The sequence of a cDNA clone coding for a novel kallikrein from mouse submaxillary gland.

Mouse submaxillary gland contains many proteolytic enzymes, the most widely studied of which are the kallikreins. This gland also contains high levels of nerve growth factor (NGF), which is isolated as a complex of three subunits, alpha, beta, and gamma. We report here the cloning and sequence analysis of a novel kallikrein from mouse submaxillary gland. Antibodies directed against the alpha subunit precipitate the product of this clone, but do not precipitate the homologous gamma subunit. This new kallikrein is therefore closely related to alpha NGF, yet in contrast to the alpha subunit, its sequence suggests it has proteolytic activity.     

Growth factor-binding proteases in the murine submaxillary gland: isolation of a cDNA clone

The submaxillary gland of the adult male mouse contains a number of serine proteases, several of which are involved in the proteolytic processing of precursors to growth factors and other biologically active polypeptides. Here we report the isolation and identification of a cDNA clone corresponding to one of the proteases, the type B of the epidermal growth factor-binding protein. A pronounced sequence homology was found between the predicted activation peptide of this protease and the NH2-terminal extension of the nerve growth factor alpha subunit, suggesting that the latter protein has an uncleaved activation peptide attached to its NH2 terminus.     

Genes for the alpha and gamma subunits of mouse nerve growth factor are contiguous.

Here we describe the structure and linkage of genes encoding the alpha and gamma subunits of mouse nerve growth factor (NGF). These genes are members of the highly homologous glandular kallikrein multigene family. Together with the beta subunit, the alpha and gamma proteins constitute the high mol. wt. (7S) form of NGF isolated from mouse submandibular gland. The gamma subunit is an active serine protease and is thought to cleave pro-beta-NGF to generate the mature growth factor. The alpha subunit has no detectable proteolytic activity, but is essential for the stable formation of 7S NGF. Lack of enzyme activity of the alpha subunit can be attributed, at least in part, to the deletion of 15 nucleotides in a highly conserved coding region which is normally involved in the activation of serine proteases from their inactive zymogen form.     

Synthetic chimeras of mouse growth factor-associated glandular kallikreins. II. Growth factor binding properties.

Six chimeric constructs of the sequentially similar growth factor-associated kallikreins-epidermal growth factor binding protein (EGF-BP) and the gamma-subunit of nerve growth factor (gamma-NGF)--have been expressed, and their ability to generate complexes with epidermal growth factor (EGF) and beta-NGF, analogous to the high molecular weight forms (7S NGF and HMW-EGF) found in the mouse submaxillary gland, evaluated. The chimeras are distinguished by the interchange of three regions composing the amino, middle, and carboxyl terminal regions that encompass four surface loops possibly involved in specific growth factor interactions. Native beta-NGF (along with native alpha-NGF) formed complexes indistinguishable from naturally occurring 7S NGF, characterized by an alpha 2 beta gamma 2 structure (where beta-NGF is itself a dimer), with recombinant (r) gamma-NGF and with a chimera in which the amino terminal region from EGF-BP was substituted. Two other chimeras containing either the middle or carboxyl terminal regions of gamma-NGF showed weaker ability to form 7S complexes. Thus, all chimeras containing two segments from gamma-NGF retained at least some ability to form the 7S complex. rEGF-BP reacted weakly with EGF, but the chimera composed of the amino and middle segments of EGF-BP and the carboxyl terminal segment of gamma-NGF formed a nativelike HMW-EGF complex. None of the other chimeras appeared to bind EGF. These results identify amino acid positions within each kallikrein that participate in strong growth factor interactions and demonstrate that, outside of active site contacts, different regions of the kallikreins are involved in the binding of EGF and beta-NGF, respectively.     

