Identification of protein kinase Calpha as an essential, but not sufficient, cytosolic factor for Ca2+-induced alpha- and dense-core granule secretion in platelets

Upon activation, platelets release many active substances. Here, we have analyzed the mechanism governing Ca(2+)-induced secretion of von Willebrand factor stored in alpha-granules and 5-hydroxytryptamine in dense-core granules in permeabilized human platelets. Both secretions were dependent on ATP and cytosol. An essential factor for both granule secretions was purified from rat brain cytosol and identified to be protein kinase Calpha (PKCalpha) by partial amino acid sequencing. Purified PKCalpha efficiently stimulated both secretions in the presence of cytosol, whereas PKCalpha alone did not support the secretion of either type of granules, suggesting that PKCalpha is not a sufficient factor. Finally, in human platelet cytosol fractionated by a gel filtration column, the stimulatory activity for dense-core granule secretion paralleled with the concentration of PKC, suggesting that PKC could also be such a stimulatory factor in platelet cytosol. Thus, we identified PKCalpha as an essential, but not sufficient, cytosolic factor for the Ca(2+)-induced secretions of both alpha- and dense-core granules in platelets.     

Role of ADP-ribosylation factor 6 (ARF6) in gastric acid secretion

ADP-ribosylation factor (ARF) proteins are monomeric GTPases that are essential for membrane transport and exocytosis in a number of secretory cells. We investigated ARF6, the activation of which is insensitive to brefeldin A, to determine whether it regulates membrane traffic in gastric parietal cells. ARF6 translocated from cytosol to tubulovesicle in the presence of GTPgammaS, a potential inhibitor of acid secretion in permeabilized cells, whereas under the Mg2+-chelated condition where activity of ARF-GTPase activating protein is inhibited, ARF6 translocated to the apical secretory membrane. Immunohistochemical examination revealed that ARF6 mainly located in parietal cell within the gastric glands, and it translocated from the cytosol to the intracellular canaliculi when the glands were stimulated. These results indicated that the distribution of ARF6 between cytosol and the two different membranes was regulated by its GTPase activity. In cultured gastric glands infected with adenovirus expressing ARF6 Q67L, a mutant lacking GTP hydrolysis activity, gastric acid secretion was inhibited. These results suggest that ARF6 regulates gastric acid secretion in parietal cell and that the GTP hydrolysis cycle of ARF6 is essential for the activation pathway.     

Copurification of two holoenzyme-forming Calcium/Calmodulin-dependent protein kinase II isoforms as holoenzyme from porcine stomach

Gastric acid secretion is conveyed by different signal transduction pathways, among these being the muscarinic receptor M(3)-mediated acid secretion. There is some evidence that CaMkinase II is involved in the acetylcholine-conveyed acid release. The apparent CaMkinase II-isoenzymes gamma and delta were purified as a holoenzyme from homogenate of pig gastric mucosa to apparent homogeneity. The chromatographical steps comprised cationic exchanger chromatography, calmodulin affinity chromatography, anionic exchanger chromatography, and gel filtration. The CaMkinase II showed an apparent molecular mass of 332 +/- 17.3 kDa composed of 59- and 61-kDa subunits. The latter was characterized by a polyclonal antibody directed against CaMkinase II-delta. The purified CaMkinase II showed autophosphorylation and Ca(2+)/calmodulin-dependent activation (K(0. 5) = 5 nM). Moreover, the enzyme showed inhibition by the potent CaMkinase II inhibitor KN-62 in a dose-dependent manner. Addition of purified CaMkinase II inhibits the endogenous phosphorylation of a 105-kDa protein in the NaCl/Nonidet P-40 soluble fraction of the microsomal fraction of pig gastric mucosa. Our results suggest that CaMkinase II may regulate other protein kinases or phosphoprotein phosphatases, possibly by controlling acid production.     

