Possible involvement of adenylylation in the modification of a 26 kDa protein in rat parotid acinar cells

• 1.1. Adenylylation, a posttranslational modification of proteins, was investigated in saponin-permeabilized acinar cells of the rat parotid gland.
• 2.2. When cells were incubated with [2,8-³H]ATP, several proteins, including a 26 kDa protein in the particulate fraction, were labeled.
• 3.3. Upon incubation of cells with [α-³²P]ATP in the presence of cAMP and 3-isobutyl-lmethylxanthine, ³²P-labeling of the 26 kDa protein was observed.
• 4.4. After treatment with snake venom phosphodiesterase, [³²P]AMP was released from the 26kDa protein. Such release was not observed when cells were labeled with [γ-³²P]ATP.
• 5.5. The ³²P-labeling pattern of proteins with [α-³²P]ATP was clearly different from that with [adenylate-³²P]NAD⁺.
• 6.6. The results suggest that the 26 kDa protein is one of the adenylylation substrates in rat parotid acinar cells.

     

Effect of PT-treatment on ANP-mediated inhibition of adenylate cyclase and amylase release in rat parotid gland

Effects of pertussis toxin (PT) treatment on atrial natriuretic peptide (ANP)-mediated inhibition of adenylate cyclase and amylase release were investigated in rat parotid gland. Adenylate cyclase activity stimulated by GTPS in PT-treated membranes was much larger than that in normal membranes. ANP dose-dependently inhibited adenylate cyclase stimulated by GTPS in control rat parotid membranes, however in membranes prepared from PT-injected (in vivo) rat parotid gland, ANP did not inhibit adenylate cyclase. ANP(10^–7M) inhibited cAMP accumulation stimulated by forskolin (10^–6M) in control rat parotid acinar cells by about 34%, however, in PT-treated cells, the inhibitory effect of ANP was attenuated completely. In control cells, amylase release stimulated by isoproterenol (10^–6M) and forskolin (10^–6M) were also depressed by ANP (10^–7M) by 27 and 30%, respectively. The inhibitory response of ANP on amylase release was completely attenuated by PT-treatment. Gi was detected as a ADP-ribosylated 41-KDa protein by incubation of parotid membranes with PT and [-³²P]NAD. In rat parotid gland, these results suggested that ANP mediates adenylate cyclase/cAMP system and consequently reduces amylase release through ANP-C receptor coupled to Gi. (Mol Cell Biochem)139: 53–58, 1994)     

Regulation of proto-oncogenes in rat parotid acinar cells in vitro after stimulation of beta-adrenergic receptors

Stimulation of beta-adrenoreceptors in rat parotid acinar cells in vitro by the beta-adrenergic agonist isoproterenol induces steady-state levels of c-fos mRNA and c-fos protein in these cells. A dramatic increase in the steady-state levels of c-fos mRNA was observed at 60 min, followed by a decrease at 2 h with a second peak at 4 h. c-fos induction in rat parotid acinar cells in vitro seems to be mediated by cAMP. Increased levels of p53 and c-myc mRNA were detected only at 60 min. c-abl and c-sis were also induced by isoproterenol but in a pattern different from that seen with c-fos. c-abl was the only oncogene in rat parotid gland which showed increased expression after chronic isoproterenol treatment of rats. In rat parotid acinar cells we observed no correlation between DNA synthesis and c-fos induction.     

Sphingosine increases inositol trisphosphate in rat parotid acinar cells by a mechanism that is independent of protein kinase C but dependent on extracellular calcium

In rat parotid acinar cells prelabelled with [3H]-inositol, sphingosine stimulated the accumulation of [3H]-inositol polyphosphates. When the cells were exposed to sphingosine, [3H]-inositol trisphosphate (InsP3) was accumulated in a time- and dose-dependent manner. When the extracellular Ca2+ was chelated by 1 mM EGTA, the effect of sphingosine on InsP3 accumulation was completely inhibited. Ionophores, A23187 and ionomycin, had no significant effect on InsP3 accumulation. An inhibitor of protein kinase C, 1-(5-isoquinolinesulfonyl)-2-methylpiperazine (H-7), failed to stimulate InsP3 accumulation. In the homogenate of parotid acinar cells, InsP3 3-kinase and 5-phosphomonoesterase activities were not affected by sphingosine. These results suggest that sphingosine activates phosphoinositide turnover by a mechanism dependent upon extracellular Ca2+, but different from that of an ionophore, and independent of protein kinase C.     

