ISOLATION OF RAT PITUITARY GRANULES AND THE STUDY OF THEIR BIOCHEMICAL PROPERTIES AND HORMONAL ACTIVITIES

A simple and rapid method is described for the isolation of the acidophilic and basophilic granules from the anterior pituitary gland of the rat. The method involves chromatography of pituitary particulates on columns of No. 545 Celite equilibrated and developed with 0.25 M sucrose. Mitochondria are retained quantitatively on the column. The granules and microsomes which are not retained on the Celite are further fractionated on a discontinuous density sucrose gradient and by differential centrifugation. Essentially homogeneous populations of acidophilic and basophilic granules were obtained as indicated by 1) extensive electron microscopic studies, 2) enzymatic determinations, and 3) fatty acid and RNA analyses on the granule pellets. Microfiltration studies indicated that the acidophilic granules were smaller than 450 mµ, but greater than 300 mµ in diameter. They were found, unlike the basophilic granules, to be partially stable to extraction with water, but were unstable on incubation in 1 mM EDTA at 37°. Magnesium ions were not detected in the granules. The acidophilic and basophilic granules contained, respectively, 5 and 8 per cent of the protein present in the whole homogenate. Extensive hormone studies showed that growth and lactogenic hormones were associated with the acidophilic granules, while thyroid-stimulating hormone and gonadotropin were associated with the basophilic granules. ACTH was not present in significant amounts in either of the granule fractions, but was localized in a particulate fraction which contained microsomes and small granules. The association of the pituitary hormones with specific granules and cell types is discussed.     

Subcellular organization of neurophysins, oxytocin, [8-lysine]-vasopressin and adenosine triphosphatase in porcine posterior pituitary lobes

Posterior pituitary lobes from young pigs were fractionated by differential and sucrose-density-gradient centrifugation. The distributions of oxytocin and [8-lysine]-vasopressin were measured by bioassay and the distributions of neurophysin-I and -II by radioimmunoassays specific for each of these two proteins. Most of the hormone and neurophysin applied to the density gradient was localized in particles with the density expected of neurosecretory granules. However, the neurosecretory granules were separated into two bands (D and E). A close statistical correlation between the distributions of [8-lysine]-vasopressin and neurophysin-I, and of oxytocin and neurophysin-II on the gradients, suggested that in vivo porcine neurophysin-I binds [8-lysine]-vasopressin within one population of granules and porcine neurophysin-II binds oxytocin within another type of granule. However, there was no significant separation of oxytocin and vasopressin in fractions D and E. The molar ratios of hormones and neurophysins indicated that there was insufficient of either neurophysin to bind the [8-lysine]-vasopressin in the granule fractions or in the whole gland. Polyacrylamide-gel electrophoresis showed that only bands corresponding in mobility to porcine neurophysins-I, -II and -III were present in large amounts in the whole gland and in the granule fractions. The component with the mobility of neurophysin-III was, however, relatively enriched in whole young glands and granule fractions compared with adult gland extracts. It is suggested that the vasopressin that cannot be assigned to neurophysin-I may occur in (a) vesicles containing vasopressin but no neurophysin, (b) vesicles containing vasopressin and a protein that cannot be quantified by the radioimmunoassays used, such as porcine neurophysin-III, or (c) normal vasopressin–neurophysin granules which have accumulated extra vasopressin. Band E of the gradient was rich in adenosine triphosphatase activity, whereas band D possessed very little of this enzyme.     

Maturation-related changes in mass and elemental contents of secretory granules as measured by electron-microprobe

Summary The relationship between granule density, protein content, and Ca and S contents were studied in two secretory granule fractions, from parotid glands of the rat, previously shown to constitute different stages in granule maturation. The density of the lighter fraction was between 1.133 and 1.142 g/ml, while that of the heavier fraction was greater than 1.142 g/ml. The mean protein content of the denser granules was 12% greater than that of the lighter granules (P<0.03), while the dry-mass elemental concentrations in the two granule fractions were unchanged. These results indicate that protein is added to granules during the maturation process (presumably by vesicular traffic), and that the resulting increase in granule density is not driven simply by decrease in water content and/or increased concentrations of inorganic Ca or S in the granules. The elemental concentration values also indicate that the diffusible elements permeate the granule membrane during the fractionation procedures.     

