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.     

BIOCHEMICAL AND MORPHOLOGICAL EFFECTS OF TESTOSTERONE TREATMENT ON DEVELOPING SYMPATHETIC NEURONS

Abstract— Neonatal rats were treated with testosterone propionate (TP) or isoproterenol (ISO) to determine whether (1) increases in salivary gland mass are associated with alteration of developing sympathetic neurons and (2) whether effects on neuron growth are secondary to altered target mass itself or to increases in salivary growth factors. TP treatment is known to result in salivary tubule hypertrophy and elevated nerve growth factor (NGF) content whereas IS0 treatment results in acinar hypertrophy and no known alteration in NGF. TP treatment increased submaxillary gland weight as well as tyrosine hydroxylase (T-OH) activity, adrenergic neuron numbers and total protein in the innervating superior cervical ganglion (SCG). Unilateral sialectomy prevented the increase in T-OH activity in the SCG, suggesting that the salivary glands were necessary for this effect. T-OH activity and total protein were elevated in the distant sixth lumbar sympathetic ganglion after TP treatment, suggesting that sympathetic development as a whole was affected and that humoral factors may be involved. Salivary gland weight was also elevated following ISO administration, but T-OH activity in the SCG was not affected. These observations suggest that TP treatment increases T-OH activity and sympathetic neuron numbers by alteration of specific salivary humoral growth factor(s).     

Subject index

It is the object of this report to compare the biological, biochemical activity and the immunocytochemical localization of nerve growth factor (NGF) in the submaxillary glands of Praomys (mastomys) natalensis and mouse. Biological and radioimmunoassays gave evidence of a higher NGF activity in the soluble extract of submaxillary glands of male and female mastomys than in the male mouse homologous glands. Histological and immunocytochemical studies showed that, in contrast to mouse submaxillary glands, these mastomys glands exhibit a very attenuated sexual dimorphism. Immunocytochemistry and radioimmunoassay revealed a similarity—but not identity—of mouse and mastomys NGFs.     

The submaxillary salivary glands of the African rodent Praomys (mastomys) natalensis as the richest available source of the nerve growth factor

It is the object of this report to compare the biological, biochemical activity and the immunocytochemical localization of nerve growth factor (NGF) in the submaxillary glands of Praomys (mastomys) natalensis and mouse. Biological and radioimmunoassays gave evidence of a higher NGF activity in the soluble extract of submaxillary glands of male and female mastomys than in the male mouse homologous glands. Histological and immunocytochemical studies showed that, in contrast to mouse submaxillary glands, these mastomys glands exhibit a very attenuated sexual dimorphism. Immunocytochemistry and radioimmunoassay revealed a similarity—but not identity—of mouse and mastomys NGFs.     

Development of the rat salivary glands. II. The identification of a trypsinlike protease in the submaxillary gland

Trypsinlike protease activity at pH 9.2 was measured in tissue extracts of adult rat salivary glands by using a fluorometric assay in which β-naphthylamine is released by the hydrolysis of benzylarginine β-naphthylamide. The submaxillary gland contains high levels of this activity, and the parotid and sublingual glands have a maximum of 2000-fold and 200-fold less. After polyacrylamide disc gel electrophoresis at pH 8.3, the protease activity of submaxillary extracts is associated with a major protein band. Neither this protein band nor its protease activity is detectable in extracts of parotid or sublingual glands. Homogenates of newborn submaxillary gland do not have this protease activity at detectable levels, suggesting that its major accumulation is postnatal.     