Partial purification of a novel stimulant of gastric acid secretion from canine non-antral mucosa

A novel stimulant of gastric acid secretion was extracted and purified from the non-antral gastric mucosa of the canine stomach and some of its biological properties were examined. Tissue was boiled in water and extracted in 2% trifluoroacetic acid. The stimulatory activity was purified by a combination of reverse-phase high pressure liquid chromatography (HPLC) and gel filtration. Fractions were assayed for a stimulation of basal, pentagastrin- and histamine-stimulated gastric acid secretion in the anaesthetized rat. Stimulatory activity was eluted from reverse-phase HPLC columns with acetonitrile and its elution from Sephadex G-10 and G-50 columns suggested a molecular weight of 1,000 to 3,000. The highly purified extracts enhanced basal, pentagastrin- and histamine-stimulated acid secretion in the rat. A stimulatory fraction was purified which was devoid of immunoreactive gastrin and gastrin-releasing peptide and contained only small amounts of histamine. Its chromatographic properties differed from those of histamine and acetylcholine. On two occasions the stimulant was purified to homogeneity and found to contain amino acids. Insufficient pure material was obtained for full characterization. The stimulant has been tentatively called oxyntin.     

Cytosolic RAB3D is associated with RAB escort protein (REP), not RAB-GDP dissociation inhibitor (GDI), in dispersed chief cells from guinea pig stomach

Rab3D, a low-molecular-weight GTP-binding protein believed to be involved with regulated exocytosis, is associated with secretory granules in gastric chief cells. Although Rab3D is predominantly membrane associated, a significant fraction is cytosolic. Rab proteins are geranylgeranylated on their C-terminal cysteine motifs by geranylgeranyltransferase (GGTase). Rab escort protein (REP) is required to present Rab proteins to GGTase and may accompany newly modified Rab proteins to their target membrane. In most tissues, cytosolic Rab proteins are complexed with rab-GDP dissociation inhibitor (rab-GDI). In the present study, we examined the interactions of Rab3D with cytosolic proteins in dispersed chief cells. Two REP isoforms and at least two GDI isoforms are present in chief cell and brain cytosol. When chief cell cytosol was fractionated by gel filtration chromatography, Rab3D eluted with REP at >150 kDa, whereas rab-GDI eluted as a separate 65-kDa peak, suggesting that Rab3D exists as a complex with REP, but not with rab-GDI. In addition, a small fraction of Rab3D eluted as a monomer at 29 kDa. As has been demonstrated previously, in brain cytosol, Rab3 proteins co-elute with rab-GDI at approx. 90 kDa, suggesting that Rab3 proteins undergo active cycling between membrane and cytosolic compartments in this tissue. In vitro experiments revealed that Rab3D remains associated with REP after geranylgeranylation. Our findings suggest that, in gastric chief cells, Rab3D remains associated with REP after geranylgeranylation until it is presented to its target membrane.     

GTP‐dependent permeabilized neutrophil secretion requires a freely diffusible cytosolic protein

Guanosine triphosphate (GTP) has been implicated in the regulation of Ca²⁺‐mediated secretion from neutrophils. We further examined the role of GTP in neutrophil secretion using streptolysin O permeabilized cells. We found that, in the presence of GTP, 1.0 μM free Ca²⁺ causes maximum secretion—equivalent to that achieved with 100 μM free Ca²⁺—whereas GTPγS inhibits Ca²⁺‐stimulated secretion. Interestingly, GTP by itself stimulates secretion. These results indicate the existence of a GTP‐regulated mechanism of secretion in neutrophils that requires GTP hydrolysis to stimulate secretion in the presence and absence of Ca²⁺. The stimulatory effect of GTP is only observed when GTP is present during permeabilization. Addition of GTP after permeabilization, when the cytosolic contents have leaked out from cells, gives no stimulatory response, implying that the GTP‐dependent secretory apparatus requires at least one cytosolic protein. GTP‐dependent secretion can be reconstituted with crude HL‐60 and bovine liver cytosol. The reconstituting activity binds to GTP‐agarose, suggesting that the cytosolic factor is a GTP‐binding protein or forms a complex with a GTP‐binding protein. However, it is not a member of the rho or rac families of GTPases. By gel filtration chromatography, the secretion‐reconstituting activity eluted at 870 and 200 kDa, but in the presence of GTP, eluted at 120 kDa, indicating that it is part of a high‐molecular‐weight complex that dissociates in the presence of GTP. Retention of adenosine diphosphate‐ribosylation factor (ARF) in permeabilized cells and insensitivity of the cytosolic reconstituting activity to brefeldin A led to our speculation that ARF6 may be the GTPase involved in GTP‐dependent secretion, and that activity from a BFA‐insensitive ARF6 guanine nucleotide exchange factor reconstitutes secretion. J. Cell. Biochem. 80:37–45, 2000. © 2000 Wiley‐Liss, Inc.     