Biochemical evidence that human placental lactogen and human chorionic gonadotropin are not stored in cytoplasmic secretion granules

The intracellular storage sites for the human placental hormones placental lactogen (hPL) and chorionic gonadotropin (hCG) are unknown. To determine whether hPL and hCG are stored in cytoplasmic secretion granules, we have compared the localization of hPL and hCG in placental homogenates following differential and density-gradient centrifugations to those of prolactin (PRL) and luteinizing hormone (LH) in human and rat pituitary homogenates. In the differential centrifugation studies, 93.1 +/- 4.1% (mean +/- SE) of the hPL and 79.4 +/- 6.0% of the hCG were detected in the postmicrosomal supernatant of placental homogenates. In contrast, 95-98% of the hPRL and hLH in the pituitary homogenates were detected in particulate fractions. Following centrifugation on sucrose-density gradients, particulate hPL and hCG were distributed diffusely throughout the gradients, while greater than 90% of the pituitary hormones sedimented as single peaks with densities of 1.22 g/cm3. When human placental and rat pituitary tissues were homogenized together prior to differential and density-gradient centrifugations, similar marked differences were observed between the distribution of the placental and pituitary hormones. These results strongly suggest that the placental hormones hPL and hCG, unlike pituitary PRL and LH, are not stored in large secretory granules. Differences in the intracellular storage sites of the hormones may explain, in part, differences in the regulation of peptide hormone secretion by placental and pituitary tissues.     

Ultrastructural and immunocytochemical changes of prolactin cells of grafted pituitary after the injection of dopamine in the albino rat

Anterior pituitary glands were homografted into the anterior chamber of the eye in female rats. The pituitary grafts survived and were well vascularized three weeks after the transplantation. The prolactin cells were morphologically active as shown by their well-developed Golgi complexes and granular endoplasmic reticulum and the exocytosis of secretory granules. The injection of dopamine into the common carotid artery of the graft-bearing rat rapidly suppressed the granule extrusion and then gradually induced a remarkable morphological atrophy in the prolactin cells.     

Molecular organization of prolactin granules. II. Characterization of glycosaminoglycans and glycoproteins of the bovine prolactin matrix

Prolactin (PRL) granules can be isolated from the anterior pituitary gland of adult cows in nearly 50% yield by use of a procedure previously developed for the fractionation of the rat pituitary. Treatment of the isolated bovine granules with 0.2% Lubrol PX results in the solubilization of most membranes present in the fractin but has only a limited effect on the matrices, which remain aggregated and can be recovered and purified by gradient centrifugation. These membraneless PRL granules, studied in detail by morphological and biochemical techniques, were found to contain only small amounts of contaminants (primarily growth hormone granules and small membrane fragments). SDS polyacrylamide gel electrophoresis revealed that, in comparison with other fractions isolated from the bovine pituitary, the membraneless granules have a simpler polypeptide composition including PRL (approximately 85%), growth hormone (approximately 8%), as well as approximately 13 minor bands with apparent mol wt ranging from 80,000 go 45,000. Many of these minor bands are accounted for by glycoproteins, as revealed by their binding of 125I-concanavalin A, and two of these are also stained blue by the stains-all procedure, a reaction specific for acidic glycoconjugates. Chemical analyses of the membraneless granule fractin revealed the presence of a heterogeneous mixture of complex carbohydrates. Among glycosaminoglycans, the major component is heparan sulfate, while hyaluronic acid and chondroitin sulfate ar present in smaller amounts. Moreover, some of the glycoproteins are sulfated and account for over 50% of the nondialyzable 35S radioactivity found in the fraction isolated from labeled slices. Although the concentration of glycosaminoglycans and glycoproteins is relatively low in membraneless granules, the possibility that their presence in the fraction is largely due to cross- contamination and/or artifactual adsorption could be excluded on two grounds. These are: (a) electron microscope radiautography of preparations obtained from [35S]sulfate- and D-[6-3H]glucosamine- labeled slices showed a significant labeling of PRL granules in both intact cells and membraneless granule pellets, and (b) a mixing experiment showed that membraneless granules contain very little macromolecular sulfate radiactivity adsorbed from the soluble glycoconjugates present in the pituitary homogenate.     

