Chromaffin granule and PC12 cell chondroitin sulfate proteoglycans and their relation to chromogranin A.

Two major proteoglycans, which appear to be structurally closely related, were isolated from bovine chromaffin granule matrix proteins by ion-exchange chromatography. On sodium dodecyl sulfate-polyacrylamide gel electrophoresis they have apparent average molecular sizes of 35-40 kDa (range of 23-75 kDa) and generate a 14-kDa core glycoprotein after chondroitinase treatment. Previous studies demonstrated that these two major chromaffin granule proteoglycans are very similar in terms of their peptide mapping patterns and carbohydrate composition (having a high proportion of tri- and tetraantennary N-glycosidic oligosaccharides, and O-glycosidic oligosaccharides consisting predominantly of disialyl derivatives of galactosyl(beta 1-3)N-acetylgalactosamine), and that they differed in these respects from the chromogranins. By using antisera to five synthetic peptide fragments of chromogranin A to stain immunoblots of purified chromaffin granule proteoglycans before and after chondroitinase treatment, we have now shown that these major proteoglycans are not immunochemically related to chromogranin A. However, it has recently been reported that some chromogranin A-immunoreactive material disappears after chondroitinase treatment, and our studies demonstrate that approximately 1-2% of the chromogranin A occurs in the form of a 110-kDa proteoglycan, which is converted to a 95-kDa core glycoprotein after chondroitinase treatment. Similar chromogranin A proteoglycans could be detected in rat PC12 pheochromocytoma cells, where they have a molecular size of 115-145 kDa and yield a 105-kDa core protein after chondroitinase treatment. Studies using antibodies to synthetic peptide fragments of chromogranin B (secretogranin I) did not provide any evidence that this related protein occurs in a proteoglycan form.

Identification and characterization of glycoproteins after extraction of bovine chromaffin-granule membranes with lithium di-iodosalicylate. Purification of glycoprotein II from the soluble fraction.

Chromaffin-granule membranes were separated into insoluble and soluble fractions after extraction with lithium di-iodosalicylate (LDIS). These fractions were characterized by one- and two-dimensional gel electrophoresis, and glycoproteins were detected after electroblotting with peroxidase-labelled concanavalin A and wheat-germ agglutinin (WGA). The LDIS-insoluble fraction contained components identified as glycoproteins III, H, J and K (carboxypeptidase H). Microsequence analysis indicated that component J is an N-terminally extended form of glycoprotein K. A major glycoprotein, GpII (Mr 80,000-100,000), present in the LDIS-soluble fraction was purified by affinity chromatography on WGA-Sepharose. This was characterized by one- and two-dimensional gel electrophoresis with Coomassie Blue staining, by amino acid analysis and automated N-terminal sequence analysis. Extraction of chromaffin-granule membranes with LDIS is a simple and rapid procedure that facilitates studies concerned with the structure and function of membrane glycoproteins from these and other secretory granules.

[Immunocytochemical study of enterochromaffin cells in carcinoma of the large intestine].

In a series of 130 cases of adenocarcinoma of the large intestine, enterochromaffin (EC) cells were detected in 54 cases (41.5%) by immunocytochemistry with anti-chromogranin monoclonal antibody. Among the 54 cases, 30 were found positive for serotonin, 14 for somatostatin, 11 for glucagon, 5 for pancreatic polypeptide, and only one for gastrin. The cases with EC cells (++) or polypeptide positive cells exhibited higher grade of differentiation, earlier stage of tumour extension and higher survival rate than those without EC cells. A significant difference of the EC cell population pattern among different histological grades of the tumours and nonneoplastic mucosa was found. The proportion of hormone, especially polypeptide positive cells was the highest in the mucosa and lowest in the moderately poorly differentiated carcinomas. The incidence, methodology and clinicopathological significance of EC cells found in the tumours are discussed.

Chromogranin A: osmotically active fragments and their susceptibility to proteolysis during lysis of the bovine chromaffin granules.

