The cytoskeletal protein talin contains at least two distinct vinculin binding domains.

We have mapped the vinculin-binding sites in the cytoskeletal protein talin as well as those sequences which target the talin molecule to focal contacts. Using a series of overlapping talin-fusion proteins expressed in E. coli and 125I-vinculin in both gel-overlay and microtitre well binding assays, we present evidence for three separable binding sites for vinculin. All three are in the tail segment of talin (residues 434-2541) and are recognized by the same fragment of vinculin (residues 1-258). Two sites are adjacent to each other and span residues 498-950, and the third site is more than 700 residues distant in the primary sequence. Scatchard analysis of 125I-vinculin binding to talin also indicates three sites, each with a similar affinity (Kd = 2-6 x 10(-7) M). We also detect a substoichiometric interaction of higher affinity (Kd = 3 x 10(-8) M) which remains unexplained. By expressing regions of the chicken talin molecule in heterologous cells, we have shown that the sequences required to target talin to focal contacts overlap those which bind vinculin.

Caveolin mediates rapid glucocorticoid effects and couples glucocorticoid action to the antiproliferative program.

Many glucocorticoid (Gc) actions are of rapid onset and therefore require acute regulation of intracellular signaling cascades. Integration of diverse extracellular signals requires cross-talk between intracellular pathways, suggesting the existence of nodes for signal interaction, such as the specialized membrane microdomains caveolae. We have identified rapid Gc-dependent phosphorylation of caveolin, and protein kinase B (PKB)/Akt, in the lung epithelial cell line A549 and found this was dependent on src kinases. There was also activation of PKB downstream molecules glycogen synthase kinase-3beta, and mammalian target of rapamycin. Subcellular fractionation colocalized glucocorticoid receptor (GR) and c-src to caveolin-containing membrane fractions. Coimmunoprecipitation studies also identified interactions between GR and caveolin and suggested that the activation function 1 domain within the GR may serve to support an interaction between GR and caveolin. Disruption of lipid raft formation, impairment of caveolin function using dominant-negative caveolin, down-regulation of caveolin-1 using short hairpin RNA or complete ablation of caveolin-1 prevented Gc-induced activation of PKB. Loss of caveolin-1 also prevents Gc activation of glycogen synthase kinase-3beta and mammalian target of rapamycin. In contrast, caveolin interference/down-regulation had no effect on Gc transactivation. Functional analysis of caveolin-1 knockdown and knockout cells identified profound loss of Gc-mediated growth inhibition compared with controls, with a requirement for caveolin in order for Gc to regulate cell cycle progression. Therefore, disruption of caveolae leads to dissociation of Gc action, with impaired induction of PKB activation, and cell growth inhibition, but with negligible effects on Gc transactivation. These observations have implications for understanding the diverse physiological actions of Gc.

Activation of p38 mitogen-activated protein kinases by endothelin and noradrenaline in small arteries, regulation by calcium influx and tyrosine kinases, and their role in contraction.

Small-artery responses to vasoconstrictor agonists are important for vascular function. To investigate the signaling pathways involved in contraction, we studied the activation and regulation of p38 mitogen-activated protein kinases (p38MAPKs) and heat shock protein (HSP) kinase by endothelin and noradrenaline in rat mesenteric arteries. Both vasoconstrictors activated p38alpha and/or p38beta but not p38gamma or p38delta, leading to increased HSP kinase activity. p38MAPK activation by noradrenaline was maximum between 2 and 10 minutes and was wholly dependent on calcium influx but insensitive to the tyrosine kinase inhibitor herbimycin A. In contrast, endothelin induced a biphasic response, with activation at 2 and 10 minutes. The early activity was wholly dependent on calcium influx and inhibited by herbimycin A. The later activity was only 50% calcium dependent, was insensitive to herbimycin A, but was 50% inhibited by genistein, a nonselective tyrosine kinase inhibitor. With both agonists, p38MAPK activity returned to basal by 30 minutes. SB203580, a p38MAPK inhibitor, blocked agonist-induced HSP kinase activity, and herbimycin A inhibited activation by endothelin but not by noradrenaline. In addition, SB203580 inhibited noradrenaline-induced contraction but had little effect on contraction to endothelin. These data show that vasoconstrictors use different upstream activators of p38MAPK in vascular tissue and that the p38MAPK pathway is selectively implicated in the contractile response to noradrenaline in small arteries.

