Bovine pancreatic trypsin inhibitor and homologous polypeptide inhibitors in nephron cells.

Bovine pancreatic trypsin inhibitor (BPTI, aprotinin) is a fifty-eight amino acid polypeptide, which is present together with related molecular isoforms in various bovine organs. In the present study these protease inhibitors were isolated from bovine kidney by affinity chromatography on immobilized trypsin and a subsequent FPLC step. Due to their electrophoretic, structural, and inhibitory properties, the inhibitors were strictly similar to the polypeptides identified previously in other bovine organs. Immunohistochemical experiments showed a widespread localization of these polypeptides in nephron epithelial cells (proximal and distal tubules, loop of Henle, collecting tubules).     

Heterogeneity of the basic pancreatic inhibitor (Kunitz) in various bovine organs

Four protein protease inhibitors (I, II, III, IV) having low molecular weights (10 600-6500) and basic isoelectric points were isolated by affinity chromatography from bovine spleen. Inhibitor IV was identified as the basic pancreatic trypsin inhibitor (Kunitz inhibitor); the presence and distribution of components I, II and III vary in the different bovine organs. Spleen inhibitors I, II, III and IV were purified by ion-exchange chromatography; they form 1:1 complexes with trypsin and inhibit enzymatic activity of trypsin, chymotrypsin and kallikrein. Inhibitors I, II and III contain carbohydrate moieties (7-4%) covalently bound to the polypeptide chain. Specific basic pancreatic trypsin inhibitor antiserum has shown the complete identity between inhibitor IV and the basic pancreatic trypsin inhibitor, while partial cross-reactivity between the basic pancreatic trypsin inhibitor and inhibitors I, II and III can be seen from a double immunodiffusion test.     

The role of the first component of the bovine complement system in the haemolytic activity of a bovine derived lytic intermediate

A stable lytic intermediate (LI) which is lysed in the presence of guinea pig C3-C9, can be prepared from sensitized sheep erythrocytes (EA) and bovine serum. The lytic activity is destroyed by 0.01M EDTA at physiological ionic strength, but may be restored by partially purified bovine C1 or human C1 devoid of any C4 or C2 activity. The presence of C1 appears to be essential for the activity of the LI. Compounds such as DFP and PMSF which effectively inhibited the esterase activity of bovine C1 also inhibited the capacity of C1 to reform an active LI from the decayed lytic intermediate (DLI). The esterase inhibitors had no apparent effect on the active LI. Previous exposure of the DLI to DFP-inactivated C1 did not inhibit the subsequent and effective binding of active C1. It is suggested that the C1 forms an intimate and essential relationship with either or both of the C4 and C2 components for the activity of the bovine derived LI. This is supported by comparing the uptake of tritium labelled DFP-inactivated C1 by EA and the DLI.     

Molecular and cellular studies of tryptophanyl-tRNA synthetases using monoclonal antibodies. Remarkable variations in the content of tryptophanyl-tRNA synthetase in the pancreas of different mammals

The content of Trp-tRNA synthetase in pancreas and liver of cattle, sheep, swine, rat, rabbit and man was assayed by direct radioimmunoblotting with a 125I-labelled monoclonal antibody Am1, specifically interacting with any eukaryotic Trp-tRNA synthetase. Its content in the organs studied, with the exception of bovine and sheep pancreas, was found to be 0.002-0.012% of total proteins. The enzyme content in bovine pancreas was about 0.2% of total proteins, i.e. 70 times higher than in bovine liver; similar correlations were found for sheep. The Trp-tRNA synthetase levels in each organ varied from animal to animal of the same species by not more than a factor of four; these individual variations cannot affect the conclusion about the profound differences in the levels of the enzyme in pancreases of Ruminantia and of the other mammalians. As shown by indirect immunofluorescence technique, bovine Trp-tRNA synthetase is mainly located in the exocrine part of the pancreas. Moreover, the immunoreactive material is detectable also in bovine (not human) pancreatic juice. The abnormally high Trp-tRNA synthetase content in the ruminant pancreas may be connected with unknown function(s) of this protein somehow related to the peculiarities of digestion of these mammals.     

