Migration of vascular smooth muscle cells by phospholipase A2 via specific binding sites.

Pancreatic-type group I phospholipase A2 (PLA2-I), EC 3.1.1.4, long thought to act as a digestive enzyme, has a specific binding site in several types of tissues and cells and these sites promote PLA2-I-stimulated DNA synthesis. In this study we report a PLA2-I action on the migration of rat embryonic thoracic aorta smooth muscle cells (A7r5). A7r5 cells had a single class of PLA2-I binding site with an equilibrium binding constant (Kd) value of 1.7 nM and a maximum binding capacity (Bmax) of 40,000 sites/cell. The migration activity of PLA2-I for A7r5 cells was examined using modified Boyden chambers. PLA2-I stimulated the migration dose-dependently, and the ED50 value was about 1 nM, which was almost the same as the Kd value for PLA2-I binding. Checkerboard analysis showed that the response of A7r5 cells to PLA2-I was chemokinetic, but not chemotactic. These findings reveal a new aspect of PLA2-I in the modulation of vascular function.     

Relationship between 5-HT2A receptor mRNA density and contractility in trachea and aorta from guinea pig and rat

The present studies document marked differences in contractile responsiveness to serotonin in trachea and aorta between guinea pig and rat. For example, the guinea pig trachea and rat aorta markedly contract in response to serotonin via activation of 5-HT_2A receptors. In contrast, the rat and guinea pig aorta only modestly contract to serotonin. The availability of 5-HT_2A receptor selective cDNA clones from brain of both guinea pig and rat permitted molecular probes to be designed and PCR amplification studies initiated to identify and quantify 5-HT_2A receptor specific mRNA in these tissues. For trachea, 3-fold higher concentrations of 5-HT_2A receptor specific mRNA were found in guinea pig relative to rat trachea. These data are consistent with the more profound contractile response to serotonin in guinea pig versus rat trachea and suggest that differences in tracheal contractility to serotonin correlate with the density of 5-HT_2A receptor mRNA. In contrast, although rat aorta contracted more dramatically to serotonin than guinea pig aorta, rat aorta possessed a similar concentration of 5-HT_2A receptor specific mRNA as compared to guinea pig aorta. Thus, for the aorta, differences in the concentration of 5-HT_2A receptor mRNA are not sufficient to explain the observed differences in contractility between tissues from guinea pig and rat. These studies documenting 5-HT_2A receptor mRNA in rat trachea and guinea pig aorta, two tissues that do not markedly contract in response to serotonin indicate that 5-HT_2A receptor mRNA although present, has not resulted in a receptor capable of mediating a contractile response in these tissues.     

Positive inotropic effect of the thromboxane analog U-46619 on guinea pig left atrium: mediation by specific receptors and association with increased phosphoinositide turnover

U-46619, a stable epoxymethano analog of thromboxane A2 elicited a direct positive inotropic effect on guinea pig left atrium paced at a constant rate (EC50 = 2.5 nM). This novel observation contrasts with previous reports of a decrease in myocardial contractility by thromboxane mimetic compounds in coronary-perfused preparations, an action recognized as secondary to vasoconstriction. The positive inotropic effect of U-46619 was competitively antagonized by the specific thromboxane receptor blocker L-655,240 (pA2 = 8.02; identical to that reported in smooth muscle), but was unaffected by blockers of alpha 1-, beta 1-, and H1-receptors and by cyclooxygenase and lipoxygenase inhibitors. Increased tissue levels of inositol phosphates, but not cAMP, were associated with the positive inotropic action of U-46619, in analogy to the actions of alpha 1- and H1-receptor agonists. However, the inotropic effect of U-46619 and the concomitant increase in phosphoinositide breakdown were both selectively antagonized by L-655,240. Thus, U-46619 acts on specific thromboxane receptors in guinea pig left atrium and elicits a positive inotropic effect that probably results from an increase in phosphoinositide metabolism.     

Spasmogenic activity of C5adesArg anaphylatoxin on guinea pig lung parenchymal strips: Sensitivity of the leukotriene-mediated component to cyclooxygenase inhibitors

The leukotriene-dependent component of C5a_desArg-induced contractile activity on guinea pig lung parenchymal strips is inhibited by cyclooxygenase inhibitors. Indomethacin simultaneously increased leukotriene release while inhibiting both cyclooxygenase-dependent mediator release and the contractile force generated. Tissue responses to LTC₄ and LTD₄ are also inhibited by cyclooxygenase blockade, while contractions induced by the thromboxane A₂ analog, U-46619, histamine or acetylcholine are not affected. These data indicate a functional role for cyclooxygenase metabolites in leukotriene-induced contractile responses in lung.     