Involvement of phospholipase D in the cAMP-regulated exocytosis of rat parotid acinar cells

The activation of beta-adrenergic receptors in rat parotid acinar cells causes intracellular cAMP elevation and appreciably stimulates the exocytotic release of amylase into saliva. The activation of Ca(2+)-mobilizing receptors also induces some exocytosis. We investigated the role of phospholipase D (PLD) in regulated exocytosis in rat parotid acinar cells. A transphosphatidylation assay detected GTPgammaS (a nonhydrolyzable analogue of GTP)-dependent PLD activity in lysates of rat parotid acinar cells, suggesting that PLD is activated by small molecular mass GTP-binding proteins. The PLD inhibitor, neomycin, suppressed cAMP-dependent exocytosis in saponin-permeabilized cells. Signaling downstream of PLD was disrupted by 1-butanol due to conversion of the PLD reaction product (phosphatidic acid) to phosphatidylbutanol. The stimulation of exocytosis by isoproterenol as well as by a Ca(2+)-mobilizing agonist (methacholine) was inhibited by 1-butanol. These results suggest that PLD is important for regulated exocytosis in rat parotid acinar cells.     

beta-Adrenergic stimulation alters oligosaccharide pyrophosphoryl dolichol metabolism in rat parotid acinar cells.

beta-Adrenergic stimulation of rat parotid acinar cells markedly increases [3H]mannose incorporation into N-linked glycoproteins [Kousvelari, Grant, Banerjee, Newby & Baum (1984) Biochem. J. 222, 17-24]. More than 90% of this protein-bound [3H]mannose was preferentially incorporated into four secretory glycoproteins. The ratio of [3H]mannose/[14C]leucine present in these individual proteins was 1.7-4-fold greater with isoproterenol-treated cells than with untreated controls. In isoproterenol-stimulated cells, [3H]mannose incorporation into mannosylphosphoryl dolichol and oligosaccharide-PP-dolichol was increased 2-3-fold over that observed in unstimulated cells. Similarly, formation of mannosylated oligosaccharide-PP-dolichol was increased approx. 4-fold in microsomes prepared from isoproterenol-treated cells. Also, turnover of oligosaccharide-PP-dolichol was significantly increased (5-fold) by beta-adrenergic stimulation; the half-life for oligosaccharide-PP-dolichol decreased from 6 min in control cells to 1.2 min in isoproterenol-stimulated cells. By 15 min after isoproterenol addition to acinar cells, the specific radioactivity of parotid oligosaccharide moieties increased about 3-fold over the value observed in the absence of the agonist. Taken together, these results strongly suggest that elevation of N-linked protein glycosylation in rat parotid acinar cells after beta-adrenoreceptor stimulation resulted from significant enhancement in the synthesis of mannosylphosphoryl dolichol and oligosaccharide-PP-dolichol and the turnover of oligosaccharide-PP-dolichol.     