The isolation of neurophysin-I and -II from bovine pituitary neurosecretory granules separated on a large scale from other subcellular organelles. Demonstration of slow equilibration of neurosecretory granules during centrifugation in a sucrose density gradient

1. An improved procedure for the isolation of neurosecretory granules from the posterior lobe of the bovine pituitary gland is described. 2. Of the total oxytocic and pressor activities present in the original tissue 80% was sedimentable. 3. The granules were separated from mitochondria by prolonged centrifugation in a sucrose density gradient. During a sedimentation period of 5hr. the granules moved progressively into denser regions of the gradient and the mitochondria remained at the top. 4. The biological activities of the granules were measured: the oxytocic activity was 11·56±1·63 and the pressor activity was 15·60±3·91 units/mg. of protein. 5. A protein was isolated from a lysate of granules prepared from 40 pituitary glands. Amino acid analysis showed that it consisted of a mixture of neurophysin-I and neurophysin-II in equal proportions. It accounted for 60% of the soluble granule protein and for 50% of the total granule protein. 6. The neurophysins present in the granules are associated with 19·1 units of oxytocic and 21·1 units of pressor activity/mg. of protein. 7. Starch-gel electrophoresis revealed the presence of both neurophysins in extracts of 15 pituitary glands studied individually. 8. We conclude that the polypeptide hormones, oxytocin and [8-arginine]-vasopressin, are normally closely associated with the two neurophysins within neurosecretory granules of the pituitary gland.     

A small-scale method for the isolation of insulin-containing secretory granules from islets of Langerhans

A method has been developed which uses small-scale (400 microliter) Percoll gradients and an inexpensive bench-top microcentrifuge for the rapid isolation of insulin-containing secretory granules from islets of Langerhans available from a single rat pancreas. Granule fractions were prepared from homogenates of isolated rat islets by a differential centrifugation step (10 min) to produce a granule-enriched membrane pellet, followed by a further centrifugation (10 min) on a discontinuous Percoll gradient to produce a granule fraction. Measurement of membrane-marker enzyme activities suggested that the yield and purity of granule fractions prepared by this method were comparable to those reported for other methods involving longer centrifugation times in ultracentrifuges. Further purification of the granule fractions by removing lysosomal contamination was achieved by an additional centrifugation (10 min) on another small-scale gradient of higher Percoll concentration. The method proved useful for isolating biosynthetically labeled secretory granule membranes and contents from islets of Langerhans which had been cultured in the presence of 35S-labeled amino acids. The speed and simplicity of this method suggest that it will prove useful in studies requiring the rapid isolation of insulin-containing secretory granules from isolated islets.     

3-Methylcholanthrene elicits DNA adduct formation in the CYP1A1 promoter region and attenuates reporter gene expression in rat H4IIE cells