Multiple effects of phorbol ester on secretory activity in rabbit gastric glands and parietal cells

Acid secretory activity and respiration in rabbit gastric glands are stimulated by cAMP-dependent and -independent agonists. Potentiation between agonists suggests interaction of the activation pathways. Regulation of secretory response by protein kinase C was investigated with 12-0-tetradecanoyl phorbol-13-acetate (TPA). TPA elevated basal respiration, pepsin release, and acid secretion but inhibited histamine and carbachol stimulation of acid secretion by gastric glands, as measured by [dimethylamino-14C]aminopyrine accumulation. The inhibition of histamine response was specific for protein kinase C activators, occurred after a 20-min lag, and was not reversed by removal of TPA after 3 min of preincubation. TPA pretreatment inhibited acid secretory responses to cholera toxin and forskolin but enhanced the response to cAMP analogues. Cholera toxin and pertussis toxin simulated ADP-ribosylation of 45 and 41 kDa proteins, respectively, in parietal cell membranes. Therefore, both stimulatory (Gs) and inhibitory (Gi) GTP binding proteins of adenylyl cyclase appear to be present in parietal cells. Pretreatment with pertussis toxin attenuated PGE2 but not TPA inhibition of histamine stimulation of aminopyrine accumulation. Thus, the inhibitory effect of TPA does not appear to be associated with an action on Gi. The results with histamine and carbachol suggest that protein kinase C may regulate both cAMP-dependent and -independent stimulation of parietal cell acid secretion.     

GTP-dependent permeabilized neutrophil secretion requires a freely diffusible cytosolic protein

Guanosine triphosphate (GTP) has been implicated in the regulation of Ca(2+)-mediated secretion from neutrophils. We further examined the role of GTP in neutrophil secretion using streptolysin O permeabilized cells. We found that, in the presence of GTP, 1.0 microM free Ca(2+) causes maximum secretion-equivalent to that achieved with 100 microM free Ca(2+)-whereas GTPgammaS inhibits Ca(2+)-stimulated secretion. Interestingly, GTP by itself stimulates secretion. These results indicate the existence of a GTP-regulated mechanism of secretion in neutrophils that requires GTP hydrolysis to stimulate secretion in the presence and absence of Ca(2+). The stimulatory effect of GTP is only observed when GTP is present during permeabilization. Addition of GTP after permeabilization, when the cytosolic contents have leaked out from cells, gives no stimulatory response, implying that the GTP-dependent secretory apparatus requires at least one cytosolic protein. GTP-dependent secretion can be reconstituted with crude HL-60 and bovine liver cytosol. The reconstituting activity binds to GTP-agarose, suggesting that the cytosolic factor is a GTP-binding protein or forms a complex with a GTP-binding protein. However, it is not a member of the rho or rac families of GTPases. By gel filtration chromatography, the secretion-reconstituting activity eluted at 870 and 200 kDa, but in the presence of GTP, eluted at 120 kDa, indicating that it is part of a high-molecular-weight complex that dissociates in the presence of GTP. Retention of adenosine diphosphate-ribosylation factor (ARF) in permeabilized cells and insensitivity of the cytosolic reconstituting activity to brefeldin A led to our speculation that ARF6 may be the GTPase involved in GTP-dependent secretion, and that activity from a BFA-insensitive ARF6 guanine nucleotide exchange factor reconstitutes secretion.     