Mouse submandibular gland prorenin-converting enzyme is a member of glandular kallikrein family

Mouse submandibular gland prorenin-converting enzyme (PRECE) consists of the two polypeptide chains of 17 and 10 kDa and cleaves mouse Ren-2 prorenin at a dibasic site to yield mature renin. Western blot analysis using an antiserum against this enzyme gave rise to multiple bands in mouse submandibular glands, suggesting that PRECE is a member of a protease family. Partial amino acid sequence analysis of purified PRECE and cloning and sequence analyses of its cDNA indicated that it is identical to the mGK-13 gene product, epidermal growth factor-binding protein type B, which is a member of the glandular kallikrein family and is involved in maturation of epidermal growth factor. Conditioned medium from Chinese hamster ovary cells transfected with an expression plasmid for PRECE had prorenin converting activity. These results indicate that PRECE is involved in the maturation of two bioactive polypeptides expressed in mouse submandibular glands, Ren-2 renin and epidermal growth factor.     

Processing of the native nerve growth factor precursor to form biologically active nerve growth factor

In the mouse submaxillary gland beta nerve growth factor (beta-NGF) forms a complex with two members of the kallikrein family of serine proteases, termed the alpha- and gamma-subunits of NGF. We demonstrate that the beta-NGF precursor produced in mammalian cells via a recombinant vaccinia virus can be cleaved by stoichiometric quantities of the gamma-subunit to produce beta-NGF. Trypsin in catalytic quantities also produces native beta-NGF. Proper cleavage depends critically on the conformation of the precursor. beta-NGF has at least 10-fold more biological activity than its precursor.     

Mouse glandular kallikrein genes. Nucleotide sequence of cloned cDNA coding for a member of the kallikrein arginyl esteropeptidase group of serine proteases

A library of cloned cDNA to male mouse submaxillary gland poly(A)-containing RNA was constructed in the plasmid pBR322. Inserts containing sequences estimated to be in the 1-5% abundance class were identified by hybridization to radiolabeled cDNA and examined by nucleotide sequence analysis. A sequence coding for a peptide with 57% homology to the only complete kallikrein sequence reported to date (from pig pancreas) was identified by a computer search program. This insert appears to code for the COOH-terminal 149 amino acids of a protein presumed therefore to be a serine protease. Comparison of the predicted amino acid sequence of this protein with analogous sequences in the three characterized members of the mouse submaxillary gland kallikrein arginyl esteropeptidase group of enzymes revealed extensive homology, although not complete identity. Thus, there are at least four members of this enzyme family expressed in the mouse submaxillary gland.     

Demonstration of protease activity for epidermal growth factor-binding protein

The epidermal growth factor can be isolated from the male mouse submaxillary gland as part of a high molecular weight complex. The complex is composed of two molecules of epidermal growth factor and two molecules of epidermal growth-factor binding protein (J.M. Taylor, W.M. Mitchell, and S. Cohen, 1974, J. Biol. Chem.249, 3198–3203). The proteolytic activity of epidermal growth-factor binding protein was demonstrated by its self-proteolysis in moderate (3–7 m) concentrations of urea, and, its inhibition by formation of a complex with pancreatic trypsin inhibitor. This complex was characterized by its pI and by its ability to yield pancreatic trypsin inhibitor and epidermal growth factor-binding protein in sodium dodecyl sulfate-urea gel electrophoresis. The association equilibrium constant was determined to be 3.6 × 10⁷m^?1 by inhibition studies of the esteropeptidase. These results, which indicate that epidermal growth factor-binding protein is capable of autodigestion and of forming a stable complex with a macromolecular inhibitor of trypsin, lend strong support to the hypothesis that epidermal growth factor-binding protein is capable of cleaving a larger precursor by its proteolytic action.     

Factors in the rat submaxillary gland that stimulate growth of cultured glioma cells: identification and partial characterization