Immunolocalisation of BPTI-like serine proteinase inhibitory proteins in mast cells, chondrocytes and intervertebral disc fibrochondrocytes of ovine and bovine connective tissues. An immunohistochemical and biochemical study

A polyclonal anti-bovine pancreatic trypsin inhibitor (BPTI) IgY was raised in chickens immunised with aprotinin. The anti-BPTI IgY was subsequently isolated from egg yolks and purified to homogeneity by affinity chromatography on immobilised aprotinin and by Superose 6 size exclusion fast protein liquid chromatography (FPLC). Immunoblotting with the chicken IgY demonstrated its specificity for BPTI; 3.9 ng BPTI could be detected by this technique. There was no crossreactivity against alpha1-proteinase inhibitor (human and sheep), inter-alpha-trypsin inhibitor (human and sheep), secretory leucocyte proteinase inhibitor or a range of serine proteinase inhibitory proteins (SPIs) isolated from plant sources (soybean and lima bean trypsin inhibitor, potato trypsin and chymotrypsin inhibitors) or serum SPIs (antithrombin-III, alpha2-macroglobulin). Immunoblotting using the anti-BPTI IgY identified the 6- to 12- and 58-kDa forms of endogenous ovine cartilage SPIs in cartilage extracts, confirming the interrelationship of the ovine cartilage SPIs with BPTI. BPTI-domain SPIs were immunolocalised within mast cells of ovine and bovine duodenum, lung and pancreas, and in ovine and bovine bronchial cartilage chondrocytes, chondrocytes of the superficial and intermediate zones of articular cartilage and in the fibrochondrocytes/chondrocytes of the nucleus     

Purification of lectin from fruiting bodies of Lactarius rufus (Scop.: Fr.)Fr. and its carbohydrate specificity

A lectin from fruiting bodies of Lactarius rufus (Scop.: Fr.)Fr. has been purified by affinity chromatography on copolymer of polyvinyl alcohol with a blood group B specific substance. The lectin gives a single band at disk-electrophoresis in acidic (pH 4.3) and alkaline (pH 8.6) buffer systems. Under electrophoresis in 10-20% SDS-PAGE, the lectin consists of identical subunits with molecular weight 17 +/- 1 kDa. Molecular weight of the lectin is 98 kDa according to gel-chromatography on Tojopearl HW-55. It is supposed that the lectin contains six subunits. The lectin is quite enough stable in pH 4.0-10.0, its activity does not depend upon bivalent metal ions. When heating the lectin solution to 65 degrees C it lost more than 85% of its activity. The lectin agglutinates human etrythrocytes without any marked group specificity, it agglutinates 2-4 times worse rabbit erythrocytes, very weakly crucian erythrocytes and does not agglutinate sheep erythrocytes. Mono- and disaccharides are not inhibitors of the lectin activity, while alpha-phenyl-N-acethyl-D-glucosaminopyranosid (0.08 mM) and 4-nitrophenyl-beta-D-glucosamin are the best inhibitors of its activity. Among glycoproteins the best inhibitors of the lectin activity are: group-specific substances from human blood erythrocytes, asialosubmaxillary bovine mucin, human and bovine thyroglobulin and more weak inhibitors are fetuin, transferrin and human Ig G.     

Immunochemical studies on the Kunitz type inhibitors from bovine spleen

Specific immunoglobulins for bovine spleen inhibitor IV, which is identical to the basic pancreatic trypsin inhibitor (Kunitz inhibitor) from bovine lung, were purified from the serum of immunized rabbits. Immunological and immunochemical experiments have shown that the four inhibitors previously isolated from bovine spleen are cross-reacting antigens with the anti-inhibitor IV - antiserum; however, part of the antibodies are precipitated by inhibitors I, II and III, whereas the remaining ones are only specific for the antigenic determinants present on the inhibitor IV molecule.     

Characterization of the proteinase inhibitors from bull seminal plasma and spermatozoa.

Two acid stable proteinase inhibitors are present in bull seminal plasma and washed ejaculated bull spermatozoa. Inhibitor I with a molecular weight of about 8700 (estimated by gel filtration) is a very strong inhibitor of bull sperm acrosin but also inhibits bovine trypsin and chymotrypsin and porcine plasmin; inhibition of porcine pancreatic and urinary kallikrein was not observed. In this respect inhibitor I resembles the well known cow colostrum trypsin inhibitor. Inhibitor II with a molecular weight near 6800 (estimated by gel filtration) inhibits bovine trypsin and chymotrypsin, porcine plasmin and pancreatic and urinary kallikrein as well as bull acrosin. The inhibition specificity of inhibitor II is thus very similar to that of the basic inhibitor from bovine organs (Kunitz-type). In view of the inhibition strength and other characteristics, however, the acid stable bull seminal inhibitors are not identical with the inhibitor from cow colostrum or bovine lung (organs).     