Osmotically active fragments of chromogranin A (Chr A) were studied in lysates from bovine chromaffin granules (CG) disrupted in the presence or absence of inhibitors of endogenous proteolytic activities. The effects of various methods of lysis were examined by micro-osmometry, PAGE-SDS electrophoretic techniques and immunoblots with polyclonal anti-Chr A sera. Osmotically active 'small' Chr A fragments (below 30 kDa) were conspicuous in lysates containing cocktails of leupeptin, pepstatin A, pHMB, PMSF and aprotinin. The osmotically inactive native Chr A in the 68-100 kDa range and the osmotically active fragments below 47 kDa were degraded in lysates at neutral or acid pH in the absence of inhibitors. However, degradation of the native Chr A and intermediates below 47 kDa could be prevented by extraction directly from intact CG, notably in cold or boiling distilled water. On the other hand, the main product after large-scale extraction of CG in 1 M acetic acid (pH 1.9, 100 degrees C) was a novel, osmotically active fragment (22 kDa), immunostaining only for the N-terminal sequence (Chr A1-40). The heat-stable fraction (Mr,n 23 kDa) exhibited concentration-independent colloid osmotic pressures even in the absence of phosphate, a property which may distinguish this N-terminal-containing fragment from the larger intermediates, probably containing the pancreastatin sequence, and other regions at the C-terminal side of the prohormone molecule. The functional roles of these osmotically active intermediates in the processing of Chr A are not yet known.

Early fetal acquisition of the chromaffin and neuronal immunophenotype by human adrenal medullary cells. An immunohistological study using monoclonal antibodies to chromogranin A, synaptophysin, tyrosine hydroxylase, and neuronal cytoskeletal proteins.

The development of chromaffin and neuronal features in the adrenal medulla was studied in normal human fetuses with gestational ages (GAs) of 6-34 weeks. Monoclonal antibodies specific for chromogranin A, synaptophysin, and tyrosine hydroxylase; for different subunits and phosphoisoforms of neurofilament (NF) proteins; and for microtubule-associated proteins were applied. Morphologically, two major cell types could be distinguished, i.e., "large" cells with pale nuclei and ill-defined cytoplasm, which were present from 9 weeks GA on, and clusters of "small," primitive appearing cells, present from 14 weeks GA on. The large cells were immunoreactive for chromogranin A, synaptophysin, tyrosine hydroxylase, and NF proteins, similar to adult chromaffin cells. In contrast, small cells expressed NF proteins and tyrosine hydroxylase, but not chromogranin A or synaptophysin, more resembling ganglion cells in the adult adrenal medulla. At the latest developmental stages large cells were observed in the center of the clusters of "small" cells, which morphologically resembled immature ganglion cells and expressed NF proteins in their perikarya. These observations indicate that chromaffin and ganglion cells establish their immunophenotype early in embryogenesis. They suggest that "large" and "small" cells are progenitors of the chromaffin and the ganglion cells, respectively, of the mature adrenal medulla.

A 15 kDa proteolipid found in mediatophore preparations from Torpedo electric organ presents high sequence homology with the bovine chromaffin granule protonophore.

Upon SDS PAGE of isolated mediatophore, an acetylcholine-translocating protein, a doublet at 15 kDa was identified. Amino acid sequencing after CNBr cleavage gave a 17 residue-long peptide completely homologous with a sequence of the proton-translocating proteolipid from bovine chromaffin granules. A 51-mer oligodeoxynucleotide corresponding to this sequence was used to screen a library of electric lobe cDNAs constructed in lambda Zap II. A positive recombinant clone was isolated and found to encode the complete sequence of a 15.5 kDa protein highly homologous to the bovine chromaffin or yeast vacuolar ATPase proteolipid. In vitro translation of sense RNA transcripts of the clone indeed yielded a single 15 kDa proteolipid. Northern blot analysis showed that the 1.3 kb mRNA encoding this protein is significantly expressed in nervous tissues but not in electric organ or liver of Torpedo marmorata.

Secretin-cells of the mammalian intestine contain serotonin.