Biosynthesis of beta nerve growth factor in mouse submaxillary glands

The biosynthesis of beta nerve growth factor (betaNGF) was studied in isolated mouse submaxillary glands incubated with L-[35S]cystine. Sodium dodecyl sulfate gels of anti-betaNGF immunoprecipitates from labeled gland homogenates showed a single major peak of radioactivity, which comigrated with purified betaNGF. This species was nearly completely precipitated by the addition of equivalent amounts of anti-betaNGF, but was absent from immunoprecipitates obtained by the addition of ferritin plus anti-ferritin. The cystine-containing tryptic peptides of the labeled species appeared identical with those of purified betaNGF. In submaxillary glands from adult male mice, labeling of betaNGF represented approximately 0.2% of the trichloroacetic acid-precipitable radioactivity. Castration reduced this value to one-third, while testosterone treatment of castrated animals restored the relative betaNGF synthesis to normal or more. No betaNGF synthesis could be detected in glands from female animals. Several tissues were examined for their ability to synthesize betaNGF in culture. Only submaxillary gland incorporated detectable amounts of radioactivity into betaNGF. Labeling of betaNGF could also be obtained by direct injection of isotope into the submaxillary gland in vivo. The results are discussed in terms of the integration of betaNGF synthesis into neuronal development and maintenance.     

Effect of testosterone on the female hamster harderian gland pigmentation and ultrastructure

Summary Distinct differences occur in the pigmentation and ultrastructural features of the Harderian glands in male and female hamsters. The results of a study on the effect of testosterone on the fine structure of the female Harderian glands are presented here. Glands from three groups of hamsters were examined at intervals up to 49 days: (1) testosterone injected, receiving 2mg testosterone propionate in 0.1 ml sesame oil per day; (2) sham-injected, receiving 0.1 ml sesame oil per day; (3) untreated controls. Testosterone injections caused a reduction in the number of dark-brown pigment granules in the acinar cells starting on the 6th day, whereas clusters of tubules, typical of adult male glands, appeared on the 4th day and increased in number thereafter. Lamellar structures, normally present in the female gland, decreased in testosterone treated specimens. These changes reversed after cessation of testosterone treatment. It is concluded that exogenous testosterone administered to female hamsters modifies the pigmentation and ultrastructure of their Harderian glands towards the male type and that this is a reversable phenomenon. There also appears to be an inverse relationship between the presence of tubular clusters in the acinar cells, and the degree of pigmentation.     

Catecholamines induce an increase in nerve growth factor content in the medium of mouse L-M cells

L-M cells, a mouse fibroblast cell line, synthesized and secreted a nerve growth factor (NGF). The neurite outgrowth stimulatory activity, immunoreactivity, molecular weight, and isoelectric point of L-M cell NGF were identical to those of beta-NGF of the mouse submaxillary gland. Treatment of the cells with either norepinephrine or epinephrine in the range of 0.05-0.2 mM for 24 h resulted in a 3-20-fold increase in NGF content in the medium of the L-M cells. The NGF of epinephrine-treated cell was identical to that of control cell. The stimulation of the increase in NGF content was observed after a 4-h lag time. The rate of incorporation of [3H]leucine into trichloroacetic acid-insoluble materials was essentially unchanged during the treatment. These results suggested that norepinephrine and epinephrine stimulated the de novo synthesis and secretion of NGF protein. Evidence is also presented to indicate that the effects of the drugs are due to the catechol part of the molecule and not mediated by adrenergic receptors.     

Growth-promoting actions of extracts from mouse submaxillary glands on human endothelial cells in culture.

Extracts of submaxillary glands from two different strains of inbred mice were mitogenic for human endothelial cells in culture. The mitogenic activity of extracts from glands of males of the SWR/J and C57BL/10J strains were equivalent, and the growth stimulating effect was unrelated to renin or esteroproteolytic activity. Mitogenic activity in extracts from SWR/J females was less than that from males, and extracts from C57BL/10J females were inactive. The polypeptide growth factors, epidermal (EGF) and fibroblast (FGF) growth factors, also stimulated replication of endothelial cells. Cells from either umbilical arteries or veins responded to submaxillary extracts, EGF, or FGF with a similar increase in cell number, increase in protein and enhanced uptake of 3H-thymidine. The proliferative response was associated with decreased activity of angiotensin I converting enzyme which is localized on the endothelial surface. Nerve growth factor (NGF) was not mitogenic for endothelial cells. Extracts of submaxillary glands from male mice of either strain contained approximately 20 times more EGF than extracts from females, as determined by immunodiffusion. Mitogenic activity of the extracts was completely inhibited by antiserum to EGF, suggesting that the active component of these preparations is EGF.     