The effect of afterload and angiotensin II on proto-oncogene mRNA levels in the isolated working rat heart.

OBJECTIVES: The proto-oncogenes c-fos, c-myc and H-ras have been shown to rise in a characteristic pattern in the left ventricle undergoing hypertrophy in the coarctation model of experimental hypertension and there is some evidence to suggest that they might play a role in the initiation of hypertrophic growth. However, in vivo studies do not discriminate between the direct effects of pressure and pressure-independent trophic stimuli such as angiotensin II. To examine these influences separately we studied isolated working hearts exposed to different afterloads in the presence or absence of angiotensin II. METHODS: Hearts from normotensive female Wistar rats were perfused with a modified Krebs-Henseleit solution, with and without angiotensin II (100 nmol/1) and exposed to low (60 mmHg) or high (140 mmHg) afterload (n > 17/group). Proto-oncogene mRNA induction in the left ventricle was assessed by Northern blot analysis. RESULTS: Aortic pressures were 101 +/- 14/63 +/- 6 mmHg (mean +/- s.d.) with low and 175 +/- 13/93 +/- 20 mmHg with high afterload; hearts in both groups maintained a stable cardiac output over 240 min, except for high afterload hearts not perfused with angiotensin II, which showed a 59% drop by the end of the experiment (P < 0.001). There was a 50% (32%, 72%) (geometric mean and 95% confidence interval) increase of c-myc and 54% (27%, 86%) increase in c-fos, but a 32% (25%, 40%) suppression of H-ras with high (140 mmHg) as compared with low (60 mmHg) afterloads (P < 0.0001 for each). There was no significant difference in c-myc and c-fos induction with different levels of high afterload (110, 120, 140 mmHg), but for H-ras suppression progressively increased with increasing afterload (P = 0.003). At high afterload, levels of c-fos rose at 30 min and peaked at 60 min, c-myc continued to rise up to 240 min, and H-ras was suppressed at all four time points. The addition of angiotensin II (100 nmol/l) to the perfusate resulted in 18% (6%, 28%; P = 0.006) lower c-myc levels, 12% (-6%, 28%; P = 0.18) lower c-fos levels and an 11% (-0.1%, 24%; P = 0.056) increase of H-ras. CONCLUSION: The isolated perfused working rat heart is capable of performing stably for a period of at least 240 min at high afterload pressures comparable to those encountered in hypertension. A proto-oncogene induction similar to that seen in the hypertrophying heart can be induced by increased pressure alone, without the mediating effects of circulating angiotensin II. Hearts perfused with angiotensin II showed a more stable performance at high levels of afterload which was associated with a minor attenuation of pressure-induced changes in proto-oncogene expression.

Properties of brain spectrin (fodrin).

Fodrin, a protein from bovine brain, immunologically related to spectrin, is shown, unlike some other proteins of generally similar appearance in the electron microscope, to resemble spectrin closely in its most distinctive structural characteristic, the very high alpha-helix content. Like spectrin, it is also insoluble below pH 5. One of the subunits only is phosphorylated by the cAMP-independent red cell membrane kinase, that phosphorylates the smaller subunit of spectrin. Fodrin also forms a ternary complex with F-actin and the third constituent of the red cell membranes cytoskeleton, protein 4.1. In the presence of 4.1 the interaction between fodrin and F-actin is enhanced. It is surmised that fodrin plays an analogous functional role in neuronal cells to that of spectrin in the red cell.

Spectrin and protein 4.1 as an actin filament capping complex.