Beta-adrenergic receptor stimulation induces inositol trisphosphate production and Ca2+ mobilization in rat parotid acinar cells

In dispersed rat parotid gland acinar cells, the beta-adrenergic agonist (-)-isoproterenol, but not its stereoisomer (+)-isoproterenol, induced a transient 1.6-fold (at maximum stimulation, 2 x 10(-4) M) increase in cytosolic free calcium ([Ca2+]i) within 9 s, which returned to resting levels (approximately 190 nM) by 60 s. This [Ca2+]i response was not altered by chelating extracellular Ca2+ with [ethylenebis(oxyethylenenitrilo)]tetraacetic acid (EGTA) and could be completely blocked by the beta-adrenergic antagonists propranolol (beta 1 + beta 2) and ICI 118,551 (beta 2) but not by atenolol (beta 1). The muscarinic-cholinergic agonist carbachol (at maximum stimulation, 10(-5) M) induced a 3-4-fold elevation in [Ca2+]i within 6 s, which slowly returned to resting levels by 8-10 min. The peak carbachol [Ca2+]i response was not substantially altered by the addition of EGTA to the extracellular medium. However, if the cells were first stimulated with isoproterenol in the EGTA-containing medium, the peak carbachol response was decreased approximately 54%. When carbachol was added to cells in the presence of high extracellular calcium, at the isoproterenol-stimulated [Ca2+]i peak, the resulting [Ca2+]i level was equal to that achieved when carbachol was either added alone or added after propranolol and isoproterenol. 8-Bromo-cyclic AMP induced a [Ca2+]i response similar to that elicited by isoproterenol, which was not additive to that by carbachol. Carbachol induced a approximately 3.5-fold increase in inositol trisphosphate (IP3) production in parotid cells within 30 s. 8-Bromo-cAMP, N6,O2'-dioctanoyl-cAMP, and isoproterenol consistently induced a significant stimulation in IP3 production. The half-maximal concentration of isoproterenol required for [Ca2+]i mobilization and IP3 production was comparable (approximately 10(-5) M). Isoproterenol-induced IP3 formation was blocked by propranolol. The data show that in rat parotid acinar cells, beta-adrenergic stimulation results in IP3 formation and mobilization of a carbachol-sensitive intracellular Ca2+ pool by a mechanism involving cAMP. This demonstrates an interaction between the cAMP and phosphoinositide second messenger systems in these cells.     

Propranolol inhibits cyclic AMP accumulation and amylase secretion in parotid acinar cells stimulated by isobutylmethylxanthine and forskolin.

Propranolol inhibited cyclic AMP (cAMP) accumulation stimulated by 3-isobutyl-1-methylxanthine (IBMX) or forskolin in rat parotid acinar cells. The inhibition by propranolol was highly potent; 10(-7) M propranolol was sufficient for the maximum inhibition (approx. 50% at 5 min). The inhibitory effect was observed in both intact and saponin-permeabilized parotid cells, but the effect was more prominent in permeabilized cells than in intact cells. Other beta-blockers, like alprenolol and atenolol, were as effective as propranolol, but butoxamine (beta 2-selective) was slightly less effective. The inhibition by propranolol was similarly detected in the cells prepared from pertussis-toxin-pretreated rats, suggesting that inhibitory guanine nucleotide regulatory protein (Gi) is not involved in the inhibitory mechanism. Propranolol also inhibited the exocytosis of amylase stimulated by IBMX or forskolin. In the presence of propranolol and IBMX, the responsiveness of saponin-permeabilized cells to exogenous cAMP was markedly increased, indicating that propranolol neither promotes the degradation of cAMP nor prevents the inhibitory effect of IBMX on cAMP phosphodiesterase.     

Influence of bacterial toxins and forskolin upon vasopressin-induced inositol phosphate accumulation in WRK 1 cells.

The accumulation of inositol phosphates in WRK 1 cells, stimulated with a range of vasopressin concentrations, was diminished by prior exposure to cholera toxin or forskolin, whilst that observed in the presence of maximal concentrations of the hormone was enhanced in pertussis-toxin-treated cells. In the presence of [32P]NAD+, both cholera toxin and pertussis toxin provoked the labelling of peptides with approximate Mrs of 45,000 and 41,000 respectively in the membranes of WRK 1 cells. Exposure to cholera toxin or forskolin for 15-18 h enhanced cyclic AMP accumulation in these cells. The concentrations of these agents which provoked half-maximal cyclic AMP accumulation were similar to those required to diminish receptor-mediated inositol phosphate accumulation by 50%. In contrast, half-maximal ADP-ribosylation of the 45,000Mr peptide needed 100-fold greater concentrations of the toxin than were effective in provoking half-maximal inhibition of inositol phosphate accumulation. Cholera toxin or forskolin also reduced the maximal specific binding, to intact WRK 1 cells, of both [3H][Arg8]vasopressin and the V1a antagonist [3H][beta-mercapto-beta,beta-cyclopentamethylenepropionic acid,O-methyl-Tyr2, Arg8]vasopressin. The kinetics for the loss of this binding capacity following cholera-toxin treatment were very similar to those describing the diminution of vasopressin-stimulated inositol phosphate accumulation in the same cells.     