Identification and Purification of Calcium-Independent Phospholipase A2 from Bovine Brain Cytosol

Substantial amounts of phospholipase A2 activity were detected in bovine brain cytosol. The major phospholipase A2 activity was present in the precipitate at 40% saturation with solid ammonium sulfate. After the desaltate of the precipitate was loaded onto an Ultrogel AcA 54 gel filtration column, almost all the activity eluted in the void volume when chromatographed without 1 M KCl. However, when buffer with 1 M KCl was used as the eluent, two active peaks were obtained. One peak (peak I) eluted in the void volume, and the other (peak II) eluted with an apparent molecular mass of 39 kDa as compared with standards. The former was active with diacylglycero-3-phosphoethanolamine, whereas the latter was active with both diacylglycero-3-phosphoethanolamine and 1-alk-1'-enyl-2-acylglycero-3-phosphoethanolamine (plasmenylethanolamine). The apparent molecular mass of peak I was estimated to be 110 kDa as compared with standards on an Ultrogel AcA 34 gel filtration column. Both peaks were purified further with a hydrophobic chromatography column (AffiGel 10 coupled with plasmenylethanolamine) and then by high-resolution liquid chromatography on an MA7Q column. The phospholipase A2 obtained from peak II migrated as one main band with a 40-kDa molecular mass and two minor bands with 14- and 25-kDa molecular masses. Phospholipase A2 obtained from peak I eluted as a single peak on high-resolution liquid chromatography but contained two bands with apparent molecular masses of 100 and 110 kDa as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis.(ABSTRACT TRUNCATED AT 250 WORDS)     

The nature of the cytosolic activators of the adrenal steroid 21-hydroxylation system

The steroid 21-hydroxylase activity present in the microsomes of bovine adrenals is stimulated by components of the cytosol. The nature of these activators has been examined by two procedures. The first consisted of treating cytosol with increasing amounts of acetone. When the concentration of the organic solvent reached 50%, a precipitate, presumably proteinaceous, formed. The portion of the precipitate that was redissolvable in 0.05 m potassium phosphate buffer, pH 7.2, contained 7–15% of the stimulatory activity originally present in the cytosol. When the acetone concentration was raised to 90%, another active material precipitated. It was identified as oxidized glutathione (GSSG) and it accounted for about 5% of the activity in the cytosol. In an attempt to avoid the harmful effects of acetone, the second procedure employed only gel filtration and ion exchange resin chromatography. By these means the cytosol was separated into 11 protein fractions and a small molecular weight material. Forty six percent of the proteins and the same fraction of the stimulatory activity present in the original cytosol were recovered. Because all 11 protein fractions contained some stimulatory activity, the results suggested that the protein constituents of these fractions were relatively nonspecific. Yet, of the several known proteins which were tested for activity (bovine serum albumin, ovalbumin, human γ-globulin, bovine pancreatic ribonuclease, and pig insulin) only bovine serum albumin proved to be active. An additional 8% of the stimulatory activity of the cytosol was present in the fraction containing the low molecular weight components and this was all attributable to its GSSG content.     

Heterogeneity of acid secretion induced by carbachol and histamine along the gastric gland axis and its relationship to [Ca2+]i

The gastric glands of the mammalian fundic mucosa are constituted by different cell types. Gastric fluid is a mixture of acid, alkali, ions, enzymes, and mucins secreted by parietal, chief, and mucous cells. We studied activation of acid secretion using LysoSensor Yellow/Blue in conjunction with fluo 3 to measure changes in pH and Ca(2+) in isolated rabbit gastric glands. We evidenced a spatial heterogeneity in the amplitude of acid response along the gland axis under histamine and cholinergic stimulation. Carbachol induced a transitory pH increase before acidification. This relative alkalinization may be related to granule release from other cell types. Omeprazole inhibited the acid component but not the rise in pH. Histamine stimulated acid secretion without increase of lumen pH. We studied the relationship between Ca(2+) release and/or entry and H(+) secretion in glands stimulated by carbachol. Ca(2+) release was associated with a fast and transient components of H(+) secretion. We found a linear relationship between Ca(2+) release and H(+) secretion. Ca(2+) entry was associated with a second slow and larger component of acid secretion. The fast component may be the result of activation of Cl(-) and K(+) channels and hence H(+)/K(+) pumps already present in the membrane, whereas the slow component might be associated with translocation of H(+)/K(+) pumps to the canaliculi. In conclusion, with cholinergic stimulation, gastric glands secrete a mixture of acid and other product(s) with a pH above 4.2, both triggered by Ca(2+) release. Maintenance of acid secretion depends on Ca(2+) entry and perhaps membrane fusion.     