小鼠颌下腺内交感神经末梢变性时程的性差异

外源性神经生长因子(NGF)对周边交感系统的营养性影响已有广泛的研究(Black,1978;Purves等,1978)。但是,内源性NGF是否同样行使这种影响,至今还没有被人证实(Nja等,1978)。1979年,Carstairs等人利用丙酸睾酮慢性处理,提高小鼠颌下腺内NGF含量以后,观察到颈上神经节(SCG)中有部分神经元肥大,但其它交感神经节不受影响。作者认为SCG内肥大的神经元就是支配颌下腺的那部分交感神经元。由于雄性小鼠颌下腺内的NGF含量是雌性小鼠的92倍(Hirata等,1979),我们实验室直接检查了小鼠颌下腺和虹膜的交感神经支配,发现成年雄性小鼠颌下腺的荧光基丛索远较雌性小鼠的     

Immunocytochemical localization of nerve growth factor in mouse salivary glands

Summary The submandibular glands of female mice and the sublingual and parotid glands of adult male and female mice have been examined by light microscopical immunocytochemistry for nerve growth factor (NGF). In female submandibular glands, staining for NGF was observed in granular convoluted tubule and striated duct cells. Sublingual glands of the mouse contained relatively few granular cells staining for NGF compared with submandibular glands. However, such granular cells appeared to be more numerous in male sublingual glands than in female glands. The remainder of the intralobular duct cells in both male and female sublingual glands exhibited apical subluminal staining for NGF as well as light basal plasmalemmal staining. Parotid glands in both male and female mice exhibited a similar pattern of staining for NGF in striated duct cells. However, the glands did not contain granular cells nor did they exhibit any pattern of staining which reflected a sexual dimorphism. Immunodot staining of salivary gland extracts confirmed the presence of immunoreactivity for NGF in all three of the major salivary glands.     

Isoprenaline-induced cell proliferation in mouse salivary glands: the effect of castration

The proliferative response to isoprenaline in the submaxillary and parotid glands of the Balb/c mouse has been studied in the intact male and female, and also in the male castrated one month prior to stimulation. The hyperplastic response of the acinar cells has been monitored by serial measurements of the flash tritiated thymidine labelling index and the mitotic index. Castration caused the atrophy of the granular ducts in the submaxillary gland, and therefore an increased predominance of the acini. At one month after castration the acini occupied an area almost 1.5-fold greater than that of the granular ducts, but this was not as great as in the intact female gland where acini occupied twice the area of the granular ducts. Hyperplasia was induced by a single injection of isoprenaline (0.3 mM/kg body weight). The response of the submaxillary gland in the intact male and intact female was very similar, DNA synthesis commencing 21-24 h after stimulation and mitotic activity first noted after 33-36 h. On the other hand, in the submaxillary gland of the castrated male, DNA synthesis began after only 18-21 h and mitotic activity after only 27-30 h. A metaphase arrest experiment with vincristine confirmed the more prompt response in the castrated animals; between 33-36 h after isoprenaline injection, the rate of entry of cells into mitosis was 4 cells/100 cells/h in the castrated group but only 0.4 cells/100 cells/h in the intact males. Thus castration appears to bestow a unique state of responsiveness upon the submaxillary gland to isoprenaline stimulation. The mechanisms underlying this change are not yet understood, for it is paradoxical that atrophy of a structural component rich in specific protein growth factors can alter the format of isoprenaline-induced hyperplasia in acinar cells that produce secretory glycoproteins.     

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.     

Demonstration and partial characterization of cytosol receptors for testosterone.