Various endocrine cells contain biogenic amines in addition to their peptide hormones. In the digestive tract, one of these amines is serotonin that is regularly present in enterochromaffin (EC-) cells. Previously, it has been assumed that other entero-endocrine cell types also contain this amine. Moreover, it was presumed that chromogranin A, an acidic glycoprotein, is involved in storage mechanisms for biogenic amines in endocrine cells. Using immunohistochemical techniques, we now exemplarily investigated cholecystokinin (CCK-) and secretin (S-) cells of five adult mammalian species for their content of serotonin and of chromogranin A. In all mammalian species, CCK-cells were devoid of serotonin but contained chromogranin A immunoreactivity of varying densities. In contrast, S-cells of all mammals were immunoreactive for serotonin; however, immunoreactivities for this biogenic monoamine were heterogeneous and varied from dense to faint or lacking immunostainings. Likewise, immunoreactivities for chromogranin A in S-cells showed inter-species and inter-cellular heterogeneities. S-cells containing serotonin were simultaneously immunoreactive for chromogranin A and the density of immunoreactivities for both were correlated in given S-cells. Based on mutual relationships of chromogranin A and serotonin immunoreactivities, we assume that chromograinin A is virtually a prerequisite for the S-cells' content of serotonin and that this protein participates in storage mechanisms for biogenic amines in endocrine cells. S-cells have now to be added to the family of amine-storing endocrine cells. Basically, serotonin-storing endocrine cells in the digestive tract cannot be simply regarded as enterochromaffin (EC-) cells any longer; the current nomenclature and classification of entero-endocrine cells should be reviewed in this respect.

Chromaffin cell scinderin, a novel calcium-dependent actin filament-severing protein.

Scinderin, a novel Ca2+-activated actin filament-severing protein, has been purified to homogeneity from bovine adrenal medulla using a combination of several chromatographic procedures. The protein has an apparent mol. wt of 79,600 +/- 450 daltons, three isoforms (pIs 6.0, 6.1 and 6.2) and two Ca2+ binding sites (Kd 5.85 x 10(-7) M, Bmax 0.81 mol Ca2+/mol protein and Kd 2.85 x 10(-6) M, Bmax 1.87 mol Ca2+/mol protein). Scinderin interacts with F-actin in the presence of Ca2+ and produces a decrease in the viscosity of actin gels as a result of F-actin filament severing as demonstrated by electron microscopy. Scinderin is a structurally different protein from chromaffin cell gelsolin, another actin filament-severing protein described. Scinderin and gelsolin have different mol. wts, isoelectric points, amino acid composition and yield different peptide maps after limited proteolytic digestion by either Staphylococcus V8 protease or chymotrypsin. Moreover, scinderin antibodies do not cross-react with gelsolin and gelsolin antibodies fail to recognize scinderin. Immunofluorescence with anti-scinderin demonstrated that this protein is mainly localized in the subplasmalemma region of the chromaffin cell. Immunoblotting tests with the same antibodies indicated that scinderin is also expressed in brain and anterior as well as posterior pituitary. Presence of scinderin and gelsolin, two Ca2+-dependent actin filament-severing proteins in the same tissue, suggests the possibility of synergistic functions by the two proteins in the control of cellular actin filament networks. Alternatively, the actin filament-severing activity of the two proteins might be under the control of different transduction and modulating influences.

Localisation of chromogranin A and B, met-enkephalin-arg6-gly7-leu8 and PGP9.5-like immunoreactivity in the developing and adult rat adrenal medulla and extra-adrenal chromaffin tissue.

The localisation of chromogranins A and B, met-enkephalin-arg6-gly7-leu8 (met-enk 8) and protein gene product 9.5 (PGP 9.5) in the adrenal medulla and extra-adrenal chromaffin tissue has been studied in the developing rat by immunogold-silver staining. In the adult rat adrenal the cytoplasm of all medullary chromaffin cells showed a positive response with chromogranin A and B; in each case occasional groups of cells with a low reactivity that may have been NA cells were seen. Chromogranin A was first detected in adrenal medullary and extra-adrenal chromaffin cells at 18 days of gestation whilst chromogranin B was not detected in animals younger than 7 days. In 15 days old animals the adrenal medullary response to A and B was of the same intensity as that seen in the adult. Less than 1% of adult medullary chromaffin cells were responsive to met-enk 8 staining and medullary cells were unreactive in the fetus, with only extra-adrenal chromaffin tissue responding prenatally. During the first postnatal week immunoreactive cells appeared in the adrenal medulla in considerably greater proportions than in the adult gland. In contrast, positively stained nerve terminals associated with chromaffin cells and abundant in the adult adrenal were not detected during the first week of life. Immunoreactive nerve terminals were first seen early in the second week of life at a time when positive chromaffin cells were becoming less common. PGP 9.5 was located in all chromaffin cells of the adult adrenal and was readily detected in chromaffin cells in the adrenal and in extra-adrenal locations of the earliest stage examined (E16). Our findings suggest that the ontogenesis of the chromogranin-like immunostaining reflects the maturation of chromaffin granules and the PGP 9.5 immunostaining detected a protein common to cells of neuronal origin and expressed at an early stage of differentiation. The reciprocal relationship between the presence of enkephalins in chromaffin cells and in their presynaptic terminals merits further investigation.