Spectrin and protein 4.1, when added to G- or F-actin, cause the formation of short filaments, as judged by the appearance of powerful nucleating activity for G-actin polymerisation. F-Actin filaments are rapidly fragmented under physiological solvent conditions. The effect of cytochalasin E on the polymerisation reaction and the extent of reduction in the critical monomer concentration of actin when spectrin and 4.1 are added suggest that these proteins form a capping system for the more slowly growing, or 'pointed' ends of actin filaments. The interaction is not affected by calcium or by 4.9, the remaining constituent of the purified red cell membrane cytoskeleton.

Involvement of tyrosine phosphorylation in endothelin-1-induced calcium-sensitization in rat small mesenteric arteries.

1. We have studied the effect of endothelin-1 stimulation on protein tyrosine phosphorylation levels in intact small mesenteric arteries of the rat and investigated the effects of tyrosine kinase inhibition on the contractile response to this agonist. 2. Endothelin-1 stimulated a rapid (20 s), sustained (up to 20 min) and concentration-dependent (1-100 nM) increase in protein tyrosine phosphorylation levels which coincided temporally with the contractile response in intact and alpha-toxin permeabilized small artery preparations. Tyrosine phosphorylation was increased in four main clusters of proteins of apparent molecular mass 28-33, 56-61, 75-85 and 105-115 kDa. Endothelin-1-induced protein tyrosine phosphorylation was independent of extracellular calcium, antagonized by the tyrosine kinase inhibitor tyrphostin A23 but not by the inactive tyrphostin A1. 3. In intact small arteries tyrphostin A23 inhibited the force developed to endothelin-1 at all concentrations studied; at higher concentrations (10 and 100 nM) the profile of contraction was altered from a sustained to a transient response. Tyrphostin A1 inhibited the contractile response to endothelin-1 at all concentrations except 100 nM; the profile of the response was not altered. Neither tyrphostin affected the transient phasic contraction induced by endothelin-1 (100 nM) in the absence of extracellular calcium. 4. In rat alpha-toxin permeabilized mesenteric arteries endothelin-1 caused a concentration-dependent increase in force in the presence of 10 microM GTP and low (pCa 6.7) constant calcium, demonstrating increased sensitivity of the contractile apparatus to calcium. Tyrphostin A23 inhibited this response by approximately 50%, tyrphostin A1 did not affect endothelin-1-induced calcium sensitization of force. 5. We conclude that increased tyrosine phosphorylation is important in the contractile response induced by endothelin-1 in intact small mesenteric arteries. Furthermore our data implicate activation of this signalling pathway in the tonic phase of contraction possibly through modulation of the sensitivity of the contractile apparatus to calcium.

Lipid second messenger regulation: the role of diacylglycerol kinases and their relevance to hypertension.

Extracellular stimuli elicit cellular responses through generation of intracellular second messengers. The lipid second messenger diacylglycerol is produced following activation of the phosphoinositide signalling system. Diacylglycerol is the physiological activator of protein kinase C but also interacts indirectly with other signalling molecules such as small G proteins. Diacylglycerol kinases convert diacylglycerol to phosphatidic acid so terminating signalling through diacylglycerol. However, phosphatidic acid itself has a lipid second messenger role, with targets distinct from those of its precursor diacylglycerol. Therefore, diacylglycerol kinases occupy a central position in signal transduction and regulation of their activity is crucial to cellular function. A family of nine mammalian diacylglycerol kinases have been identified. Their structural diversity and complex pattern of tissue expression suggests that they function in distinct cellular processes. In addition to the plasma membrane, diacylglycerol kinases are found at the nucleus and cytoskeleton and translocation between subcellular compartments occurs with agonist stimulation. In small arteries diacylglycerol kinase activity is increased by adrenergic stimulation implying a role in vascular smooth muscle responses. Due to their role as key regulators of protein kinase C activity diacylglycerol kinases may play a role in the cardiovascular changes that occur in hypertension and as such could represent novel therapeutic targets.