Influence of platelet-activating factor on leukotriene D4-induced contractions of the guinea pig parenchymal strip

Platelet-activating factor (PAF) and sulphidopeptide leukotrienes, such as leukotriene D4 (LTD4), are potent constrictors that are probably released simultaneously in a variety of inflammatory respiratory events. The purpose of the present study was to determine whether LTD4-induced contractions of guinea pig parenchymal lung strips (GPPS) are modified in the presence of PAF. The contractile responses of isolated GPPS to cumulative doses of LTD4, acetylcholine, histamine, and potassium chloride in the presence of PAF (0.1 nM, 0.1 microM) were compared with parallel controls. There was no significant alteration of the response to acetylcholine and potassium chloride and the PAF-induced inhibition of the response to histamine, although significant, was not concentration dependent. In contrast, PAF in a concentration range from 0.1 nM to 1.0 microM caused a marked, concentration-dependent reduction of LTD4-induced contractions. Pretreatment with the PAF receptor antagonist, BN52021, prevented the attenuation of LTD4-induced contraction by PAF. The attenuation of LTD4-induced contraction by PAF was also prevented by pretreatment with indomethacin or with the thromboxane synthase inhibitor U63,557A, but not by pretreatment with the lipoxygenase inhibitors BW755c or nordihydroguaiaretic acid. Thus inhibition of LTD4-induced GPPS contraction by PAF is receptor dependent and probably secondary to thromboxane generation. The respiratory smooth muscle response to leukotrienes may be modified significantly by concomitant PAF release.     

A formyl peptide contracts guinea pig lung: role of arachidonic acid metabolites

We studied the role of cyclooxygenase and lipoxygenase products of arachidonic acid metabolism in mediating N-formyl-methionyl-leucyl-phenylalanine- (FMLP) induced contractions of guinea pig lung parenchymal strips. The cyclooxygenase inhibitors indomethacin (10(-5) M) and aspirin (3 X 10(-5) to 10(-4) M), the lipoxygenase inhibitor nordihydroguaiaretic acid (10(-5) to 3 X 10(-5) M), and the combined cyclooxygenase/lipoxygenase inhibitors 1-phenyl-3-pyrazolidinone (Phenidone) (3 X 10(-5) to 3 X 10(-4) M) and BW 755C (10(-5) to 10(-4) M) each caused a decrease in the maximum force induced by FMLP (Fmax) and an increase in the concentration of FMLP required to produce 50% of Fmax (EC50). The thromboxane synthesis inhibitor imidazole (3 X 10(-3) M) also decreased Fmax. The leukotriene D4 receptor antagonist FPL 55712 (5.7 X 10(-6) to 1.9 X 10(-5) M) increased the EC50 for FMLP, whereas desensitization of lung parenchymal strips to leukotriene B4 by pretreatment with this leukotriene (10(-7) M) had no effect on FMLP-induced contraction. After exposure to FMLP (10(-6) M), guinea pig lung produced (as determined by high-performance liquid chromatography and radioimmunoassay) leukotrienes C4 and B4, thromboxane A2 (as measured by its stable degradation product thromboxane B2), and prostaglandin F2 alpha. Lung strips not exposed to FMLP showed no evidence of leukotriene production. We conclude that thromboxane A2 and leukotriene C4 generated in response to FMLP mediate a substantial fraction of the force induced by this peptide in guinea pig lung parenchymal strips.     

Pulmonary responses to phospholipase A2 in the perfused guinea pig lung

We examined the effect of phospholipase A2 (PLA2; Naja naja) challenge on pulmonary hemodynamics, airway constriction, and fluid filtration in isolated Ringer-perfused guinea pig lungs. Intratracheal PLA2 (10-100 U) produced dose-dependent increases in pulmonary arterial pressure, intratracheal pressure, and lung weight, although intravenous PLA2 administration had no effect on monitored variables. Morphological features indicative of airway constriction and pulmonary edema were observed by light microscopy. PLA2-induced increases in intratracheal pressure and/or lung weight were attenuated to varying degrees by pretreatment with indomethacin (1 microM, a cyclooxygenase inhibitor), ICI-198,615 (1 microM, a leukotriene D4 receptor antagonist), and WEB 2086 (1 microM, a platelet-activating factor antagonist). PLA2-induced increases in pulmonary arterial pressure and intratracheal pressure were also reduced in lungs removed from animals pretreated with dexamethasone (50 mg/kg ip for 2 days; a steroidal antiinflammatory agent). Pyrilamine (1 microM, a histamine1-receptor antagonist) and Takeda AA861 (1 microM, a delta 5-lipoxygenase inhibitor) did not produce significant inhibitory effects on PLA2-induced pathophysiological changes. Intratracheal instillation of high-dose platelet-activating factor (50 micrograms) or lysophosphatidylcholine (100 micrograms) produced gradual increases in intratracheal pressure and lung weight, but these changes were not as large as those induced by PLA2. Thus these studies suggest that resident cell populations associated with airways may play an important role in PLA2-induced pathophysiological changes in the perfused guinea pig lung. These PLA2-induced effects are most likely partially mediated by generation of eicosanoids and platelet-activating factor.     