Purification and some properties of two proteinase inhibitors (DE-1 and DE-3) from Erythrina latissima (broad-leaved erythrina) seed

Two proteinase inhibitors, DE-1 and DE-3, were purified from Erythrina latissima seeds. Whereas DE-1 inhibits bovine chymotrypsin and not bovine trypsin, DE-3 inhibits trypsin but not chymotrypsin. The molecular weights and the amino acid compositions of the two inhibitors resemble the corresponding properties of the Kunitz-type proteinase inhibitors. The N-terminal primary structure of DE-3 showed homology with soybean trypsin inhibitor (Kunitz) and also with the proteinase inhibitors (A-II and B-II) from Albizzia julibrissin seed.     

A plant homologue to mammalian brain 14-3-3 protein and protein kinase C inhibitor.

We have isolated cDNA clones of Spinacea oleracea L. and Oenothera hookeri of 930 and 1017 base pairs, respectively. The open reading frame deduced from the Oenothera sequence codes for a protein of a calculated molecular mass of 29,200. The primary amino acid sequence exhibits a very high degree (88%) of homology to the 14-3-3 protein from bovine brain, and protein kinase C inhibitor from sheep brain. Subsequently the plant protein was partially purified from leaf extract. The partially purified plant protein inhibited protein kinase C from sheep brain in a heterologous assay system. The active fraction consisted of 5-6 different polypeptides of similar molecular size. One of these proteins crossreacted with a peptide-specific antibody against protein kinase C inhibitor protein from sheep brain.     

The ribonuclease inhibitors from porcine thyroid and liver are slow, tight-binding inhibitors of bovine pancreatic ribonuclease A

Ribonuclease inhibitors were purified from the latent ribonuclease fractions of porcine thyroid and liver and used to test the hypothesis that their inhibition of bovine pancreatic ribonuclease A is correctly described by tight-binding rather than Michaelis-Menton kinetics. Both proteins were found to act as slow, tight-binding inhibitors of the enzyme. These steady-state velocities also showed that both the thyroid and liver inhibitors were competitive inhibitors of bovine pancreatic ribonuclease A with Ki's of 0.1 and 0.4 nM, respectively. In contrast to interpretations based on Michaelis-Menton assumptions that show non-competitive inhibition, these results suggest that an enzyme:inhibitor:substrate complex does not exist.     

Isolation of a protease inhibitor from tissues resistant to tumor invasion

We have purified to homogeneity the major trypsin inhibitors from both bovine cartilage and aorta, two tissues reported to be highly resistant to invasion. The two inhibitors appear to be identical and they resemble the Kunitz inhibitor with respect to molecular weight, amino acid composition, range of susceptible proteases, and antigenicity. Each of these inhibitors accounts for 100% of the antitrypsin activity found in extracts of bovine cartilage and aorta.     

Isolation and Characterization of Ovine Tyrosine Hydroxylase mRNA

Abstract: Tyrosine hydroxylase (TH) cDNA has been characterized in rodents and primates, but only a few studies have been developed in ungulates, except in cows. Because sheep is a species used for many physiological studies, it was of interest to clone TH cDNA in this species. Ovine TH cDNA was purified from a library of sheep adrenal glands. The entire cDNA was 1,721 bp long. It presented a higher percentage of similarity with bovine TH cDNA (93%) than with rodent cDNAs (75%). The deduced amino acid sequence was 490 amino acids long and had 96% similarity with the bovine amino acid sequence. The entire cDNA and different fragments obtained with endonuclease restriction enzymes were cloned in plasmid pUC 18 and were labeled with ³⁵S-dATP to detect TH mRNA by in situ hybridization. Strong labelings were observed on adrenal medulla and on noradrenergic and dopaminergic neurons in the sheep but also in the cow and pig. This labeling matched completely TH immunohistochemical staining obtained on the same sections with anti-TH antibodies. Ovine TH cDNA is a useful tool to study the variations of TH mRNA levels in sheep catecholaminergic neurons.     