The utility of dimensional and categorical approaches to understanding dissociation in the eating disorders.

OBJECTIVE: The present study compared levels of dissociation across groups of eating-disordered women, investigating the utility of dimensional and categorical measures of dissociation in understanding diagnoses and behaviours in the eating disorders. METHODS: The Dissociative Experiences Scale (DES-II) was completed by 170 eating-disordered women (drawn from out-patient assessment clinics) and 203 nonclinical women. The clinical group also supplied information regarding eating behaviours and related features (alcohol abuse, reported history of sexual abuse). The DES-II and a subset of its items (DES-Taxon) were used as dimensional and categorical discriminators of the groups and of the presence/absence of specific features and symptoms. RESULTS: When treated as dimensional measures, the DES-II and DES-Taxon had similar levels of clinical utility (particularly discriminating the binge-purge anorexics from the other clinical groups). However, the DES-Taxon was a superior categorical measure, discriminating groups more clearly and predicting the presence of many symptoms and features much more powerfully. CONCLUSIONS: The DES-Taxon is a potentially valuable self-report measure for indicating the level and presence of dissociative psychopathology in the eating disorders. As well as being convenient to administer and score, it has the clinical and research value of indicating those patients in whom treatment might need to include addressing pathological dissociation.

Regulation of contractility by Hsp27 and Hic-5 in rat mesenteric small arteries.

The regulation of small artery contractility by vasoconstrictors is important for vascular function, and actin cytoskeleton remodeling is required for contraction. p38 MAPK and tyrosine kinases are implicated in actin polymerization and contraction through heat shock protein 27 (Hsp27) and the cytoskeletal protein paxillin, respectively. We evaluated the roles of downstream targets of p38 MAPK and tyrosine kinases in cytoskeletal reorganization and contraction and whether the two signaling pathways regulate contraction independent of each other. We identified the expression of the paxillin homologue hydrogen peroxide-inducible clone-5 (Hic-5) and showed its activation by norepinephrine (NE) in a Src-dependent manner. Furthermore, we demonstrated a NE-induced interaction of proline-rich tyrosine kinase-2 (PYK2) but not Src or p125 focal adhesion kinase with Hic-5. This interaction was Src dependent, suggesting that Hic-5 was a substrate for PYK2 downstream from Src. The activation of Hic-5 induced its relocalization to the cytosol. The parallel activation of Hsp27 by NE was p38 MAPK dependent and led to its dissociation from actin filaments and translocation from membrane to cytosol and increased actin polymerization. Both Hsp27 and Hic-5 activation resulted in their association within the same time frame as NE-induced contraction, and the inhibition of either p38 MAPK or Src inhibited the interaction between Hsp27 and Hic-5 and the contractile response. Furthermore, combined p38 MAPK and Src inhibition had no greater effect on contraction than individual inhibition, suggesting that the two pathways act through a common mechanism. These data show that NE-induced activation and the association of Hsp27 and Hic-5 are required for the reorganization of the actin cytoskeleton and force development in small arteries.

Preparation of red-cell-membrane cytoskeletal constituents and characterisation of protein 4.1.

A new and rapid method is described for the preparation of protein 4.1, the protein which modulates the interaction between spectrin and actin in the membrane cytoskeleton of the red cell. The method is based on the dissociation of purified membrane cytoskeletons in concentrated Tris at neutral pH, followed by gel filtration in the same medium. This procedure also yields spectrin and actin, as well as the fourth cytoskeletal constituent, protein 4.9, in relatively pure form, and ankyrin. Protein 4.1 is monomeric under our conditions of solvent and protein concentration, with a relative molecular mass, as determined from sedimentation equilibrium, of about 78 000; its sedimentation coefficient and Stokes' radius are those of a globular, though somewhat asymmetric or flexible molecule. It forms a strong complex with F-actin and spectrin. Protein 4.9 is also recovered in active form, and will bind strongly to F-actin.

Sphingolipids in mammalian cell signalling.