Endogenous formation of the prostaglandin endoperoxine metabolite,thromboxane B2, by brain tissue

Thromboxane B₂ was formed from endogenous precursors during short incubations of guinea pig and rat cerebral cortex. The amount formed by guinea pig brain tissue was 5–6 times the formation of prostaglandin F_2α and E₂. Noradrenalin stimulated and indomethacin and mercaptoethanol inhibited thromboxane B₂ formation. The mass spectrum of the brain compound was identical to thromboxane B₂ formed from arachidonic acid by guinea pig lung and human platelets.     

Proliferative effect of phospholipase A2 in rat chondrocyte via its specific binding sites.

We studied the presence of specific binding sites for pancreatic-type group I phospholipase A2 (PLA2-I), EC 3.1.1.4, and a PLA2-I action on the DNA synthesis of rat chondrocytes. Rat chondrocytes, derived from the xiphisternum of adult rats, had a single class of PLA2-I binding site with an equilibrium binding constant value of 0.9 nM and a maximum binding capacity of 53.9 fmol/10(6) cells. PLA2-I alone did not show any proliferative effect, however, PLA2-I dose-dependently stimulated thymidine incorporation in DNA in the presence of basic fibroblast growth factor (bFGF). The mammalian mature type of PLA2s-I specifically recognized the binding sites in these cells and had a synergistic effect on DNA synthesis with bFGF, whereas its inactive zymogen and group II PLA2 showed much lesser activities. The type-specific action of PLA2s implicated the involvement of PLA2-I specific binding sites in this activation process.     

Platelet aggregation increases cholinergic neurotransmission in canine airway

To determine whether thromboxane A2 released from aggregating platelets increases the contractile response of airway smooth muscle to cholinergic nerve stimulation and, if so, what the mechanism of action is, we studied in vitro bronchial segments from dogs under isometric conditions. The contractile responses to electrical field stimulation at 30 s and 1 min after the addition of autologous platelets were increased by 11.1 +/- 3.2 (SD) and 20.7 +/- 5.4%, respectively, and were accompanied by the release of thromboxane A2. These effects were inhibited either by pretreatment of platelets with indomethacin or by addition of the thromboxane A2 receptor antagonist SQ 29548. Likewise, the thromboxane A2 mimetic U 46619, in subthreshold doses (i.e., insufficient to increase base-line tension), increased electrical field stimulation-induced contraction by 18.7 +/- 4.8%. The increase was greater in the presence of a concentration of physostigmine that did not cause spontaneous contraction and was blocked by SQ 29548 but not by hexamethonium or by phentolamine. Methacholine-induced contractions were unaffected by U 46619. These results indicate that aggregating platelets, by releasing thromboxane A2, increase the airway contractile response to neural stimulation probably by the accelerated release of acetylcholine.     

Effect of a thromboxane receptor antagonist on PGD2- and allergen-induced bronchoconstriction

In this study we investigated the effect of the selective and potent thromboxane A2 (TxA2) receptor antagonist GR32191 on smooth muscle contraction induced by the TxA2 analogue U46619, prostaglandin (PG) D2, PGF2 alpha, and methacholine (MCh) in guinea pig airways in vitro and the airways response provoked by inhaled PGD2 and MCh in asthmatic subjects in vivo. GR32191 antagonized competitively the contractile responses of all three prostanoids to a similar degree but had no effect on MCh-induced contractions. In asthmatic subjects GR32191, in a single oral dose of 80 mg, did not affect base-line airway caliber or MCh-induced broncho-constriction but caused significant inhibition of PGD2-induced bronchoconstriction, displacing the concentration-response curves to the right by greater than 10-fold. The effect of the same oral dose of GR32191 on allergen-induced immediate bronchoconstriction was subsequently investigated in allergic asthmatic subjects. In individual subjects, GR32191 inhibited to varying degrees the overall bronchoconstrictor response, with the maximum effect occurring between 10 and 30 min after allergen challenge. These studies suggest that prostanoids contribute to the immediate bronchoconstriction induced by inhaled allergen in allergic asthmatics, and that this effect is mediated by stimulation of a thromboxane receptor.     