Alcohol dehydrogenase activity and isoenzyme distribution in the organs of cow, pig and sheep

The highest specific activities and the most complex isoenzyme patterns were found in livers of these species, characteristic isoenzymes were observed also in the core of adrenal glands. In spite of a general resemblance the isoenzyme patterns of liver alcohol dehydrogenase are specific for the species tested; the activities in most organs (and blood sera) increase in the sequence cow, pig and sheep. The activities in foetal bovine organs are substantially lower than those in organs of adult cows, the most pronounced increase in activities during the intrauteral development was observed in liver.     

Vascular localization of bovine pancreatic trypsin-inhibitor-related molecular forms in bovine spleen

Bovine spleen proteic inhibitors of serine proteases, belonging to the bovine pancreatic trypsin inhibitor (BPTI or aprotinin) family, have been localized, using immunocytochemical techniques, in the smooth muscle cells of some bovine spleen blood vessels. This vascular localization also occurs in a variety of bovine organs and differs from that of BPTI itself which is found exclusively in bovine mast cells, in agreement with previous reports. These data would be in favour of a possible involvement of one or more BPTI-type inhibitors in vascular processes by acting at the level of the smooth muscle cells, the tissue responsible for vasodilation/vasoconstriction events.     

Comparison of the cytolytic effects in vitro on Trypanosoma brucei brucei of plasma, high density lipoproteins, and apolipoprotein A-I from hosts both susceptible (cattle and sheep) and resistant (human and baboon) to infection.

The African trypanosome, Trypanosoma brucei brucei causes a fatal wasting disease in livestock but does not ordinarily infect humans, apparently because this unicellular parasite is lysed by high density lipoproteins (HDL) in human serum. To assess whether there is a specific active constituent in trypanolytic HDL, we have systematically compared the cytotoxic action on T.b.brucei in vitro of native and delipidated HDL, and of individual apolipoproteins, from nonpermissive hosts (human and baboon) with their counterparts from susceptible hosts (cattle and sheep). When suspensions of trypanosomes were incubated for 2 h at 37 degrees C with human or baboon plasma most cells were lysed, but not with bovine or sheep plasma. Similarly, HDL isolated from human and baboon plasma were trypanolytic (typically about 95% and 60% lysis, respectively, at 1 mg protein/ml), whereas bovine and sheep HDL were benign (less than 8% lysis). Subfractionation of human HDL by serial isopycnic ultracentrifugation and by heparin-Sepharose affinity chromatography established that the denser and smaller particles had greater trypanolytic activity both in vitro and in vivo. When human HDL was delipidated, the trypanocidal activity was associated with the water-soluble protein (apolipoprotein) fraction and not with the lipid constituents. Bovine apolipoproteins were also weakly trypanolytic in free solution (20-40% lysis), but not when complexed with cholesterol-phospholipid liposomes (less than 10% lysis). The major apolipoprotein of human HDL, apolipoprotein (apo) A-I had full trypanolytic activity (89-95% lysis at 1 mg protein/ml) when purified, whether in solution or incorporated into liposomes, but other apolipoproteins isolated from human HDL, including apoA-II, apoC, and apoE, were nontrypanolytic. Purified baboon apoA-I was also trypanolytic, though less potent than human apoA-I, but apoA-I from permissive hosts (cattle and sheep) was inactive when presented in liposomes. Incubation of bovine or sheep HDL with purified human apoA-I, and subsequent separation of the HDL by ultracentrifugation, produced chimeric HDL containing significant amounts of the human apolipoprotein; these particles showed appreciable trypanolytic activity. By contrast, human HDL particles in which about 70% of the apoA-I had been displaced with apoA-II had markedly reduced lytic properties compared to the native HDL (30% versus 80% lysis at 0.6 mg total protein/ml). We tentatively conclude that the trypanolytic activity of native human or baboon plasma resides in the apoA-I content of the HDL particles and that, conversely, bovine and sheep plasma are inactive because the apoA-I polypeptide present in their HDL lacks trypanocidal activity.     