Subcellular distribution of 65,000 calmodulin-binding protein (p65) and synaptophysin (p38) in adrenal medulla.

Both neuronal and endocrine cells contain secretory vesicles that store and release neurotransmitters and peptides. Neuronal cells release their secretory material from both small synaptic vesicles and large dense-core vesicles (LDCVs), whereas endocrine cells release secretory products from LDCVs. Neuronal small synaptic vesicles are known to express three integral membrane proteins: 65,000 calmodulin-binding protein (65-CMBP) (p65), synaptophysin (p38), and SV2. A controversial question surrounding these three proteins is whether they are present in LDCV membranes of endocrine and neuronal cells. Sucrose density centrifugation of adrenal medulla was performed to study and compare the subcellular distribution of two of these small synaptic vesicle proteins (65-CMBP and synaptophysin). Subsequent immunoblotting and 125I-Protein A binding experiments performed on the fractions obtained from sucrose gradients showed that 65-CMBP was present in fractions corresponding to granule membranes and intact chromaffin granules. Similar immunoblotting and 125I-Protein A binding experiments with synaptophysin antibodies showed that this protein was also present in intact granules and granule membrane fractions. However, an additional membrane component, equilibrating near the upper portion of the sucrose gradient, also showed strong immunoreactivity with anti-synaptophysin and high 125I-Protein A binding activity. In addition, immunoblotting experiments on purified plasma and granule membranes demonstrated that 65-CMBP was a component of both membranes, whereas synaptophysin was only present in granule membranes. Thus, there appears to be a different subcellular localization between 65-CMBP and synaptophysin in the chromaffin cell.

Ascorbic acid analysis using high-performance liquid chromatography with coulometric electrochemical detection.

A method for the detection of ascorbic acid using high-performance liquid chromatography with coulometric electrochemical detection and a technique for stabilization of the vitamin are described. Since less than 1 pmol of ascorbic acid can be detected, this assay provides significantly greater sensitivity than nearly all of the currently available procedures. Stabilization of 10 pmol or less of ascorbic acid at room temperature for up to 4 h and for several weeks at -70 degrees C facilitates storage of a large number of samples and measurement of ascorbic acid using an automated sampling device. This method was used to quantitate the amounts of ascorbic acid in human polymorphonuclear leukocytes and bovine adrenomedullary chromaffin granules. The calculated concentrations found for human neutrophils (1.35 mM) and bovine chromaffin granules (10.0 mM) are in agreement with previously published data. The assay is suitable for the determination of ascorbic acid in biological samples where only a small amount of tissue is available or very low amounts of ascorbic acid are found. This method is the first application of coulometric electrochemical detection to ascorbic acid HPLC analysis.

Detection of low molecular mass GTP-binding proteins in chromaffin granules and other subcellular fractions of chromaffin cells.

A homogenate of purified chromaffin cells was fractionated, after removal of the nuclear fraction, by sucrose density gradient ultracentrifugation. The presence and subcellular localization of low molecular mass GTP-binding proteins was explored by incubation of blots of proteins from different subcellular fractions with [alpha-32P]GTP in the presence of Mg2+. The fractions enriched in intact chromaffin granule markers, i.e. catecholamines, chromogranin A, chromogranin B and cytochrome b-561 were also enriched in labelled GTP-binding proteins. Two major labelled components of 23 and 29 kDa were rapidly detected by autoradiography. Traces of 26 and 27 kDa components were also present. These components were detectable in both plasma and granule membranes. In addition to these components, the cytosolic fraction contained another GTP-binding protein of about 20 kDa. Binding of [alpha-32P]GTP was specific and dependent on Mg2+. By analogy to the findings reported in non-mammalian systems, the observations described here suggest the involvement of low molecular mass GTP-binding proteins in the chromaffin cell secretory process.