Lipid metabolism in cultured cells. Activators of endogenous thromboxane A2 synthesis in cultured lung fibroblasts

Thromboxane A2 (rabbit aorta-contracting substance) is a proaggregatory vasoconstrictive, oxygenated metabolite of arachidonic acid which was originally discovered in guinea pig lung perfusates during antigen-induced anaphylaxis. The specific stimuli which activate synthesis and the cellular source in the lung remain undefined. In order to study pulmonary thromboxane A2 (TXA2) synthesis, a cultured lung cell model has been used. Monolayer cultures of human diploid embryonic lung fibroblast (WI-38) metabolized exogenously supplied [14C]arachidonic acid to TXA2 as well as prostaglandin E2. Both were unequivocally identified by gas chromatography/mass spectrometry. Cellular phospholipids were labeled by preincubating cultures overnight with [14C]arachidonic acid. Release of thromboxane A2 into the culture fluid from these prelabeled cultures was stimulated by two phospholipase activating agents, mellitin and the calcium ionophore A23187. The lung cells also released TXA2 and prostaglandin in a dose-dependent fashion when treated with thrombin but not when exposed to trypsin. Bradykinin, an anaphylactic mediator in vivo, was a potent TXA2 releasing agent in this in vitro system whereas histamine was inactive. In addition, anaphylactic shock perfusates from guinea pig lung were shown to contain a factor (other than bradykinin) which activates fibroblasts TXA2 synthesis in these cultured lung cells. These experiments indicate that the lung fibroblast is probably a source of pulmonary thromboxane in vivo and that the cultured lung cell system described here is a useful model for defining the complex interactions of mediators of anaphylaxis and asthma.     

Accelerated communication the direct contractile effect of gastrin releasing peptide on isolated gastric smooth muscle cells of the guinea pig

Smooth muscle cells isolated from the gastric muscle layers of the guinea pig were used to determine whether gastrin releasing peptide (GRP) can cause contraction by exerting a direct action on muscle cells. In addition, the inhibitory effect of 8-( N,N-diethylamino )-octyl-3,4,5-trimethoxybenzoate hydrochloride ( TMB-8 ), an inhibitor of intracellular Ca²⁺ release, and verapamil, a Ca²⁺ channel blocker, on the GRP-induced contraction of gastric smooth muscle cells were examined. GRP elicited a contractile response of gastric muscle cells in a dose-dependent manner. The ED₅₀ was 13 pM. TMB-8 significantly inhibited the contractile effect of GRP in gastric muscle cells. These results demonstrate the direct action of GRP on the gastric smooth muscle cells of the guinea pig, and the importance of Ca²⁺-release from intracellular calcium stores in the contractile response to GRP.     

Vascular actions of thrombin receptor peptide.

We have examined the action of the thrombin receptor-derived polypeptide, S42FLLRNPNDKYEPF55 (TRP 42-55), in rat and guinea pig aortic rings and helical arterial strips, and we have compared the actions of the peptide with those of thrombin. In rat preparations, both TRP 42-55 and thrombin caused a concentration-dependent endothelium-dependent relaxation that was blocked by N omega-nitro-L-arginine methyl ester; the relaxation response of the intact rat aortic strip preparation to concentrations of the peptide in the range 30-60 micrograms/mL (17-34 microM) was equivalent to the response to 0.03-0.1 U/mL of thrombin (about 0.3-0.9 nM), yielding a potency ratio (TRP 42-55:thrombin) of about 38,000:1. In contrast with the complete desensitization of thrombin-treated rat aortic preparations to a second administration of the enzyme, the rat aortic tissue was not desensitized by repeated exposures to TRP 42-55 and remained responsive to the peptide even after treatment of the tissue by thrombin. In contrast with the rat aortic tissue, in either intact or endothelium-free guinea pig aortic preparations both TRP 42-55 and thrombin caused a concentration-dependent endothelium-independent contraction. The contractile action of 60 micrograms/mL of receptor peptide (34 microM) in guinea pig aortic strip preparations was equivalent to the contractile action of 0.1-0.3 U/mL thrombin (0.9-3 nM), yielding a potency ratio of about 17,000:1. In guinea pig aortic preparations with an intact endothelium that were precontracted with noradrenaline, neither thrombin nor TRP42-55 caused relaxation, whereas substance P did so.(ABSTRACT TRUNCATED AT 250 WORDS)     