Development of a radioimmunoassay for plasma C-peptide in sheep: kinetics of C-peptide and effects of exogenous growth hormone and glucose on insulin and C-peptide

An antiserum to purified bovine C-peptide was used to develop a sensitive radioimmunoassay for C-peptide in sheep. The assay was used to measure kinetics of C-peptide and insulin in non-pregnant and non-lactating sheep. Injected, purified C-peptide was distributed in pools comprising c. 11.4% of liveweight, the half time of C-peptide was estimated as 13.7 min and its clearance rate was c. 5 ml kg-1 min-1. In lactating ewes exogenous recombinant bovine growth hormone (rebGH) increased both plasma insulin and C-peptide as did glucose challenge given before and during administration of rebGH. Estimates of insulin secretion rate in lactating ewes were c. 7 x 10(-3) and 8.5 x 10(-3) nmol kg-1 min-1 before and after glucose challenge prior to injections of rebGH. After 4 days of injection of rebGH, corresponding values were c. 8 x 10(-3) and 10 x 10(-3) nmol min-1 kg-1.     

Secretion of Proteases from Pasteurella multocida Isolates

The capability of Pasteurella multocida to secrete proteases to the culture medium and their characterization were studied in five animal isolates (bovine, chicken, sheep, and two from pig). All the isolates produced proteases in a wide range of molecular mass. It is suggested that they are neutral metalloproteases, since they were optimally active between pH 6 and 7, inhibited by chelating agents but not by other protease inhibitors, and reactivated by calcium. Proteases from isolates were able to degrade IgG. Several proteins from supernatants of cultures precipitated with 70% (NH₄)₂SO₄ of all the P. multocida isolates were recognized by a polyclonal antiserum raised against a purified protease from Actinobacillus pleuropneumoniae. Protease production might play an important role during tissue colonization and in P. multocida diseases. Received: 26 May 1998 / Accepted: 15 August 1998     

Metalloproteinase inhibitors from bovine cartilage and body fluids

Inhibitors of the mammalian metalloproteinases, collagenase, proteoglycanase and gelatinase were isolated from bovine cartilage (extracts and culture medium) and bovine amniotic fluid and serum. These inhibitors either bind or do not bind to concanavalin-A--Sepharose, with Mr (gel filtration) of about 30 000 and 20 000, respectively. Cartilage and chondrocyte culture media contained only concanavalin-A-binding inhibitors whereas cartilage extracts contained only a non-binding inhibitor: serum and amniotic fluid contained both forms of inhibitory activities. In moist biochemical respects, particularly in their abilities to inhibit metalloproteinases, all of the inhibitors were found to be similar. It is concluded that the forms of the inhibitors that differ in Mr may be closely related to the tissue inhibitor of metalloproteinases (TIMP) previously purified from rabbit and human sources. These findings help to clarify other studies on collagenase inhibitors and support the concept that TIMP-like inhibitors may be important in the control of connective tissue degradation.     

The type 5, acid phosphatase from spleen of humans with hairy cell leukemia. Purification, properties, immunological characterization, and comparison with porcine uteroferrin

The spleens of patients with hairy cell leukemia contain high levels of a tartrate-insensitive, cationic, acid phosphatase (the human Type 5 isozyme). This phosphatase has been purified by a procedure which involves only two chromatographic steps: CM-cellulose chromatography and immunoaffinity chromatography on sheep antibodies generated against porcine uteroferrin. Uteroferrin is an abundant iron-containing acid phosphatase that can be recovered readily from porcine uterine secretions. Like uteroferrin, the purified human Type 5 phosphatase is a glycoprotein of molecular weight about 34,000. It contains two atoms of iron/molecule. The human phosphatase and uteroferrin also resemble each other closely in electrophoretic mobility, substrate specificity, and response to a variety of activators and inhibitors. Mouse monoclonal antibodies have been raised to uteroferrin and to the human Type 5 phosphatase. Three monoclonal antibodies which bind with high affinities to distinct sites on the uteroferrin molecule also recognize the human spleen enzyme, but bind to it with much lower affinity. These antibodies also recognize cationic acid phosphatases purified from bovine and rat spleens. A monoclonal antibody raised against the human enzyme, but selected for binding to uteroferrin, appears to recognize a relatively conserved site on all four phosphatases. We conclude that the human Type 5 isozyme belongs to a growing class of structurally related, iron-containing acid phosphatases which includes the iron-transport protein, uteroferrin.