Since it was reported that components of immature secretory granules (ISGs) are different from those of mature secretory granules (MSGs) in rat parotid acinar cells, we have been considering that components of secretory granules (SGs) change dynamically during granule maturation. As the first step to understand the mechanism of granule maturation, we separated low-density detergent-resistant membrane fractions (DRMs) from purified SGs of rat parotid gland. When SGs were lysed by the detergent Brij-58, syntaxin6 and VAMP4 were found in DRMs that were different from the GM1a-rich DRMs containing VAMP2. Because syntaxin6 and VAMP4 are known to be related to granule formation, we attempted to separate DRMs from ISGs. To enrich for ISGs, glands were removed from rats 5h after intraperitoneal injection of isoproterenol and used to purify the newly synthesized granules. Compared to mature granules prepared without injection, these newly formed granules were lower in density and contained higher concentrations of syntaxin6, VAMP4, and gamma-adaptin. This composition is consistent with the characterizations of ISGs. DRMs isolated from the newly formed granules were GM1a-rich and contained syntaxin6, VAMP4, and VAMP2 together. Thus, our findings suggest that syntaxin6 and VAMP4 associate with a GM1a-rich membrane microdomain during granule formation but enter a separate membrane microdomain before transport from granules during maturation.     

Human beta-adrenergic receptors. Simultaneous purification of beta 1- and beta 2-adrenergic-receptor peptides.

Monoclonal antibodies to insulin secretory granule membranes were obtained following immunization of mice with granule membranes purified from a rat transplantable insulinoma. The specificities of the antibodies were investigated by using binding assays with different insulinoma subcellular fractions, by indirect immunofluorescence studies with intact and permeabilized cells, and by immunoblotting of granule membrane proteins fractionated by SDS/polyacrylamide-gel electrophoresis. Fifty-six antibodies were characterized initially, and 21 representative cell lines were cloned. The antibodies fell into four categories: (1) binding preferentially to secretory granules, and reacting with a component of approx. 80,000 Da on immunoblots (antigen designated SGM 80); (2) binding preferentially to secretory granules, and reacting with components of approx. 110,000 and 50,000 Da on immunoblots (antigen designated SGM 110); (3) binding preferentially to secretory granules but unreactive on immunoblots; (4) binding to membrane antigen(s) with a widespread intracellular distribution which included granules and plasma membranes. The antigens SGM 80 and SGM 110 were studied in more detail and both were shown to be integral membrane glycoproteins with antigenic determinants located on the internal face of the secretory granule membrane. These antigens were also present in normal rat islets of Langerhans and similar components were detected by immunoblotting in secretory granules from anterior pituitary and adrenal medulla. Proteins which were immunologically related to SGM 80 and SGM 110, but distinct in molecular size, were also identified in liver. It is concluded that secretory granules contain specific components which are restricted in subcellular location but widespread in tissue distribution. The antibodies obtained will be valuable reagents in the further investigation of the biogenesis and turnover of insulin secretory granules.     

Regulation of secretory granule formation in chronically hypersecretory melanotrophs in the rat pituitary

The formation of secretory granules in chronically hypersecretory melanotrophs in the rat pituitary was studied. Hypersecretion was induced by treatment with the dopamine antagonist haloperidol (1.5 mg/kg daily for 7 days), which releases the normal neural dopaminergic inhibition of secretion from the melanotroph. Morphometric analysis showed a 100% increase in the volume fraction of granular endoplasmic reticulum after haloperidol treatment, while the volume fractions of electron-dense granules, electron-lucent granules and the Golgi apparatus were unaltered. The mean diameter of the mature secretory granules was increased by 10%, indicating a 30% increase in mean granule volume. A similar increase in diameter was observed in condensing granules within the Golgi area. With earlier results on the effect of chronic inhibition the study shows that a main adaptive response of the melanotroph to altered secretory conditions is a change in the volume of the secretory granules, regulated by a mechanism that operates at an early stage of granule formation.     

