7S Nerve growth factor alpha and gamma subunits are closely related proteins

The polypeptide composition and partial amino acid sequence of the 7S nerve growth factor (NGF) alpha subunit have been determined. Residues in 76 unique positions corresponding to 35% of the molecule were identified. The sequence shows that the NGF alpha subunit is closely related to the NGF gamma subunit and thus a member of the same protein family as the serine proteases. This finding is unexpected since the NGF alpha subunit is devoid of detectable protease activity. However, the NGF alpha subunit differs in one important respect from the NGF gamma subunit and related serine proteases. The highly conserved amino-terminal activation cleavage structure, common to most serine proteases, has been deleted, and an uncleaved activation peptide remains attached to the amino terminus of the mature NGF alpha subunit. It is suggested that this feature is causally related to the apparent lack of proteolytic activity.     

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.     

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.     

Purification and characterization of a hormone-like factor which inhibits cholera secretion

Sera raised against the alpha-, beta- and gamma-subunits of the mouse 7 S NGF were used to characterize translation products coded by submaxillary gland mRNAs microinjected into Xenopus oocytes. Anti-beta NGF sera did not cross-react with any material. In contrast, the precursors of the alpha- and gamma-subunits, as well as that of renin were identified. Use of tunicamycin, and a comparison of the translation products obtained in oocytes or in the reticulocyte lysate indicated that oocytes achieved the cleavage of signal sequences, the glycosylation of the alpha- and gamma-precursors, and the subsequent secretion of the 3 proteins. In the submaxillary gland, however, the mature forms of alpha NGF, gamma NGF and renin are composed of peptides of smaller size than those produced by the oocytes. These latter appear to lack specific proteases involved in the terminal processing of the submaxillary gland proteins.     

The relationship between glandular kallikrein and growth factor-processing proteases of mouse submaxillary gland.

Three highly specific trypsin-like proteases from mouse submaxillary gland; nerve growth factor gamma subunit, beta nerve growth factor-endopeptidase, and epidermal growth factor-binding protein were tested for kallikrein activity. Low molecular weight kininogen was purified from mouse plasma and used as substrate for the three enzymes, and the kinin released by the enzymes was assayed by its ability to induce contraction of isolated rat uterus. All three enzymes were found to have significant kininogenase activity, and the most active enzyme, beta nerve growth factor-endopeptidase, has activity comparable to authentic kallikreins from other glandular sources. Essentially all of the kininogenase activity of submaxillary gland co-purifies with beta nerve growth factor-endopeptidase. Hence, beta nerve growth factor-endopeptidase appears to be identical with submaxillary gland kallikrein. Nerve growth factor gamma subunit, epidermal growth factor-binding protein, and beta nerve growth factor-endopeptidase have similar amino acid compositions and molecular weights, and are immunologically similar. Comparison of published partial primary sequence data confirms our conclusion that nerve growth factor gamma subunit, epidermal growth factor-binding protein, and kallikrein are very closely related enzymes. It is postulated that these three enzymes are members of a larger family of similar enzymes, all of which are involved in the processing of precursors to polypeptide hormones and growth factors.     

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.     

L cells potentiate the effect of the extracellular NGF activity in co-cultures with PC12 pheochromocytoma cells

Two mouse cell lines, 3T3 and L, reported to secrete an NGF-like activity in the culture medium were co-cultured with the pheochromocytoma cell line PC12 which responds to NGF in vitro. In these co-cultures mitomycin-treated L or 3T3 cells were employed at low cell density (1 000 cells/cm2). L cells, but not 3T3, promoted efficiently neurite outgrowth of PC12. The response of the PC12 cells was blocked by an antiserum to male mouse submaxillary gland beta NGF. The NGF secreted by the L cells and immunoprecipitated by this antiserum co-migrated with the submaxillary gland beta NGF monomer in SDS-polyacrylamide gels. Surprisingly the neurite-promoting activity of media conditioned by L or by L-PC12 co-cultures was at most one-tenth of that expected on the basis of the response of PC12 cells in the co-cultures. This was not due to proteolytic degradation of the NGF-like factor or to losses by manipulation of the media. It seems therefore that co-cultures provide conditions which enhance the effect of the factor. Possible mechanisms responsible for this effect are discussed.     

