of fish can provide insights into the evolution of GH. The deduced amino acid (aa) sequence from A. calva GH (amGH) cDNA revealed that the mature GH consists of 190 residues. Phylogenetic comparisons with GH aa sequences from blue shark, sturgeon, four teleosts (eel, carp, porgy, flounder), and two sarcopterygians (African lungfish and bullfrog) indicated, in the most parsimonious cladogram, that amGH clusters as the sister-group to the teleosts, that sturgeon is the sister-group to the Neopterygii, and that the African lungfish and bullfrog are in the same clade.     

Molecular cloning and sequence analysis of the aggrecan interglobular domain from porcine, equine, bovine and ovine cartilage: comparison of proteinase-susceptible regions and sites of keratan sulfate substitution

Oligonucleotide primers which were designed based on identical peptide sequences flanking the interglobular domain (IGD) of human, bovine and rat aggrecan were used in RT-PCR reactions containing human, porcine, equine, bovine and ovine cartilage RNA. Novel cDNAs encoding the IGD of the latter four species were obtained and sequenced. The deduced amino acid sequences for these cDNAs were aligned and compared with those described for six other species. Amino acid sequences surrounding the major proteolytic cleavage sites in the IGD are highly conserved, with some species-specific substitutions. Similarly, known sites of keratan sulfate attachment in the IGD are highly conserved in all species. The results provide essential amino acid sequence data for species commonly used in model systems of cartilage degeneration.