Translocation of alpha subunits of stimulatory guanine nucleotide-binding proteins through stimulation of the prostacyclin receptor in mouse mastocytoma cells.

The translocation of the alpha subunits of Gs from the membrane to the cytosol by iloprost, a stable prostacyclin analogue, was studied in mouse mastocytoma P-815 cells. In the presence of guanosine 5'-O-(thiotriphosphate) (GTP gamma S), iloprost stimulated the adenylate cyclase activity, caused the release of both 42- and 45-kDa proteins reactive with the anti Gs alpha carboxyl-terminal antibody, RM/1, from the membrane and attenuated cholera toxin-catalyzed ADP-ribosylation of the 42- and 45-kDa proteins in the membrane. The iloprost-stimulated adenylate cyclase activity and release of Gs alpha from the membrane were markedly suppressed by RM/1. Cholera toxin treatment also stimulated the adenylate cyclase activity and release of Gs alpha from the membrane, and iloprost synergistically potentiated these actions of cholera toxin. In mastocytoma cells, iloprost induced the translocation of both 42- and 45-kDa Gs alpha from the membrane to the cytosol, 45-kDa Gs alpha remaining in the cytosol for a longer time than 42- kDa Gs alpha. Whereas 42-kDa Gs alpha in the cytosol was eluted at the position of Mr = approximately 40,000 45-kDa Gs alpha was eluted at the position of Mr = approximately 120,000 from a Superose 12 gel filtration column. In contrast, both 42- and 45-kDa Gs alpha released in vitro from the membrane by iloprost plus GTP gamma S were eluted at the position of Mr = approximately 40,000, but only 45-kDa Gs alpha was eluted at the position of Mr = approximately 120,000 when it was incubated with cytosol. These results taken together demonstrate that iloprost induces the translocation of both 42- and 45-kDa Gs alpha from the membrane to the cytosol and that only the 45-kDa Gs alpha released exists in the cytosol as a soluble complex with unidentified component(s) in mastocytoma cells.     

The heterogeneity of gastric inhibitory polypeptide in porcine and human gastrointestinal mucosa evaluated with five different antisera

The Sephadex G-50 gel filtration profile of immunoreactive gastric inhibitory polypeptide (GIP) in porcine and human gastrointestinal mucosa was determined in assays with antisera obtained from five different groups working with GIP. Tissue was extracted in acid ethanol or using a boiling method. Three well-defined components were detected with three of the antisera: one component corresponding to natural porcine GIP (5 kDa GIP), one component corresponding to what has been called 8 kDa GIP, and one component somewhat larger than the latter. One antiserum did not measure 8 kDa GIP at all, while the fifth antiserum measured small amounts of 8 kDa GIP in porcine but not in human extracts. While the antisera measured the same amounts of GIP in porcine extracts, two of the antisera measured significantly more GIP than the remaining three in extracts of human mucosa. The elution position of human 5 kDa GIP differed significantly from that of porcine 5 kDa GIP. In addition to the identification of a new molecular form of GIP, and the demonstration of important specificity differences among GIP antisera currently in use, the present results indicate that human and porcine 5 kDa GIP differ in chemical composition.     

Purification and characterization of a third cytosolic component of the superoxide-generating NADPH oxidase of macrophages.