Sphingolipids and their metabolites, ceramide, sphingosine and sphingosine-1-phosphate, are involved in a variety of cellular processes including differentiation, cellular senescence, apoptosis and proliferation. Ceramide is the main second messenger, and is produced by sphingomyelinase-induced hydrolysis of sphingomyelin and by de novo synthesis. Many stimuli, e. g. growth factors, cytokines, G protein-coupled receptor agonists and stress (UV irradiation) increase cellular ceramide levels. Sphingomyelin in the plasma membrane is located primarily in the outer (extracellular) leaflet of the bilayer, whilst sphingomyelinases are found at the inner (cytosolic) face and within lysosomes/endosomes. Such cellular compartmentalisation restricts the site of ceramide production and subsequent interaction with target proteins. Glycosphingolipids and sphingomyelin together with cholesterol are major components of specialised membrane microdomains known as lipid rafts, which are involved in receptor aggregation and immune responses. Many signalling molecules, for example Src family tyrosine kinases and glycosylinositolphosphate-anchored proteins, are associated with rafts, and disruption of these domains affects cellular responses such as apoptosis. Sphingosine and sphingosine-1-phosphate derived from ceramide are also signalling molecules. In particular, sphingosine-1-phosphate is involved in proliferation, differentiation and apoptosis. Sphingosine-1-phosphate can act both extracellularly through endothelial-differentiating gene (EDG) family G protein-coupled receptors and intracellularly through direct interactions with target proteins. The importance of sphingolipid signalling in cardiovascular development has been reinforced by recent reports implicating EDG receptors in the regulation of embryonic cardiac and vascular morphogenesis.

A case of elliptocytosis associated with a truncated spectrin chain.

A case of haemolytic anaemia with elliptocytosis is described, in which a large part of the smaller (beta) subunit of the spectrin is truncated, and has an apparent molecular weight of about 214 000 compared with about 230 000 for the normal chain. It is shown that this is not a product of adventitious proteolysis during lysis or extraction. At the same time about 35% of the total spectrin in the cells is liberated from the membrane as the dimer (which is present in normal cells to the extent of less than 10%). The truncated (beta') chain appears exclusively in this dimer fraction. The beta'-chain is incapable of phosphorylation by the endogenous cAMP-independent membrane kinase, and it may be inferred that the deleted segment of the chain contains both the spectrin self-association site and the residues normally phosphorylated. The alpha beta'-dimer is active with respect to participation in a ternary complex with its partnering proteins in the membrane cytoskeleton, F-actin and 4.1, confirming that the phosphorylation sites are not involved in the primary interaction with the other cytoskeletal proteins at the network junctions. The spectrin alpha-chain generates the terminal tryptic fragment of molecular weight 80 000 characteristic of normal spectrin, rather than the 74 000 molecular weight peptide derived from the alpha-chain in cases of hereditary elliptocytosis and pyropoikilocytosis, associated with anomalous self-association of spectrin dimer. Membrane cytoskeletons, extracted from the patient's red cells, undergo normal gelation on incubation with cAMP-independent kinase and ATP, and thus do not resemble those derived from hereditary spherocytosis cells. The properties of the anomalous spectrin resemble in most respects that described in a French family by Dhermy et al (1982).

Lipid second messengers derived from glycerolipids and sphingolipids, and their role in smooth muscle function.

The processes that link activation of an external receptor to the internal mechanisms that elicit a physiological response have been the subject of extensive investigation. It has been established that rather than just being an inert barrier to protect the cell from environmental damage, there are populations of phospholipids located within the plasma membrane that act as a reservoir for signalling molecules and when a receptor binds its appropriate activating ligand a chain of events is initiated which leads to the breakdown of these lipids and the release of second messengers. Such processes are rapid enough for physiological responses to be effected. The purpose of this review is to examine the profile of lipid second messengers derived from glycerophospholipids and sphingolipids. In the former class are included phosphoinositide and phosphatidylcholine and the latter includes sphingomyelin. Hydrolysis of such parent compounds is mediated by phospholipases and the profile of metabolites appears to be agonist specific and modulated by a number of mechanisms including heterotrimeric G-protein subunits, small G-proteins, alterations in intracellular calcium concentration, protein kinase C and tyrosine kinases. The recent interest in sphingolipids, particularly in vascular smooth muscle cells, has been provoked by the observation that ceramide and sphingoid base formation is observed in response to vasoconstrictor hormones.