Androgen uptake was investigated in several peripheral organs after administration of (1,2,6,7 minus -3H)testosterone to castrated male rats. The animals were killed after 30 min, the organs were taken out, and the radioactivity was determined after tissue combustion. A relatively high accumulation of androgen was found in pancreas, adrenals, spleen, thigh muscle, kidneys, and liver in addition to the classical androgen target organs coagulation glands, seminal vesicles, prostate, preputial glands, and harderian glands. In a second serier of experiments, nuclear and cytosol fractions were prepared from prostate, seminal vesicles, coagulation glands, preputial glands, spleen, submaxillary glands, kidneys, and pancreas from castrated male rats give (1,2,6,7 minus -3H)testosterone, and these fractions were then characterized by thin-layer and radio-gas chromatography with respect to their patterns of labeled steroids. Only prostate and seminal vesicles were found to contain significant amounts of nuclear 5alpha-(-3H)dihydrotestosterone. The major nuclear androgen was (-3H)testosterone that was the only detectable labeled steroid in coagulation glands, preputial glands, and spleen and that constituted 70% or more of the nuclear radioactivity in seminal vesicles, submaxillary glands, kidneys, and pancreas. These results indicate that testosterone itself may be the predominant active androgen principle in vivo in most androgen target organs and that conversion to 5alpha-dihydrotestosterone is generally not a prerequisite for androgen activity. Using an ultrasensitive micromodification of isoelectric focusing (cf. M. Katsumata and A. S. Goldman (1974), Biochem. Biophys. Acta 359, 112. It was possible to show that cytosol from kidney; submaxillary gland, thigh muscle, and levator ani muscle and nuclei from kidney and submaxillary gland contained androgen-binding proteins with pI's in the region 4.6-5.1 ("4.6 minus 5.1 Complex"). This complex also formed in vitro after incubation of (1,2,6,7 minus -3H)testosterone with cytosol from kidney and submaxillary gland. (1,2,6,7 minus -3H)Testosterone was bound with high affinity to receptor proteins in cytosol from both kidney, submaxillary gland, and thigh muscle with dissociation constants of 5.0 x 10 minus -12 M (kidney), 3.3 x 10 mi;nus -11 M and 4.1 x 10 minus -10 M (two types of binding sites, submaxillary gland), 2.4 x 10 minus -12 M (thigh muscle) and 1.9 x 10 minus -12 M (levator ani muscle). The number of binding sites was in all cases between 1 and 20 fmol/mg of protein. On the basis of these results the hypothesis is presented that a common class of testosterone receptors is present in most organs and that these receptors can be detected both in vivo and in vitro provided methods sensitive enough are utilized.     

The androgenic effect on the fine structure of the harderian gland in the male hamster

Summary A sexual dimorphism of the hamster Harderian gland at the ultrastructural level has been reported. The effect of testosterone on the fine structure of the gland from castrated male golden hamsters is reported here. Harderian glands from the following three groups of animals were examined at regular intervals up to 60 days after castration: (1) castrated; (2) castratedsham-injected, receiving 0.1 ml sesame oil per day; (3) castrated-testosterone injected, receiving 2mg testosterone propionate in 0.1 ml sesame oil per day. In groups 1 and 2, clusters of cylindrical tubules, typical of the male gland, decreased in number and disappeared almost completely 2 weeks after castration. Membranous structures, typical of the female gland, prevailed in these two groups throughout the remaining period of experiment. On the other hand, these changes were prevented in the group of castrated animals maintained on testosterone propionate. It is concluded that castration modified the ultrastructure of the male hamster Harderian gland toward the female type and that daily administration of testosterone propionate prevented this change.     

Factors regulating development of an embryonic mouse sympathetic ganglion.

Embryonic development of the mouse superior cervical ganglion (SCG) is defined in vivo and in vitro using morphologic, morphometric, and biochemical approaches. Catecholamine fluorescence was present in the SCG on Day 14 of gestation and underwent characteristic changes in distribution among neurons between this time and adulthood. During prenatal ontogeny, choline acetyltransferase (ChAc) activity increased 2-fold, while tyrosine hydroxylase (T-OH) activity rose 30-fold and total protein increased 4-fold. Ganglionic explants from 14-day embryos extended neurites and exhibited specific biochemical development in medium without added nerve growth factor (NGF). However, the addition of NGF further stimulated neuronal development: Ganglia exhibited significant increases in ChAc and T-OH activities and in total protein compared to controls grown in medium without added NGF. The presence of target submandibular gland radically altered development of T-OH activity in cultured sympathetic ganglia. By 5 days in culture, ganglia grown with target tissue, even in the presence of anti-NGF, exhibited a 10- to 15-fold increase in T-OH activity compared to zero-time controls, and a 2-fold increase over ganglia grown alone or with nontarget tissue. Ganglia grown with target salivary glands showed a correspondingly greater elaboration and directionality of nerve fiber outgrowth, even in the presence of anti-NGF.     