Origin of the gamma polypeptide of the Na+/K+-ATPase

The Na+/K+-ATPase purified from lamb kidney contains a gamma polypeptide fraction which is a collection of fragments derived from the alpha and beta polypeptides of the enzyme. This fraction has the solubility characteristics of a proteolipid and was isolated either by high performance liquid chromatography (size exclusion chromatography) in 1% sodium dodecyl sulfate or by sequential organic extraction of purified lamb kidney Na+/K+-ATPase. Formation of gamma polypeptide(s) from detergent solubilized holoenzyme was accelerated by sulfhydryl containing reagents and was unaffected by addition of inhibitors of proteolytic enzymes. Treatment of the holoenzyme with the photoaffinity reagent N-(2-nitro-4-azidophenyl)[3H]ouabain ([3H]NAP-ouabain) labeled the alpha polypeptide and the gamma polypeptide fraction but not the beta polypeptide. Amino acid sequence analysis of one gamma polypeptide preparation revealed homology of one component of this fraction with the N-terminus of the beta subunit of the Na+/K+-ATPase. Amino acid analysis of two preparations of proteolipid showed similar amino acid compositions with a peptide derived from the alpha subunit. The insolubility and complexity of the gamma polypeptide(s)/proteolipid fraction appears to preclude a conclusive sequence analysis of all components of this fraction.     

On the relationship of zinc ion to the structure and function of the 7S nerve growth factor protein.

The 7S nerve growth factor (7S NGF) is an oligomeric protein consisting of three distinct classes of subunits, alpha,beta, and gamma (A. P. Smith, S. Varon, and E. M. Shooter (1968), Biochemistry 7, 3259). The beta subunit contains the growth promoting activity while gamma is a potent esteropeptidase. The proteolytic activity of gamma is virtually completely inhibited in the 7S NGF aggregate (L. A. Greene, E. M. Shooter, and S. Varon (1969), Biochemistry 8, 3735). In this paper, we report that divalent metal ion chelating agents effect a seven- to tenfold increase in the esteropeptidase activity of 7S NGF at pH 7.40. Plots of esteropeptidase activity vs. chelator concentration give saturation curves which are either sigmoidal (EDTA) or hyperbolic (o-phenanthroline) depending on the chemical structure of the chelator. A survey of common divalent metal ions shows that only zinc ion (Ki = 8 times 10(7) M) and, to a lesser extent, cadmium ion are effective, reversible inhibitors of both 7S NGF and the gamma subunit esteropeptidase activities. We have found that during isolation of 7S NGF, Zn2+ is selectively associated with the oligomer in a ratio of approximately 1-2 g-atoms of zinc/mol of 7S NGF with an apparent affinity which is orders of magnitude tighter than is indicated by the Ki value for the gamma subunit. Dialysis to pH 4.0 where 7S NGF is known to undergo a reversible dissociation (A. P. Smith, S. Varon, and E. M. Shooter (1968), Biochemistry 7, 3259) brings about a tenfold reduction in the zinc ion content of the protein. This reduction is reversed on dialysis back to pH 7.4. In contrast, the isolated subunits contain only trace amounts of zinc ion at pH 7.4. Preliminary metal ion exchange experiments indicate that, of the common metal ions known to substitute for zinc in other zinc-metalloproteins, only cadmium ion is effective in substituting for zinc ion in 7S NGF. The fact that zinc ion is specifically bound to native 7S NGF, and that the zinc ion content of the system is critically dependent on the subunit aggregation state strongly suggests that zinc ion is an integral structural component of native 7S NGF.     

The "gamma subunit" of Na,K-ATPase: a small, amphiphilic protein with a unique amino acid sequence

The "gamma subunit", or "proteolipid", of Na,K-ATPase is a small, membrane-bound protein that copurifies with the alpha and beta subunits of this enzyme. The importance of gamma in the function of Na,K-ATPase remains to be established, but some evidence indicates that it may be involved in forming a receptor site for cardiac glycosides. We have previously communicated [Reeves, A. S., Collins, J. H., & Schwartz, A. (1980) Biochem. Biophys. Res. Commun. 95, 1591-1598] the purification and amino acid composition of sheep kidney gamma, and in this paper we present the first available sequence information on this protein. Although the amino terminus of gamma seems to be blocked and it is resistant to proteolytic cleavage, we have determined approximately half of its amino acid sequence. Our results indicate that gamma contains a total of 68 amino acid residues, with a calculated Mr of 7675. The sequenced portion appears to be at the carboxyl terminus of the polypeptide chain. The gamma sequence is unique, providing strong evidence for its homogeneity and establishing for the first time that it is not a breakdown product of the alpha or beta subunits. gamma is not a true proteolipid, but rather it is an amphiphilic protein with two distinct structural domains. The amino-terminal domain (residues 1-49) is very hydrophilic, with many charged amino acid side chains, and must be extracellular. This domain includes a concentrated segment of four aromatic residues which may be involved in glycoside binding. The carboxyl-terminal domain (residues 50-68) is hydrophobic and probably spans the cell membrane.     