Membrane-associated peptidylglycine alpha-amidating monooxygenase in the heart

Recent investigations have shown that the heart atrium is an endocrine tissue. In the present studies, high levels of peptidylglycine alpha-amidating monooxygenase (PAM), which catalyzes the formation of bioactive alpha-amidated peptides from their glycine-extended precursors, have been found in particulate fractions from bovine and rat heart atrium; only low levels of PAM activity were present in soluble fractions. Corresponding fractions from the ventricles contained 20-fold less activity. Immunocytochemical studies demonstrated that PAM was localized primarily to atrial cardiocytes, with a distribution resembling that of atriopeptin. Following differential centrifugation of rat atrial homogenates, most of the PAM activity was associated with crude granule fractions, with lesser amounts of activity associated with crude microsomal fractions. Upon further subcellular fractionation, PAM activity in the rat atrium was found primarily with immunoactive atriopeptin in fractions enriched in secretory granules. Following sodium dodecyl sulfate-polyacrylamide gel electrophoresis, antisera to purified bovine pituitary PAM identified a 113,000-dalton protein in bovine atrial microsomes and secretory granules; the protein predicted from the sequence of the cDNA encoding bovine pituitary PAM is of similar size (Eipper, B. A., Park, L. P., Dickerson, I. M., Keutmann, H. T., Thiele, E. A., Rodriguez, H., Schofield, P. R., and Mains, R. E. (1987) Mol. Endocrinol. 1, 777-790). Northern blot analysis using cDNA probes encoding bovine pituitary PAM demonstrated higher levels of PAM mRNA in heart atrium than in anterior pituitary. Rat heart contains PAM mRNA species of 3.6 and 3.8 kilobases, the smaller mRNA species corresponding in size to the PAM mRNA expressed in rat anterior pituitary.     

In cow anterior pituitary, growth hormone and prolactin can be packed in separate granules of the same cell

The ultrastructural localization of growth hormone and prolactin in cow anterior pituitary was studied by double immunocytochemical labeling using specific antibodies and protein A-gold particles of different sizes. The two hormones were found in specific somatotrophs and mammotrophs as well as in somatomammotropic cells which were multinucleated and predominantly arranged in clusters in the central area of the lobules. In these mixed cells the two hormones were packaged (a) in different granules of the same cell, (b) in the same granules where they were segregated in different portions of the granule content, or (c) in the same granules but evenly intermixed. The relative proportion of these three types of granules varied in somatomammotrophs of different animals. A single large Golgi complex was generally present in somatomammotrophs. Small, immature granules containing either growth hormone or prolactin or both hormones were found randomly distributed along Golgi stacks. This suggests that in these cells the two hormones are processed in the same Golgi cisternae and that mechanism(s) exist(s) to sort out the two hormones from each other.     

Co-localization of secretogranins/chromogranins with thyrotropin and luteinizing hormone in secretory granules of cow anterior pituitary

We investigated the co-localization in secretory granules of secretogranins/chromogranins, thyrotropin, and luteinizing hormone in ultra-thin frozen sections of cow anterior pituitary by double immunoelectron microscopy, using specific antibodies and protein A-gold particles of different sizes. The distribution of secretogranin II, chromogranin A, and chromogranin B (secretogranin I) was largely similar. In cells containing secretory granules of relatively small size (100-300 nm) and low electron density (identified as thyrotrophs and gonadotrophs by immunolabeling for the respective hormone) and in cells containing both small (170-250 nm) and large (300-500 nm) secretory granules of low electron density (also identified as gonadotrophs), all three secretogranins/chromogranins were detected in most if not all granules, being co-localized with the hormone. In cells containing both relatively large (400-550 nm), electron-dense granules and small, less electron-dense secretory granules (150-300 nm), identified as somatomammotrophs by double immunolabeling for growth hormone and prolactin, all three secretogranins/chromogranins were predominantly detected in the subpopulation of small, less electron-dense granules containing neither growth hormone nor prolactin. Interestingly, this granule subpopulation of somatomammotrophs was also immunoreactive for thyrotropin and luteinizing hormone. These data show that somatomammotrophs of cow anterior pituitary are highly multihormonal, in that the same cell can produce and store in secretory granules up to four different hormones and, in addition, the three secretogranins/chromogranins. Moreover, selective localization of the secretogranins/chromogranins together with thyrotropin and luteinizing hormone in a subpopulation of secretory granules of somatomammotrophs indicates the preferential co-packaging of the secretogranins/chromogranins and these hormones during secretory granule formation.     