The effect of rat submaxillary extract on the growth of rat C6 glioma cells in serum-free culture has been examined. Extracts (10-15 microgram/ml) of submaxillary glands from both male and female rats markedly enhanced the growth of serum-deprived C6 cells and, in combination with insulin, transferrin, and NIH-LH (a source of fibroblast growth factor), were able to stimulate C6 cell growth to an extent comparable to that achieved with an optimal amount of fetal calf serum. The mitogenic activity of rat submaxillary extracts was found to be heat-labile, acid-stable, and partially inactivated by protease and 2-mercaptoethanol. Under our assay conditions, biologically active preparations of purified mouse submaxillary gland epidermal growth factor (EGF) or nerve growth factor (NGF) were not mitogenic for C6 cells, nor was the mitogenic activity of rat submaxillary extracts inhibited by antiserum to these mouse submaxillary gland growth factors. These results suggest that the active component(s) of rat submaxillary extracts is unrelated to either EGF or NGF. The growth-enhancing effect also appears unrelated to esteropeptidase activity present in these extracts since the mitogenic activity was unaffected by several protease inhibitors. Moreover, two purified mouse submaxillary gland arginylesteropeptidases, EGF-binding protein and gamma-subunit of 7 S NGF, were unable to elicit a comparable growth response even when added to cell culture medium at unreasonably high concentrations. The C6 cell mitogenic activity of crude submaxillary extracts could be separated into two biologically similar components by either gel filtration on Sephadex G-100, preparative isoelectric focusing in a pH gradient of 3-10, or adsorption to DEAE-cellulose followed by elution with a sodium chloride gradient. One of the active components was acidic in nature and had an apparent molecular weight of 40,000, while the other was near neutral in charge and possessed a molecular weight of approximately 20,000. The relationship between these two C6 cell mitogenic components and the rat submaxillary gland component responsible for stimulating Balb/c-3T3 cell growth in serum-free, factor supplemented medium (McClure et al., 1979, J. Cell Biol. 83:96a) is also discussed.     

Dietary regulation of levels of active mRNA coding for amylase and serine protease zymogens in the rat pancreas

Translation products of a reticulocyte lysate reaction, programmed with poly(A)-rich RNAs from the male mouse submaxillary gland, were subjected to affinity chromatography on a tubulin-Sepharose column. Analysis of the bound proteins in sodium dodecylsulfate/polyacrylamide gels revealed two polypeptides of Mr 27 000 and 45 000, that were shown to bind to tubulin in a specific manner. These polypeptides were absent from the translation products coded by poly(A)-rich RNAs from the female mouse. They were eluted from the tubulin-Sepharose resin under conditions similar to those employed for the dissociation of immune complexes. The Mr-27 000 and Mr-45 000 proteins were identified by immunoprecipitation with specific antisera as the precursors of the gamma subunit of the nerve growth factor (NGF) and renin respectively. These two precursors as well as a third, unidentified polypeptide of Mr 38 000, probably unrelated to the beta subunit of NGF, bound also to microtubules. The mature form of renin, purified from the submaximillary gland, also displayed an affinity for the microtubules. In contrast, the mature form of the gamma subunit of NGF did not bind to the microtubules. The possible involvement of the microtubules (tubulin) in the biosynthesis of these two secretory proteins is discussed.     

Proteinase inhibitory spectrum of mouse murinoglobulin and alpha-macroglobulin

The interactions of mouse murinoglobulin and alpha-macroglobulin with several proteinases were investigated by filtration and by assays of amidolytic activity towards synthetic substrates in the presence of proteinaceous enzyme inhibitors as well as assays of the inhibition of proteolytic activity. Mouse alpha-macroglobulin formed complexes with thrombin, clotting factor Xa, plasmin, pancreatic kallikrein, plasma kallikrein, submaxillary gland trypsin-like proteinase, neutrophil elastase, and pancreatic elastase. These complexes lost the proteolytic activities against high-molecular-weight substrates, but protected the active sites of the enzymes from inactivation by their proteinaceous inhibitors. Mouse murinoglobulin showed essentially the same properties except (i) that it did not form a complex with the clotting factor Xa, and (ii) that it did not protect plasma kallikrein, neutrophil elastase or submaxillary proteinase from inactivation by their proteinaceous inhibitors, although it formed complexes with these proteinases. No interaction was detected between Clostridium histolyticum collagenase and murinoglobulin or alpha-macroglobulin. These results indicate (i) that murinoglobulin has a proteinase-binding spectrum similar to that of alpha-macroglobulin, but is weaker in the ability to protect the bound proteinases from inactivation by the proteinaceous inhibitors than alpha-macroglobulin and (ii) that mouse alpha-macroglobulin has essentially the same inhibitory spectrum as the human homologue.     