Cognitive content among bulimic women: the role of core beliefs.

OBJECTIVE: Most cognitive analyses of bulimic disorders have stressed the role of negative automatic thoughts or dysfunctional assumptions regarding weight, shape, and food. This study considered the role of more general core beliefs in the cognitive content of bulimic disorders. METHODS: Fifty bulimic and 50 comparison women completed the Schema Questionnaire (YSQ) and a diary measure of bulimic behaviors. RESULTS: The groups could be differentiated using just three of the beliefs: perceived Defectiveness/Shame, Insufficient Self-Control, and Failure to Achieve. This discrimination included differences between bulimic subgroups. At the symptomatic level, the bulimic women's Emotional Inhibition beliefs predicted their severity of binging, whereas their Defectiveness/Shame beliefs predicted severity of vomiting. CONCLUSIONS: The findings support a model of bulimic psychopathology where the central cognitions encompass more than beliefs about food, shape, and weight. Clinical implications are considered.

The psychopathology of bulimic women who report childhood sexual abuse: the mediating role of core beliefs.

Although reported sexual abuse in childhood is associated with bulimic behaviors, less is known about the cognitive factors that explain this association. This study examined the potential role of core beliefs as a mediator in the abuse-bulimia link. Sixty-one bulimic women were interviewed regarding any history of childhood sexual abuse and completed measures of bulimic behaviors, dissociation, depression, and core beliefs. The 21 women who reported a history of childhood sexual abuse had significantly higher levels of several core beliefs and greater levels of psychopathology. Different core beliefs acted as mediators in the relationships between sexual abuse and individual symptoms. The findings support the suggestion that schema-focused cognitive therapy may be useful in working with bulimics, particularly if they have been sexually abused in childhood. Further research is needed to determine the role of core beliefs in mediating the impact of other forms of trauma and how traumas relate to other "escape" behaviors.

Localisation of the human gene encoding the cytoskeletal protein talin to chromosome 9p.

The cytoskeletal protein talin is localised on the cytoplasmic face of the integrin family of adhesion receptors in cellular junctions with the extracellular matrix. Using polymerase chain reaction amplification and DNA from a panel of human-rodent somatic cell hybrids, we have assigned the talin gene to chromosome 9p. Deletions in 9p have been implicated in a variety of cancers, including malignant melanoma, and the concept that talin might be a candidate tumour suppressor gene is discussed.

Transfection of cardiac muscle: effects of overexpression of c-myc and c-fos proto-oncogene proteins in primary cultures of neonatal rat cardiac myocytes.

1. Studies of cells transfected with specific expression vectors allow functions of specific gene products to be investigated. We first established optimum conditions for transfection of neonatal cardiac myocytes in primary culture. Increased proto-oncogene expression has been implicated in the development of cardiac hypertrophy; we therefore wished to examine the effects of overexpression of the c-myc and c-fos proto-oncogenes induced by cell transfection on cell growth. 2. Neonatal rat ventricular myocytes were transfected by electroporation, voltage and capacitance settings were optimized and these conditions were then used to transfect expression vectors encoding MYC and FOS proteins into this cell type. Effects on cell number, DNA synthesis and protein content were determined. 3. Increased expression of c-myc and c-fos in cells transfected with proto-oncogene expression vectors was confirmed by Northern and Western blotting. Increases in cardiac myocyte cell number, DNA synthesis and total cellular protein were observed in cells transfected with either c-myc or c-fos expression vectors compared with cells transfected with non-coding vectors. 4. Overexpression of MYC and FOS proteins results in hyperplastic rather than hypertrophic growth of the neonatal rat heart, providing evidence for a role of these proteins in the control of myocardial growth.