Morphological characterisation of lactotrophs separated from the bovine pituitary by a rapid enrichment technique

Summary The morphological characteristics of bovine pituitary cells separated by a rapid enrichment procedure are described. Single-cell suspensions were prepared from pituitary glands of steers by use of a collagenase technique and separated by discontinuous gradient centrifugation. The separation of prolactin and growth hormone-containing cells was assessed by radioimmunoassay of hormone content and immunocytochemistry, and the distribution of fibroblasts assessed after establishing cell cultures. Morphometric analysis of the fine structure of two fractions respectively enriched and depleted in the proportion of immunocytochemically-identified lactotrophs was performed after labelling with anti-prolactin antiserum coupled to immunogold complex. Cells recovered from the higher-density fraction were more highly granulated, suggesting that this was a major characteristic determining separation. Cells labelled for prolactin could not be distinguished from unlabelled cells on the basis of their granule size range, but unlabelled cells had a significantly greater coefficient of variation. These data suggest that granule density and distribution, but not granule size per se, are useful characteristics for the identification of bovine lactotrophs.     

Intragranular processing of pro-opiomelanocortin in the intermediate cells of the rat pituitary glands. A quantitative immunocytochemical approach

Quantitative immunocytochemical studies were done by using the immunogold technique on sections of the intermediate lobe of rat pituitary. Antibodies raised (in rabbits) against the precursor proteins pro-opiomelanocortin (POMC) and ACTH were used. The results clearly indicate that the immature granules are the major site of POMC, as their antigenic density (gold beads/micron2) was almost 3 times as high as that of ACTH. In the mature granules, the antigenic density of ACTH was increased by 2.7-fold compared with the immature granules. Using a computer-assisted method, it was possible to categorize the granules' antigenic density according to their size. Using this approach it was found that the antigenic density of POMC remained constant in all mature granules of varied sizes, whereas the antigenic density of ACTH decreased with increasing granule size. The relationship between granule size, degree of maturation, and antigenic density is discussed.     

Ultrastructural aspects of the effect of calcium ionophore A23187 on incubated anterior pituitary cells of rats

In order to study the fine structural effect of calcium influx on secretory activity of rat anterior pituitary cells, small pieces of anterior pituitary were incubated in Krebs' medium containing the calcium ionophore A23187 (0.15 mM) and were examined electron microscopically. Marked changes were present in all types of secretory cells incubated for 3, 12 and 20 min in the medium containing calcium and A23187. Secretory granules tended to accumulate in the peripheral cytoplasm of the secretory cells, and more numerous images of granule release by exocytosis were observed in somatotroph (STH cell), luteotroph (LTH cell), thyrotroph (TSH cell), corticotroph (ACTH cell), type 1 gonadotroph (Type 1 GTH cell), and type 2 gonadotroph (Type 2 GTH cell). In addition to the increase in the number of exocytosis of single granules, the simultaneous extrusion of multiple granules, "multigranular exocytosis", was often observed in all kinds of secretory cells, especially the ACTH-cells. Large numbers of granule cores were often located in large vacuole-like or channel-like structures, irregular in shape and size, which were open to the intercellular or pericapillary space. Some parts of the membrane of the vacuole-like or channel-like structures were coated. These observations are interpreted to suggest that the calcium influx stimulates the extrusion of the secretory granules by single or multigranular exocytosis.     