Free concentrations of sodium, potassium and calcium in chromaffin granules.

We have measured the contents of Na+ and K+ in isolated chromaffin granules. Total contents varied between 227 and 283 nmol/mg of protein, equivalent to matrix concentrations of 53-66 mM. The value found depended on the isolation buffer used, and the ratio of the two ions reflected the composition of the buffer. We then measured the free concentration of each of these ions, and of Ca2+, in the matrix, by using a null-point method with acridine-fluorescence quenching. This monitored H+ fluxes induced by an ionophore in the presence of known concentrations of the ion in the supporting medium. In contrast with organic constituents of the matrix, which have low activity coefficients, Na+ and K+ were found to have activity coefficients around 0.8 Ca2+, however, was strongly bound: its free concentration was only 0.03% of the total.

Low molecular mass GTP-binding proteins of adrenal chromaffin cells are present on the secretory granule.

Adrenal medullary homogenates and chromaffin granule membranes were separated by SDS-polyacrylamide gel electrophoresis and GTP-binding proteins detected using [alpha-32P]GTP binding to nitrocellulose blots. Four GTP-binding polypeptides of 24, 22, 20 and 18 kDa were routinely found in medullary homogenates and all were also found in isolated chromaffin granule membranes. The GTP-binding polypeptides co-sedimented with granule membrane markers following separation on sucrose gradients. On the basis of trypsin sensitivity and resistance to extraction, the GTP-binding proteins appeared to be tightly bound to the cytoplasmic surface of the granules. One or more of the secretory granule GTP-binding proteins could be involved in exocytosis in adrenal chromaffin cells.

Nerve growth factor-induced changes in the intracellular localization of the protein kinase C substrate B-50 in pheochromocytoma PC12 cells.

High levels of the neuron-specific protein kinase C substrate, B-50 (= GAP43), are present in neurites and growth cones during neuronal development and regeneration. This suggests a hitherto nonelucidated role of this protein in neurite outgrowth. Comparable high levels of B-50 arise in the pheochromocytoma PC12 cell line during neurite formation. To get insight in the putative growth-associated function of B-50, we compared its ultrastructural localization in naive PC12 cells with its distribution in nerve growth factor (NGF)- or dibutyryl cyclic AMP (dbcAMP)-treated PC12 cells. B-50 immunogold labeling of cryosections of untreated PC12 cells is mainly associated with lysosomal structures, including multivesicular bodies, secondary lysosomes, and Golgi apparatus. The plasma membrane is virtually devoid of label. However, after 48-h NGF treatment of the cells, B-50 immunoreactivity is most pronounced on the plasma membrane. Highest B-50 immunoreactivity is observed on plasma membranes surrounding sprouting microvilli, lamellipodia, and filopodia. Outgrowing neurites are scattered with B-50 labeling, which is partially associated with chromaffin granules. In NGF-differentiated PC12 cells, B-50 immunoreactivity is, as in untreated cells, also associated with organelles of the lysosomal family and Golgi stacks. B-50 distribution in dbcAMP-differentiated cells closely resembles that in NGF-treated cells. The altered distribution of B-50 immunoreactivity induced by differentiating agents indicates a shift of the B-50 protein towards the plasma membrane. This translocation accompanies the acquisition of neuronal features of PC12 cells and points to a neurite growth-associated role for B-50, performed at the plasma membrane at the site of protrusion.

Aldosterone secretion inhibitory factor: a novel neuropeptide in bovine chromaffin cells.

We report the identification and the primary structure of a novel neuroendocrine peptide which inhibits aldosterone secretion. The peptide was isolated from 1.5 x 10(10) cultured bovine chromaffin cells by reversed phase and ion exchange HPLC. It is chromatographically and structurally distinct from atrial natriuretic factor (ANF), which we formely identified in chromaffin tissue. This new Aldosterone Secretion Inhibitory Factor (ASIF) is predominant in cultured chromaffin cells and cross-reacts with ANF receptor sites involved in the inhibition of aldosterone production in zona glomerulosa cells. The sequence of this 35-amino acid peptide includes the shorter fragment isolated from porcine brain confirming its neuropeptide character. ASIF might be involved in concert with ANF in the paracrine regulation of aldosterone secretion and the presence of both peptides in cultured chromaffin cells indicates that this system can be used as a model for studying natriuretic neuropeptide production.