The characterization of recombinant mouse glandular kallikreins from E. coli

A system has been developed for the expression in E. coli of 12 of the 14 expressed mouse submandibular gland kallikreins as cassettes subcloned directly from cDNA. Using the epidermal growth factor binding protein (mGK-9) and the gamma-subunit of nerve growth factor (mGK-3), as test cases, mature processed forms, obtained as functionally active proteins, as well as various precursor forms, were isolated. The expression system described allows rapid isolation of kallikrein protein from corresponding cDNA with yields of approximately 1.0 mg of purified protein from 10 g of initial cell paste. This expression system will facilitate structure/function studies of the mouse glandular kallikrein gene family and help elucidate the regions of the mature proteins responsible for the diverse catalytic behavior and growth factor interactions observed in this family of proteins.     

Mouse glandular kallikrein genes: identification and characterization of the genes encoding the epidermal growth factor binding proteins

Previously, three proteins have been separately identified as the mouse epidermal growth factor binding protein (EGF-BP). We have identified and sequenced the coding regions of three distinct genes encoding these EGF-BPs from the BALB/c strain. The genes are all members of the glandular kallikrein gene family, which encodes a highly homologous group of serine proteases. Expression of the EGF-BP genes was detected in mouse salivary gland only and was at a relatively similar level for each gene. The isolation of three distinct genes from the one mouse strain indicates that the conflicting data previously reported in the literature are not a result of allelic polymorphisms or strain differences.     

小鼠颌下腺上皮细胞的培养及表皮生长因子的鉴定

体外培养小鼠颌下腺细胞,形态学观察可见有上皮样细胞生长。免疫细胞化学及蛋白质印迹转移分析结果表明,体外培养的颌下腺上皮样细胞可合成并分泌表皮生长因子。     

A SENSITIVE RADIOIMMUNOASSAY FOR 7S NERVE GROWTH FACTOR ANTIGENS IN SERUM AND TISSUES

A radioimmunoassay was developed which can measure accurately concentrations of mouse 7S nerve growth factor antigens (NGFA) as low as 3·0 ng/ml in serum or tissue homogenates. Extremely large amounts of presumed nerve growth factor were found in the submaxillary gland; but considerable quantities were also present in mouse serum, kidney, adrenal gland and vas deferens. Heart, spleen, liver and muscle contained less of the presumed nerve growth factor, and only small amounts were recovered from brain. Rat adrenal gland and serum from rats, guinea pigs and man contained much less immunologically reactive material. The level of presumed nerve growth factor in the mouse heart was highest at birth and decreased slowly during maturation. In the mouse submaxillary gland the content of presumed nerve growth factor increased rapidly after 2 weeks of postnatal age, with higher levels found in male animals. Destruction with 6-hydroxydopamine of the sympathetic nerves in the hearts of newborn or adult mice did not significantly alter the amount of presumed nerve growth factor recovered in the heart.     

Synthesis and secretion of nerve growth factor by mouse astroglial cells in culture

Astroglial cells cultured from the mouse brain have been found to synthesize and secrete a material(s) with nerve growth factor-like immunoreactivity (NGF-LI) into their culture medium. A material(s) with NGF-LI showed identical properties to those of beta NGF purified from the mouse submaxillary gland in immunoreactivity, molecular weight, isoelectric point, and neurite outgrowth stimulatory activity. These results indicate that astroglial cells cultured from mouse brain are able to synthesize and secrete beta NGF in culture.     

Tonin, an esteroprotease from rat submaxillary glands

Tonin is an enzyme found in the rat submaxillary glands which liberates angiotensin II from angiotensinogen, the Skeggs tetradecapeptide renin substrate, and angiotensin I. Tonin hydrolyzes benzoyl-arginine ethyl ester, benzoyl-arginine methyl ester, tosyl-arginine methyl ester, benzoyl-arginine p-nitroanilide and other small synthetic substrates at an optimum ph of 9.0. Tonin shows, however, a great specificity with respect to angiotensin I. Tonin is inhibited by diisopropyl fluorophosphate and phenylmethylsulfonyl fluoride at high concentrations (greater than 10(-2) M) and by soybean trypsin inhibitor and aprotinin. Tonin is thus an esteroprotease of the class of the serine protease with trypsin- and chymotrypsin-like activity. Tonin belongs to the same family of enzyme as glandular kallikrein and the gamma subunit of the nerve growth factor.