Transcriptional activity in previtellogenic oocyte germinal vesicles from Xenopus laevis

Receptor interactions of parotid acinar cells with beta-agonists are mediated by cyclic 3',5'-monophosphate (cAMP) and expressed as cAMP-dependent protein kinase (cAPK) activation. In addition to its location in the cytoplasm, we have shown that cAPK is associated with the nuclear non-histone protein (NHP) fraction (0.35 M NaCl extract) of rat parotid acinar cells. Nuclei were prepared from isolated parotid acini with minimal contamination from other cell types or cytoplasmic components. The nuclear cAPK activity was inhibited by the thermostable inhibitor and was stimulated by the addition of exogenous cAMP to the assay, indicating that the enzyme is present in the holoenzyme form. Enzyme activity was not increased in the presence of detergent, suggesting that cAPK is not bound to the nuclear membrane. Photoaffinity-labeling studies with an 8-azido analog of cAMP showed that regulatory subunits of both type I and type II cAPK isozymes are present in parotid cell nuclei. Short-term in vitro stimulation of the acini with 10(-6) M isoproterenol did not alter cAPK activity in the nuclear fraction. These findings indicate that compartmentation of cAPK into nuclear and extranuclear locations in rat parotid acinar cells is similar to that of several other cell types which are responsive to hormonal stimulation.     

Down-regulation of cellular proto-oncogenes during inhibition of rat parotid acinar cell proliferation.

The role of cell surface galactosyltransferase in mediating isoproterenol-induced parotid gland hypertrophy and hyperplasia was examined in rat parotid gland acinar cells. Introduction of the transferase modifier, alpha-lactalbumin, or galactosyltransferase-associated kinase inhibitor trifluoperazine, into beta-agonist-treated rats prevented acinar cell proliferation as determined by [3H]thymidine incorporation after 96 h of treatment. However, [3H]thymidine incorporation into DNA after 24 h of treatment, with injection of a combination of isoproterenol/alpha-lactalbumin or isoproterenol/trifluoperazine, was similar to injections of isoproterenol alone; suggesting that acinar cells could be stimulated to undergo a single round of DNA synthesis. Northern blot analysis of myc and fos expression followed a similar pattern of down-regulation to control levels after 96 h but not after 24 h. Hybridization with erb B showed little change with proliferation, confirming previous observations on protein levels of the EGF-receptor in acinar cells. Western blot analysis of nuclear protein expression of myc revealed that isoproterenol caused an increase in a 62-kDa protein which was again down-regulated with inhibition of cell proliferation. Analysis of protein levels of Rb110 protein showed no change in protein level in the nucleus with cell proliferation, but did show an associated increase in protein phosphorylation in response to growth stimulation.     

Pertussis toxin reverses prostaglandin E2- and somatostatin-induced inhibition of rat parietal cell H(+)-production.