Identification of high molecular weight peptides in bovine adrenomedullary chromaffin granules using monoclonal antibodies to a preproenkephalin A fusion peptide.

Two mouse monoclonal antibodies (PE-1 and PE-2) raised to a beta-galactosidase-preproenkephalin A(69-207) fusion peptide recognize pro-enkephalin A (pro-enk-A) peptides of 33-5 kDa isolated from bovine adrenal chromaffin granules. The preliminary characterization of the high molecular weight adrenomedullary pro-enk-A peptides recognized by PE-1 and PE-2 is described. The high molecular weight peptides were resolved after Sephadex G-50 chromatography and high-performance liquid chromatography (HPLC) into three components (peaks I, II and III). Immunoblot analysis showed each HPLC peak to be heterogeneous. Peak I contained PE-1-and PE-2-immunoreactive peptides of 33, 29, 24 and 22 kDa; peak II contained a peptide of 22 kDa recognized by PE-2, and peptides of 24 and 22 kDa recognized by PE-1; peak III contained a PE-2-immunoreactive peptide of 15 kDa and PE-1-immunoreactive peptide of 18 kDa. Using polyclonal antibodies to peptide F and methionineenkephalin-Arg6-Gly7-Leu8 (MetEnk-RGL), the 22 kDa band cross-reacted with both MetEnk-RGL and peptide F antibodies, whilst the 24 kDa band was shown to possess predominantly MetEnk-RGL immunoreactivity. The 15 kDa (PE-2-immunoreactive) band was recognized by the peptide F but not the MetEnk-RGL antibody, whereas the polyclonal antibodies did not recognize the 18 kDa (PE-1-immunoreactive) band. We propose that the immunological and size characteristics of some of these peptides (29, 24/22, 15 kDa) suggest their similarity to the peptides of predicted molecular mass 23.3, 18.2 and 12.6 kDa previously found in bovine adrenal medulla. The results also indicate the existence of high molecular weight pro-enk-A peptides shortened at the N-terminus. The use of an immunoradiometric assay designed to measure the proenk-A-derived 18.2 kDa peptide using PE-2 and an affinity purified and radioiodinated MetEnk-RGL IgG has supported these findings.

Co-localization of chromogranin A and B, secretogranin II and neuropeptide Y in chromaffin granules of rat adrenal medulla studied by electron microscopic immunocytochemistry.

The co-localization of various antigens in rat chromaffin granules was investigated by the immunogold staining procedure. In ultrathin serial sections staining of chromaffin granules was obtained with antisera against chromogranin A, chromogranin B, secretogranin II and neuropeptide Y. These results indicated that these antigens are costored within chromaffin granules. To further corroborate this point a double immunogold staining procedure was used. This method unequivocally established that chromogranin A, chromogranin B, secretogranin II and neuropeptide Y are co-localized in the same chromaffin granules. These results are relevant for studies demonstrating changes in the level of these peptides in adrenal medulla. The co-localization makes it likely that such changes lead to a different relative composition of the secretory quanta of chromaffin granules.

[Status of the adrenal medulla in various types of sudden cardiac death]. / Sostoianie mozgovogo veshchestva nadpochechnikov pri razlichnykh vidakh vnezapnoi serdechnoi smerti.

The status of adrenal medulla was examined in 65 cases of sudden cardiac death (SCD) by using a quantitative histofluorescence technique and Wood's method. The autopsy material included a control group (11 accidental victims). In terms of postmortem changes in the myocardium, 6 groups of SCD cases were singled out. Medullary catecholamines showed greater luminescence intensity in the groups where SCD had been accompanied with hypertensive disease, scarring myocardial infarction and alcoholic cardiomyopathy than in the control group. On the contrary, lower luminescence intensity of catecholamines in chromaffin tissue of the adrenal gland was observed in the groups where SCD had been associated with acute myocardial infarction and small focal cardiosclerosis. The rate of catecholamine luminescence intensity in the group where SCD had occurred with postinfarction cardiosclerosis did not differ from that seen in controls. The findings from the quantitative histofluorescence analysis of adrenal medulla in SCD were in accord with the results obtained from a light optic study of adrenal glands in the same cases by employing Wood's method.