Activation of the superoxide (O2-)-generating NADPH oxidase of phagocytes in a cell-free system by anionic amphiphiles requires the participation of both membrane and cytosolic components. We reported that ammonium sulfate fractionation (Pick, E., Kroizman, T., and Abo, A. (1989) J. Immunol. 143, 4180-4187) and affinity chromatography on 2',5'-ADP-agarose (Shaag, D., and Pick, E. (1990) Biochim. Biophys. Acta 1037, 405-412) permit separation of cytosol in two fractions (sigma 1 and sigma 2) that support O2- production by solubilized membrane synergistically. We now describe the purification of sigma 1 to near homogeneity and demonstrate that it represents a cytosolic component distinct from p47-phox and p67-phox, that are both found in fraction sigma 2. Sigma 1 was absolutely required for the full expression of amphiphile-activated NADPH-oxidase activity. This requirement was evident whether sigma 1 was added to cell-free systems composed of: (a) solubilized membrane and a sigma 2-enriched cytosolic fraction, or (b) purified cytochrome b559, incorporated in liposomes, and purified sigma 2. Sigma 1 was purified by a sequence comprising ammonium sulfate fractionation, hydrophobic chromatography on phenyl-Superose, absorption with CM-Sepharose, anion exchange chromatography on DEAE-Sepharose, and gel filtration on Superose 12. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis analysis of sigma 1 of maximal purity, under both reducing and nonreducing conditions, demonstrated the presence of two proteins, of 24 and 22 kDa. On gel filtration, sigma 1 was eluted as a symmetrical peak of 46 kDa that by sodium dodecyl sulfate-polyacrylamide gel electrophoresis analysis revealed the presence of both 24- and 22-kDa bands. We suggest that, in its native form, sigma 1 might represent a complex of the 24- and 22-kDa proteins. The specific roles of each molecule in NADPH oxidase function remain to be determined.     

Sonic hedgehog is associated with H+-K+-ATPase-containing membranes in gastric parietal cells and secreted with histamine stimulation

Sonic hedgehog (Shh) is found within gastric parietal cells and processed from a 45-kDa to a 19-kDa bioactive protein by an acid- and protease-dependent mechanism. To investigate whether Shh is associated with the parietal cell membrane compartment that becomes exposed to both acid and proteolytic enzymes during acid secretion, the cellular location of Shh within resting and stimulated gastric parietal cells was examined. Immunofluorescence microscopy of rabbit stomach sections showed that Shh colocalized predominantly with parietal and pit, not chief/zymogen or neck, cell markers. In resting and histamine-stimulated rabbit gastric glands Shh was expressed only in parietal cells close to H+-K+-ATPase-containing tubulovesicular and secretory membranes with some colocalizing with gamma-actin at the basolateral membrane. Gastric gland microsomal membranes were prepared by differential and sucrose gradient centrifugation and immunoisolation with an anti-H+-K+-ATPase-alpha subunit antibody. The 45- and 19-kDa Shh proteins were detected by immunoblot in immunopurified H+-K+-ATPase-containing membranes from resting and stimulated gastric glands, respectively. Incubating glands with a high KCl concentration removed Shh from the membranes. Histamine stimulated 19-kDa Shh secretion from gastric glands into the medium. In human gastric cancer 23132/87 cells cultured on permeable membranes, histamine increased 19-kDa Shh secretion into both apical and basolateral media. These findings show that Shh is a peripheral protein associated with resting and stimulated H+-K+-ATPase-expressing membranes. In addition, Shh appears to be expressed at or close to the basolateral membrane of parietal cells.     

Effect of serum and serum lipoproteins on testosterone production by adult rat Leydig cells in vitro.