Effect of mouse submaxillary gland and NGF preparations on competent chick ectodermin vitro,studied by the immunofluorescence method

Summary The submaxillary gland of the male mouse, but not the female, was shown to act strongly neuralizing on competent chick ectoderm, recorded as frequency of neural antigen producing cultures. NGF preparations from mouse submaxillary gland were shown to cause a high frequency of neural antigen producing cultures. The effect of the NGF preparations diminished with time and ceased after storage at –90° C for 17 days. The possible role of NGF in the present system is discussed; but the possibility could not be excluded that factors other than NGF present in the submaxillary gland and the NGF preparations cause the competent ectoderm to neuralize.     

Topological dispositions of lysine alpha 380 and lysine gamma 486 in the acetylcholine receptor from Torpedo californica

The locations have been determined, with respect to the plasma membrane, of lysine alpha 380 and lysine gamma 486 in the alpha subunit and the gamma subunit, respectively, of the nicotinic acetylcholine receptor from Torpedo californica. Immunoadsorbents were constructed that recognize the carboxy terminus of the peptide GVKYIAE released by proteolytic digestion from positions 378-384 in the amino acid sequence of the alpha subunit of the acetylcholine receptor and the carboxy terminus of the peptide KYVP released by proteolytic digestion from positions 486-489 in the amino acid sequence of the gamma subunit. They were used to isolate these peptides from proteolytic digests of polypeptides from the acetylcholine receptor. Sealed vesicles containing the native acetylcholine receptor were labeled with pyridoxal phosphate and sodium [3H]-borohydride. Saponin was added to a portion of the vesicles prior to labeling to render them permeable to pyridoxal phosphate. The effect of saponin on the incorporation of pyridoxamine phosphate into lysine alpha 380 and lysine gamma 486 from the acetylcholine receptor in these vesicles was assessed with the immunoadsorbents. The peptides bound and released by the immunoadsorbents were positively identified and quantified by high-pressure liquid chromatography. Modification of lysine alpha 380 in the native acetylcholine receptor in sealed vesicles increased 5-fold in the presence of saponin, while modification of lysine gamma 486 was unaffected by the presence of saponin. The conclusions that follow from these results are that lysine alpha 380 is on the inside surface of a vesicle and lysine gamma 486 is on the outside surface.(ABSTRACT TRUNCATED AT 250 WORDS)     

Characterization of the gamma subunits of the 7S nerve growth factor complex.

The gamma subunits of the 7S nerve growth factor complex (7S NGF) display arginine esteropeptidase activity. By varying the conditions of electrophoresis in acrylamide gel, it has been demonstrated that the gamma-subunit fraction of 7S NGF contains five different proteins, in contrast to the three (gamma1, gamma2, and gamma3) originally described (Smith, A.P., Varon, S. and Shooter, E.M. (1968), Biochemistry 7, 3259-3268); the gamma1 and gamma2 subunits, previously thought to be single species, can each be resolved into two components. The two components of the gamma1 subunit have the same isoelectric point, as do the two components of the gamma2 subunit. The distribution of protein among the two components of each of the gamma1 and gamma2 subunits varied from preparation to preparation. Moreover, a shift in the distribution for the gamma1 subunit was accompanied by a parallel shift for the gamma2 subunit. All of the different gamma proteins have the same molecular weight. On the basis of the molecular weights of the peptide chains of the gamma subunits and of the species which are formed by cross-linking with dimethyl suberimidate, it was concluded, that both the gamma1 and gamma2 subunits contain one species with two peptide chains and another with three peptide chains, while the gamma3 subunit is a single species with three peptide chains. The results also suggest that two of the chains in the three-chain species are derived, by proteolytic cleavage, from the larger chain in the two-chain species.     