Retrograde Transport of Endogenous Nerve Growth Factor in Superior Cervical Ganglion of Adult Rats

The concentration of naturally synthesized nerve growth factor (NGF) was measured in various tissues of adult rats, using a highly sensitive two-site enzyme immunoassay. The highest concentration was found in the superior cervical sympathetic ganglion (SCG). Transection of the postganglionic external carotid nerve (ECN) reduced the ganglionic level of NGF more than did section of the internal carotid nerve (ICN). When both the preganglionic nerve and the ECN were cut, the ganglionic NGF level decreased even more. On the other hand, when the preganglionic nerve and the ICN were both sectioned, leaving the ECN intact, endogenous NGF content in the SCG was significantly enhanced 3-9 h after operation. Bilateral extirpation of submaxillary gland produced a rapid decrease in ganglionic NGF 3-6 h after operation, and even unilateral removal of one salivary gland caused a decrease in both ganglia, which was however much greater in the ipsi- than in the contralateral ganglion. Removal of the eyeballs caused a much smaller reduction in ganglionic NGF than did removal of the glands. These results suggest that the endogenous NGF that accumulates in the SCG is mostly synthesized in the submaxillary gland rather than in the iris, and that it is transported to the SCG, mostly via the ipsilateral ECN.     

Immunocytochemical demonstration of nerve growth factor and histofluorescence of catecholaminergic nerves in the salivary glands of diabetic mice

Summary Nerve growth factor (NGF) was localized in the submandibular, sublingual, and parotid salivary glands of male and female diabetic mice and their normal littermates by immunoperoxidase staining usingp-phenylenediamine-pyrocatechol as a chromogen for the cytochemical demonstration of peroxidase activity. In the normal male submandibular gland, immunoreactive NGF was localized in the apical regions of granular, intercalated and collecting duct cells, while in the normal female submandibular gland, NGF was present throughout the cytoplasm of granular duct cells. The localization of NGF in the diabetic male and female submandibular glands was similar and resembled that of the normal female. NGF immunoreactivity was also observed in the striated duct cells in the sublingual and parotid glands of all four types of mice.The sympathetic innervation of the submandibular glands of normal and diabetic mice was demonstrated using glyoxylic acid-induced histofluorescence. The pattern of sympathetic innervation and the intensity of catecholamine fluorescence was consistently different in the four types of mice. In the normal male submandibular gland the fluorescence was very intense, particularly in nerves adjacent to the granular ducts. In the normal female submandibular gland, the fluorescence was weak, while in the diabetic male and female the fluorescence was moderate.The correlation between the intensity of the immunocytochemical staining for NGF and the catecholamine fluorescence adjacent to the granular ducts suggests a trophic influence of the NGF-containing granular ducts on their sympathetic innervation.     

Relationship between polyamine contents and protease activity in the rat submaxillary gland

The effect of polyamines on the protease activity in the submaxillary gland of castrated rats has been investigated in vivo. The protease activity, which is increased by testosterone, is also increased to a lesser degree by the subcutaneous administration of spermidine. The administration of putrescine was less effective than that of spermidine. The increase of polyamine contents in the submaxillary gland of the castrated rats administered either testosterone or spermidine was nearly parallel to the increase of the enzymatic activity. The administration of methylglyoxal bis(guanylhydrazone), a potent inhibitor of spermidine synthesis, with testosterone inhibited slightly the increase of the protease activity by testosterone, while the administration of the inhibitor with spermidine had essentially no effect on the increase of the enzymatic activity by spermidine. The administration of testosterone also caused a slight increase of $\text{S-}\text{adenosyl-}\text{L}\text{-menthionine}$ decarboxylase activity. These results suggest that spermidine synthesis may be necessary for the stimulation by testosterone of protease synthesis in the rat submaxillary gland.