Distribution of growth hormone and prolactin in secretory granules of the normal and neoplastic human adenohypophysis

Growth hormone [GH] and prolactin [PRL] can be demonstrated simultaneously in electron micrographs by means of the double immunocytochemical labeling technique using colloidal gold particles of two different sizes. This method was used to study biopsy specimens obtained from 15 patients suffering from acromegaly, 11 patients suffering from prolactinomas, and eight biopsy specimens obtained during adenomectomy from the normal, paraadenomatous pituitary tissue. Four granule populations with different immunoreactions were found: (1) granules containing GH only, (2) granules containing PRL only, (3) mixed granules containing GH and PRL, and (4) granules displaying no immunoreactivity. The existence of mixed granules indicated that the two hormones are synthesized by the same cell and in communicating compartments of the cells; i.e., the rough-surfaced endoplasmic reticulum. The number of GH-containing granules (pure GH granules and mixed GH-PRL granules) was greater than that of PRL-containing granules (pure PRL granules and mixed PRL-GH granules) in adenomas causing acromegaly and in the normal pituitary tissue, whereas the opposite was true for prolactinomas. The number of PRL-containing granules was larger in biopsy specimens from patients who had acromegaly and hyperprolactinemia than in patients with acromegaly and normal serum PRL levels.     

Purification and Characterization of a Membrane-Bound Enkephalin-Forming Carboxypeptidase, "Enkephalin Convertase"

Enkephalin convertase, the enkephalin-synthesizing carboxypeptidase B-like enzyme, has been purified to apparent homogeneity from bovine pituitary and adrenal chromaffin granule membranes. The membrane-bound enkephalin convertase can be solubilized in high yield with 0.5% Triton X-100 in the presence of 1 M NaCl. Extensive purification is achieved by affinity chromatography with p-aminobenzoyl-L-arginine linked to Sepharose 6B. Enzyme purified from both pituitary and adrenal chromaffin granule membranes shows a single band by sodium dodecyl sulfate polyacrylamide gel electrophoresis with an apparent molecular weight of 52,500, whereas enkephalin convertase purified from soluble extracts of these tissues has an apparent molecular weight of 50,000. The regional distribution of the membrane-bound enzyme in the rat brain differs from that of the soluble enzyme. While the soluble enzyme shows 10-fold variations, resembling somewhat the enkephalin peptides, membrane-bound enkephalin convertase is more homogeneously distributed throughout the brain. In rat pituitary glands, membrane-bound enzyme activity is similar in the anterior and posterior lobes, whereas the soluble enzyme is enriched in the anterior lobe. Membrane-bound and soluble forms of enkephalin convertase isolated from either bovine pituitary glands or adrenal chromaffin granules show identical substrate and inhibitor specificities. As with the soluble enzyme, membrane-bound enkephalin convertase hydrolyzes [Met]- and [Leu]enkephalin-Arg6 and -Lys6 to enkephalin, with no further degradation of the pentapeptide.     

Protein kinase C and an endogenous substrate associated with adenohypophyseal secretory granules.

Secretory granules isolated from anterior pituitary glands were examined for Ca2+/phospholipid-dependent protein kinase (protein kinase C) activity as well as the occurrence of granule-associated substrate proteins. Sheep adenohypophyses were fractionated by differential and sucrose-density-gradient centrifugation to yield a granule fraction enriched for luteinizing-hormone (lutropin)-containing secretory granules. Marker-enzyme analysis showed no detectable cytosolic contamination, although there were small amounts of plasma membranes (2-4%) and lysosomes (4-6%) associated with the preparation. As determined by histone-H1 phosphorylation after DEAE-cellulose DE-52 chromatography, protein kinase C activity with a marked dependence on Ca2+ and lipid (4-fold increase in their presence) was evident in the secretory-granule fraction. Phosphorylation in vitro of the secretory-granule fraction by endogenous and exogenous protein kinase C revealed a protein of Mr 36,000, which by two-dimensional SDS/polyacrylamide-gel electrophoresis showed multiple sites of phosphorylation. The Mr-36,000 protein was not found in cytosolic or plasma-membrane fractions and was not phosphorylated by the catalytic subunit of cyclic AMP-dependent protein kinase. Several secretory-granule proteins served as substrates for the catalytic subunit, the most prominent of which were of Mr 63,000, 23,000 and 21,000. From these data, we suggest that phosphorylation of secretory-granule-associated proteins by protein kinase C and by cyclic AMP-dependent protein kinase may be important in secretion regulation in the anterior pituitary gland.