Characterization of the 1,4-dihydropyridine receptor using subunit-specific polyclonal antibodies. Evidence for a 32,000-Da subunit

The purified receptor for the 1,4-dihydropyridine Ca2+ channel blockers from rabbit skeletal muscle contains protein components of 170,000 Da (alpha 1), 175,000 Da (alpha 2), 52,000 Da (beta), and 32,000 Da (gamma) when analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis under nonreducing conditions. Subunit-specific polyclonal antibodies have now been prepared and used to characterize the association of the 32,000-Da polypeptide (gamma subunit) with other subunits of the dihydropyridine receptor. Immunoblot analysis of fractions collected during purification of the dihydropyridine receptor shows that the 32,000-Da polypeptide copurified with alpha 1 and alpha 2 subunits at each step of the purification. In addition, monoclonal antibodies against the alpha 1 and beta subunits immunoprecipitate the digitonin-solubilized dihydropyridine receptor as a multisubunit complex which includes the 32,000-Da polypeptide. Polyclonal antibodies generated against both the nonreduced and reduced forms of the alpha 2 subunit and the gamma subunit have been used to show that the 32,000-Da polypeptide is not a proteolytic fragment of a larger component of the dihydropyridine receptor and not disulfide linked to the alpha 2 subunit. In addition, polyclonal antibodies against the rabbit skeletal muscle 32,000-Da polypeptide specifically react with similar proteins in skeletal muscle of other species including avian and amphibian species. Thus, our results demonstrate that the 32,000-Da polypeptide (gamma subunit) is an integral and distinct component of the dihydropyridine receptor.     

The NGF complex from the African ratMastomys natalensis

The 7S NGF complex from the male mouse submaxillary gland consists of the , and subunits in the ratio ₂₂. The (NGF) subunit contains all the known biolocial activity of 7S NGF. The and subunits are both members of glandular kallikrein gene family, yet only subunit has protease activity. The subunit plays a role in the processing of preproNGF to its mature form, while the role of the subunit is not yet understood. Despite the fact that 7S NGF has been extensively characterized, no other NGF complex has been characterized, nor have the or subunits been observed in tissues which express NGF. We have therefore purified and characterized the NGF complex from the submaxillary glands of the ratMastomys natalensis in order to more fully understand the roles of the and subunits. The NGF complex from M. natalensis contains subunits similar to those found in mouse 7S NGF. Although similar, there are significant differences between mouse and M. natalensis NGF complexes, especially in the degree of post-translational modification of the and NGF subunits, the expression of esterase activity and the ease with which the complexes dissociate. Evidence is presented that suggests that the NGF complex from M. natalensis may consist of subunits in the ratio ₂. The amino acid sequence of the M. natalensis NGF suggests some, but not all, ways in which these differences arise.Special issue dedicated to Dr. Lawrence Austin     

Synthesis and immunocytochemical localization of alpha 2u globulin in the duct cells of the rat submaxillary gland

Alpha 2u globulin, a protein of unknown function so far believed to be synthesized exclusively in the male liver under multihormonal control, is now shown to be localized by immunocytochemistry in the granular convoluted tubules of the adult male submaxillary gland. In addition, using Northern blot analysis, we have shown specific alpha 2u globulin mRNA sequences in the RNA extracted from the submaxillary gland. Thus, it is evident that the protein is being synthesized therein. Alpha 2u globulin was also detected in the submaxillary gland duct cells of adult female and immature animals of both sexes, all of which are known not to synthesize alpha 2u globulin in their livers. The present data have established that alpha 2u globulin is synthesized in the rat submaxillary gland and indicate that the control of alpha 2u globulin gene expression in the rat liver and in the submaxillary gland is different.     

A novel site on gamma 3 subunits important for assembly of GABA(A) receptors

Gamma-aminobutyric acid, type A (GABA(A)) receptors are ligand-gated chloride channels and are the major inhibitory transmitter receptors in the central nervous system. The majority of these receptors is composed of two alpha, two beta, and one gamma subunits. To identify sequences important for subunit assembly, we generated C-terminally truncated and chimeric gamma(3) constructs. From their ability to associate with full-length alpha(1) and beta(3) subunits, we concluded that amino acid sequence gamma(3)(70-84) either directly interacts with alpha(1) or beta(3) subunits or stabilizes a contact site elsewhere in the protein. The observation that this sequence contains amino acid residues homologous to gamma(2) residues contributing to the benzodiazepine-binding site at the alpha(1)/gamma(2) interface suggested that in alpha(1)beta(3)gamma(3) receptors the sequence gamma(3)(70-84) is located at the alpha(1)/gamma(3) interface. In the absence of alpha(1) subunits this sequence might allow assembly of beta(3) with gamma(3) subunits. Other experiments indicated that sequences gamma(3)(86-95) and gamma(3)(94-107), which are homologous to previously identified sequences important for assembly of gamma(2) subunits, are also important for assembly of gamma(3) subunits. This indicates that during assembly of the GABA(A) receptor, more than one N-terminal sequence is important for binding to the same neighboring subunit. Whether the three sequences investigated are involved in direct interaction or stabilize other regions involved in intersubunit contacts has to be further studied.