In enzymatically dispersed enriched rat parietal cells we studied the effect of pertussis toxin on prostaglandin E2 (PGE2)- or somatostatin-induced inhibition of H(+)-production. Parietal cells were incubated in parallel in the absence (control cells) and presence of pertussis toxin (250 ng/ml; 4 h). [14C]Aminopyrine accumulation by both pertussis toxin-treated and control cells was used as an indirect measure of H(+)-production after stimulation with either histamine, forskolin or dibutyryl adenosine 3',5'-cyclic monophosphate (dbcAMP) alone and in the presence of PGE2 (10(-9)-10(-7) M) or somatostatin (10(-9)-10(-6) M). PGE2 inhibited histamine- and forskolin-stimulated [14C]aminopyrine accumulation but failed to alter the response to dbcAMP. Somatostatin was less effective and less potent than PGE2 in inhibiting stimulation by histamine or forskolin and reduced the response to dbcAMP. Pertussis toxin completely reversed inhibition by both PGE2 and somatostatin on histamine- and forskolin-stimulated H(+)-production but failed to affect inhibition by somatostatin of the response to dbcAMP. After incubation of crude control cell membranes with [32P]NAD+, pertussis toxin catalysed the incorporation of [32P]adenosine diphosphate (ADP)-ribose into a membrane protein of molecular weight of 41,000, the known molecular weight of the inhibitory subunit of adenylate cyclase (Gi alpha). Pertussis toxin treatment of parietal cells prior to the preparation of crude membranes almost completely prevented subsequent pertussis toxin-catalysed [32P]ADP ribosylation of the 41,000 molecular weight protein.(ABSTRACT TRUNCATED AT 250 WORDS)     

Phorbol acetate enhances the phosphorylation of cytokeratins 8 and 18 in human colonic epithelial cells.

The phosphorylation of epithelial-specific cytokeratin (CK) 8 and 18 was studied in the human colonic cell line HT29. Metabolic labelling of cells with orthophosphate resulted in phosphorylation of cytokeratins 8/18 on serine residues. When phorbol acetate was added to labelled cells, a 2.2-fold increase in CK8/18 phosphate labelling was noted, whereas increasing intracellular cAMP levels using forskolin or 8-Br-cAMP showed no significant change in CK phosphorylation. CKs8/18 were also phosphorylated by added PKC in the presence of [gamma-32P]ATP. Tryptic peptide map analysis of the phosphorylated CK8 species showed that treatment of cells with 8-Br-cAMP or phorbol acetate generated a phosphopeptide not seen in control cells. In contrast, tryptic peptide maps of phosphorylated CK18 showed no discernable differences. Our results support a role for PKC in the phosphorylation of epithelial cytokeratins, with some phosphorylation sites being modulated by cAMP dependent protein kinase.     

Receptor-mediated metabolism of the phosphoinositides and phosphatidic acid in rat lacrimal acinar cells.

The metabolism of the inositol lipids and phosphatidic acid in rat lacrimal acinar cells was investigated. The muscarinic cholinergic agonist methacholine caused a rapid loss of 15% of [32P]phosphatidylinositol 4,5-bisphosphate [PtdIns(4,5)P2] and a rapid increase in [32P]phosphatidic acid (PtdA). Chemical measurements indicated that the changes in 32P labelling of these lipids closely resembled changes in their total cellular content. Chelation of extracellular Ca2+ with excess EGTA caused a significant decrease in the PtdA labelling and an apparent loss of PtdIns(4,5)P2 breakdown. The calcium ionophores A23187 and ionomycin provoked a substantial breakdown of [32P]PtdIns(4,5)P2 and phosphatidylinositol 4-phosphate (PtdIns4P); however, a decrease in [32P]PtdA was also observed. Increases in inositol phosphate, inositol bisphosphate and inositol trisphosphate were observed in methacholine-stimulated cells, and this increase was greatly amplified in the presence of 10 mM-LiCl; alpha-adrenergic stimulation also caused a substantial increase in inositol phosphates. A23187 provoked a much smaller increase in the formation of inositol phosphates than did either methacholine or adrenaline. Experiments with excess extracellular EGTA and with a protocol that eliminates intracellular Ca2+ release indicated that the labelling of inositol phosphates was partially dependent on the presence of extracellular Ca2+ and independent of intracellular Ca2+ mobilization. Thus, in the rat lacrimal gland, there appears to be a rapid phospholipase C-mediated breakdown of PtdIns(4,5)P2 and a synthesis of PtdA, in response to activation of receptors that bring about an increase in intracellular Ca2+. The results are consistent with a role for these lipids early in the stimulus-response pathway of the lacrimal acinar cell.     