The effect of serum factors other than luteinizing hormone on Leydig cell testosterone secretion was examined using an in vitro bioassay system based on the stimulation of purified adult rat Leydig cells during a 20 h incubation in the presence of a maximal dose of human chorionic gonadotrophin (hCG). Charcoal-extracted serum and testicular interstitial fluid (IF) from normal adult male rats were separated into lipoprotein and lipoprotein-deficient fractions by density ultracentrifugation. Stimulatory bioactivity was found in the lipoprotein fraction of both serum and IF, although the levels of lipoprotein and corresponding bioactivity recovered from IF were significantly lower (25%) than those of serum. There was no difference between the effects of serum lipoproteins on Leydig cell testosterone production stimulated by either hCG or dibutyryl cAMP. In time-course studies, the serum lipoprotein fraction had no effect on hCG-stimulated testosterone production in vitro at 3.0 or 6.0 h, but partially prevented the normal decline in hCG-stimulated testosterone production after 6.0 h. In contrast, unfractionated serum was stimulatory at all time-points. In the absence of hCG, the lipoprotein fraction was stimulatory at both 6.0 and 20 h, although not at 3.0 h. The lipoprotein-deficient protein fraction of serum had no effect on hCG-stimulated testosterone production alone, but significantly enhanced the bioactivity of the lipoprotein fraction, and caused a dose-dependent stimulation of testosterone production in the presence of a constant concentration of serum lipoproteins. Both a stimulatory peak of activity (apparent MW 40-80 kDa), and a large MW (> 100 kDa) inhibitor of testosterone production were identified in serum after fractionation by gel filtration (Sephadex G-100). The data indicate that (i) the stimulatory effect of serum on short-term hCG-stimulated Leydig cell testosterone production in vitro is predominantly due to the serum lipoprotein fraction, possibly by providing additional precursors for testosterone synthesis, (ii) the biological activity of the lipoproteins is influenced by both stimulatory and inhibitory serum proteins in addition to luteinizing hormone, and (iii) that serum lipoproteins may be involved in supporting Leydig cell steroidogenesis in vivo.     

A calcium-dependent protease associated with the neural cytoskeleton. Purification and partial characterisation

Calcium-dependent protease activity was found associated with a neurofilament-enriched cytoskeleton isolated from the bovine spinal cord. The protease was extracted from the cytoskeleton by 0.6 M KCl, and purified to apparent homogeneity (3300-fold) by chromatography on organomercurial-Sepharose 4B, casein-Sepharose 4B, and Sepharose CL-6B. A cytosolic calcium-dependent protease was similarly purified from the bovine spinal cord, after the cytosol was fractionated on DEAE-cellulose. Both cytoskeleton-bound and cytosolic enzymes had an apparent molecular mass of 100 kDa as judged by gel filtration, and consisted of two subunits (79 kDa and 20 kDa) upon sodium dodecyl sulfate/polyacrylamide gel electrophoresis. Both enzymes exhibited caseinolytic activity with 0.5 mM Ca2+ and above, and the activity was strongly inhibited by various thiol protease inhibitors. In the presence of 0.1-0.2 mM Ca2+, the 68-kDa and 160-kDa components, and to a lesser extent the 200-kDa component, of the neurofilament triplet polypeptides were degraded by the cytosolic protease, whereas the cytoskeleton-bound protease needed two-fold higher concentration of Ca2+ to degrade the neurofilaments. Nevertheless, the cytoskeleton-bound protease in situ, i.e. before its extraction form the cytoskeleton by 0.6 M KCl, preferentially degraded the 160-kDa component in the presence of 0.1-0.2 mM Ca2+, suggesting that a proper locational relation of this enzyme to the neurofilament structure is a prerequisite to its preference for the 160-kDa component. It appears that a factor or factors involved in such an interaction between the protease and the neurofilament were eliminated during the course of enzyme purification. The glial fibrillary acidic protein was almost insensitive to the proteases purified in the present study.     

Activation of the superoxide-forming NADPH oxidase of macrophages requires two cytosolic components--one of them is also present in certain nonphagocytic cells