Phospholipase D-induced phosphatidate production in intact small arteries during noradrenaline stimulation: involvement of both G-protein and tyrosine-phosphorylation-linked pathways.

To investigate membrane lipid metabolism during smooth-muscle activation, the role of phospholipase D (PLD) in the production of phosphatidate (PA) was studied in rat small arteries stimulated with noradrenaline. Incubation with [3H]myristate preferentially labelled phosphatidylcholine (PtdCho), and in the presence of 0.5% ethanol [3H]phosphatidylethanol ([3H]PEt) was formed, demonstrating PLD activity. Noradrenaline (NA) stimulation resulted in an increase in PtdCho derived [3H]PA and [3H]PEt formation, indicating PLD activation. Stimulation of [14C]choline release confirmed PLD-mediated hydrolysis of PtdCho. Propranolol, an inhibitor of PA phosphohydrolase, increased [3H]PA levels in non-stimulated tissue and decreased the rate of degradation of both [3H]PA and [3H]PEt, implying that this is an active route for PA metabolism in small arteries. However, [3H]diacylglycerol levels were not increased during NA stimulation. Fluoroaluminate increased [3H]PEt formation and [14C]choline release, whereas high K+ in the presence of alpha 1-adrenoceptor blockade did not. Pervanadate increased phosphotyrosine levels in small arteries, and markedly stimulated [3H]PEt formation and [14C]choline release. The combination of pervanadate and NA stimulation resulted in a dramatic increase in [3H]PEt formation, which was greater than the sum of the individual responses to the two agonists. Pervanadate and fluoroaluminate in combination appeared to give an additive response, whereas high K+ did not alter the pervanadate-induced formation of [3H]PEt. Phosphotyrosine levels were increased by NA in the presence of tyrosine phosphatase inhibitors. This effect was blocked by genistein, a tyrosine kinase inhibitor. These data demonstrate that in NA-stimulated small arteries PLD-induced PtdCho hydrolysis contributes to accumulation of PA, but not of diacylglycerol. Furthermore, regulation of PLD activity appears to require G-protein and tyrosine-phosphorylation-linked pathways.

Identification of protein kinase C isoforms in rat mesenteric small arteries and their possible role in agonist-induced contraction.

We have identified immunologically the protein kinase C (PKC) isoforms present in rat mesenteric small arteries, defined their distribution between particulate and soluble fractions, and studied their involvement in phorbol ester-induced contraction. Our analysis revealed the presence of the CA(2+)-dependent PKCs (alpha and gamma), Ca(2+)-independent PKCs (delta and epsilon), and the atypical isoform (zeta). PKCbeta could not be detected, whereas PKCgamma is likely to be of neural origin. All isoforms exhibited different distributions. PKCalpha, PKCepsilon, and PKCzeta were found in both particulate and soluble fractions. In contrast, PKCdelta was mainly in the particulate fraction, and PKCgamma was in the soluble fraction. Phorbol esters, which activate PKC and cause smooth muscle contraction, downregulated only the alpha and delta isoforms. This was associated with a parallel loss of contractile response to phorbol ester. The force developed to submaximal concentrations of noradrenaline was decreased after phorbol dibutyrate pretreatment, although the sensitivity and maximal response were unchanged. Phorbol ester pretreatment did not affect the contractile response to vasopressin. The sensitivity to non-receptor-mediated contraction, caused by k+ in the presence of prazosin, was slightly reduced by 4 alpha- and 4 beta-phorbol ester pretreatment. Maximal tension in response to this agonist was not affected. We conclude that PKCalpha and/or PKCdelta is necessary for phorbol ester-mediated contraction but is not essential for noradrenaline-, vasopressin-, or k(+)-induced contraction, demonstrating differences in the mechanisms involved in the contractile response between these agents.