Post-translational modifications of the regulatory subunits of cAMP-dependent protein kinases during G1/S progression

During the G1/S transition of the cell cycle variations in the labelling by 8-N3-[32P]cAMP of the protein kinase A regulatory subunits RI and RII, used as a probe to monitor post-translational modifications that may regulate cAMP binding, were observed in synchronized HeLa cells. A decrease in 8-N3-[32P]cAMP labelling of RI, RII and RII phosphorylated by the catalytic subunit of PKA was correlated with the increased percentage of cells in phases G1. An increase in 8-N3-[32P]cAMP incorporated into the 54-kDa RII subunit during progression from G1 to S was correlated with an increase in intracellular cAMP. A transient increase in Mn-SOD activity was detected in cells arrested at the G1/S transition using two different techniques, suggesting that oxidative modulation of regulatory subunits by free radicals may modify cAMP binding sites during the cell cycle. Decreased photoaffinity labelling by 8-N3-[32P]cAMP of RI, RII and autophosphorylated RII subunits was found to be an inherent characteristic of PKA in the G1/S transition.     

cAMP and Ca(2+)-mediated secretion in parotid acinar cells is associated with reversible changes in the organization of the cytoskeleton

The potential involvement of actin and fodrin (brain spectrin) in secretory events has been assessed in primary cultured guinea pig parotid acinar cells, using as a tool affinity purified anti-alpha-fodrin antibody, phalloidin, and immunofluorescence techniques. In resting parotid acinar cells fodrin and actin appeared as a continuous ring under the plasma membrane of most of the cells. Upon stimulation with secretagogues fodrin and actin labeling at the level of the plasma membrane disappeared almost completely. To establish a correlation between secretion and cytoskeletal changes at the individual cell level, anti-alpha-amylase-antibodies were used to label secreted amylase exposed at the surface of secreting cells. The number of cells expressing alpha-amylase on their surface followed bulk secretion of alpha-amylase. A strict correlation between secretion and alteration of the actin-fodrin labeling was observed at the individual cell level. The cytoskeletal changes occurred in parallel with secretion independently of the secretagogue used (carbamoylcholine in the presence of Ca2+, isoproterenol in presence or absence of Ca2+, forskolin, or dibutyryl-cyclic-AMP). The changes were reversible upon removal of the secretagogue. Since Ca2+, as well as cAMP-mediated secretion, was associated with the same kind of cytoskeletal changes, a reorganization of the cytoskeleton may play an essential part in regulated secretion.     

ATP-dependent calcium transport in rat parotid basolateral membrane vesicles. Modulation by agents which elevate cyclic AMP

ATP-dependent Ca2+ transport was studied in basolateral membrane vesicles prepared from rat parotid gland slices incubated without or with agents which increase cyclic AMP. Isoproterenol (10(-5) M), forskolin (2 X 10(-6) M) and 8-bromocyclic AMP (2 X 10(-3) M) all increased ATP-dependent 45Ca2+ uptake 1.5- to 3-fold. The effect of isoproterenol was concentration-dependent and blocked by the beta-adrenergic antagonist propranolol. Enhanced uptake did not appear an artifact of vesicle preparation as apparent vesicle sidedness, 45Ca2+ efflux rates, specific activity of marker enzymes and equilibrium Ca2+ content were identical in vesicle preparations from control and 8-bromocyclic AMP-treated slices. Kinetic studies showed the ATP-dependent Ca2+ transport system in vesicles from 8-bromocyclic AMP-treated slices displayed a approximately 50% increase in Vmax and in Km Ca2+, compared to controls. The data suggest that physiological secretory stimuli to rat parotid acinar cells, which involve cyclic AMP, result in a readjustment of the basolateral membrane ATP-dependent Ca2+ pump.