The superoxide-forming NADPH oxidase of resting macrophages can be activated in a cell-free system by certain anionic amphiphiles, most notably SDS. Activation requires the cooperation of membrane-associated and cytosolic components. We now report that at least two cytosolic factors are required for SDS-elicited activation of NADPH oxidase of guinea pig macrophages. Treatment of cytosol with ammonium sulfate at 37% saturation led to the partition of the two factors in the supernatant and precipitate fractions (termed components sigma 1 and sigma 2, respectively). Although each fraction by itself was inactive, recombining them resulted in complete recovery of the original ability of native cytosol to support SDS-elicited superoxide production by octyl-glucoside solubilized macrophage membranes. Both components are proteins, as shown by their susceptibility to trypsin and proteinase K, and were inactivated by heating at 60 degrees C. sigma 2, but not sigma 1, was inactivated by treatment with the covalent sulfhydryl reagent N-ethylmaleimide. On high-performance gel filtration, sigma 1 was found to have a molecular mass of 30 to 52 kDa, whereas sigma 2 eluted with molecules of 150 to 440 kDa. Component sigma 1 was partially purified from the ammonium sulfate supernatant fraction of cytosol by hydrophobic interaction chromatography followed by gel filtration. A material behaving like sigma 1 was also found to be present in the cytosol of guinea pig thymus cells, lymph node lymphocytes and brain and of the mouse myeloma cell line MOPC 315. However, sigma 2 appears to be strictly phagocyte specific. The molecular characteristics of sigma 1 components from nonphagocytic cells were similar to those of macrophage sigma 1, as shown by their presence in the supernatant, after treatment of cytosol with ammonium sulfate at 37% saturation, a molecular mass close to 30 to 52 kDa and a similar behavior on hydrophobic interaction chromatography. These findings raise the possibility that cytosolic component sigma 1 might be the bearer of a cellular function, more general than the one suggested by its role in the activation of NADPH oxidase of phagocytes.     

Purification and characterization of spermidine N1-acetyltransferase from chick duodenum

We have reported that spermidine N1-acetyltransferase has a larger role than ornithine decarboxylase in putrescine synthesis in chick duodenum induced by 1 alpha,25-dihydroxycholecalciferol (calcitriol) [Shinki, T., Kadofuku, T., Sato, T. and Suda, T. (1986) J. Biol. Chem. 261, 11712-11716]. In the present study, spermidine N1-acetyltransferase was purified from the duodenal cytosol of calcitriol-treated chicks to homogeneity judged by SDS/polyacrylamide gel electrophoresis. The purified enzyme converted spermidine only to N1-acetyl-spermidine. The apparent molecular mass of the purified spermidine N1-acetyltransferase was found to be 36 kDa by gel filtration on Sephacryl S-200 and 18 kDa by SDS/polyacrylamide gel electrophoresis. When duodenal crude 105,000 x g extracts were directly applied to a Sephacryl S-200 column without prior purification, three peaks with spermidine N1-acetyltransferase activity appeared. The first peak was in the void volume, the second peak was in the fraction corresponding to an apparent molecular mass of 70 kDa, and the third peak was in the fraction corresponding to 36 kDa. These results suggest that spermidine N1-acetyltransferase exists as a dimer of the 18 kDa subunits and is stabilized in (a) form(s) bound to other components or proteins in intact cells.     

Purification and molecular characterization of rat intestinal brush border membrane dipeptidyl aminopeptidase IV

Dipeptidyl aminopeptidase IV (EC 3.4.14.-) was solubilized from a particulate membrane fraction of rat intestinal mucosa with Triton X-100. The solubilized enzyme was purified to homogeneity following ammonium sulfate fractionation, chromatography on DEAE-Sepharose and hydroxyapatite, gel filtration and preparative polyacrylamide gel electrophoresis. The final enzyme preparation had a specific activity of 55 units/mg protein representing a 1373 fold purification over the starting material. Purity was judged by polyacrylamide gel electrophoresis and double immunodiffusion. The molecular weight of the native undenatured enzyme was estimated to be 230000 by gel filtration and polyacrylamide gel electrophoresis. Electrophoresis under denaturing conditions (sodium dodecyl sulfate) indicated that the protein consists of two identical 98 kDa subunits. Dipeptidyl aminopeptidase IV is a glycoprotein containing approx. 8% carbohydrate by weight. A detailed analysis of the individual sugar components demonstrated that fucose, galactose, glucose, mannose, sialic acid and hexosamine sugars were present. The nature of the constituent asparagine linked oligosaccharide side chains was further examined following cleavage from the peptide backbone by hydrazinolysis. Following high voltage paper electrophoresis approx. 80% of the isolated oligosaccharide was found with the neutral fraction while the remaining 20% consisted of a single acidic component. Gel filtration of the neutral oligosaccharide fraction indicated that it contains approx. 19 sugar residues.