Direct actions of prostaglandins E1, A1, and F2α on myocardial contraction

The inotropic and chronotropic actions of prostaglandin (PG) types PGE₁, PGA₁, and PGF_2α were studied in isolated guinea pig right and left atria, and papillary muscles; rabbit atria; and toad ventricular strips in order to more completely define the cardiac contractile properties of PG. All three prostaglandins, in muscle bath concentrations of 10μg/ml, exerted positive inotropic and chronotropic actions on guinea pig atrium. These contractile effects were persistent after removal of PG from the muscle bath and appeared to limit the relative response to a subsequent dose of PG. The inotropic action of PGE₁ was present over a wide range of bath calcium concentrations (1.1 to 4.4 mM/L). Beta adrenergic receptor blockade, histamine blockade, and pretreatment with reserpine failed to significantly affect the inotropic actions of PG. Norepinephrine and histamine produced more potent inotropic and chronotropic effects on guinea pig atria than did PG and these contractile effects did not exhibit persistence or tachyphylaxis. The prostaglandins did not significantly affect dose response curves for norepinephrine inotropic and chronotropic actions. The prostaglandins had no effect on the force or frequency of contraction in rabbit atria. PGE₁ exerted a positive inotropic effect on toad ventricular myocardium whereas PGA₁ had no effect and PGF_2α had a negative inotropic action.     

Contractile activity of Trimeresurus flavoviridis phospholipase A2 on guinea pig ileum and artery.

Trimeresurus flavoviridis phospholipase A2 (PLA2) induced strong contractions of the smooth muscles of guinea pig ileum and artery in a concentration-dependent manner (10(-10)-10(-6) M). When the same dose of PLA2 was administered in repetition to the ileal preparation, the contraction diminished progressively and was no longer recovered even by consecutive washings. The enzymatically inactive derivative of PLA2, in which His-47 was p-bromophenacylated, was unable to elicit contraction. Also, no activity was observed when the Ca(2+)-free medium was used. The contraction induced by PLA2 was inhibited completely by 1.0 x 10(-6) M indomethacin, but not by nordihydroguaiaretic acid. These results imply that the PLA2-induced contraction is due essentially to the hydrolytic action of the enzyme against phospholipid membranes to liberate arachidonic acid that is then converted to pharmacologically active prostaglandins. In guinea pig artery, PLA2 caused both contraction and relaxation.     

Leukotriene B4 is an indirectly acting vasoconstrictor in guinea pig aorta via an inducible type of BLT receptor

Leukotriene B(4) (LTB(4)) is a potent leukocyte chemoattractant recently implicated in the pathogenesis of atherosclerosis. The aim of this study was to assess the effects of LTB(4) on isolated aortic preparations. Rings of guinea pig aorta were challenged with LTB(4) for recording mechanical responses and measurements of mediator release, and LTB(4) receptor (BLT(1)) expression was assessed by RT-PCR. Single concentrations of LTB(4) induced concentration-dependent contractions that were inhibited by treatment with antihistamines, indomethacin, or the thromboxane receptor antagonist BAYu3405 as well as by denudation of endothelium. In addition, LTB(4) increased the release of histamine and thromboxane in the bath. The contractions induced by LTB(4) were inhibited by either the unselective BLT receptor antagonist ONO-4057 or the selective BLT(1) receptor antagonist U-75302. Pretreatment with all-trans-retinoic acid enhanced the contractions and the release of histamine induced by LTB(4), without affecting either the contractions induced by histamine or the histamine release evoked by calcium ionophore A23187. Analysis by RT-PCR indicated the expression of a BLT(1) receptor in the guinea pig aorta and that BLT(1) receptor mRNA was upregulated after treatment with retinoic acid. These results suggest that LTB(4) contracts the guinea pig aorta via an indirect mechanism involving the release of histamine and thromboxane and that this BLT(1) receptor-mediated response can be upregulated by all-trans-retinoic acid.     

Functional role of M2 muscarinic receptors in the guinea pig ileum

Muscarinic agonists elicit contraction in the standard guinea pig ileum bioassay through activation of M3 muscarinic receptors that are also linked to phosphoinositide hydrolysis. Surprisingly, the most abundant muscarinic receptor in the ileum is the M2 which causes a specific inhibition of cyclic AMP accumulation elicited by the beta-adrenergic receptor. After most of the M3 receptors are inactivated, the ileum still retains high sensitivity to muscarinic agonists provided that the contractile responses are measured in the presence of histamine and forskolin, which together, have no effect on contraction. Under these conditions, the potencies of antagonists for blocking the contractile response are consistent with those expected for an M2 response. Moreover, the muscarinic contractile response measured in the presence of histamine and forskolin after inactivation of M3 receptors is pertussis toxin sensitive. In contrast, muscarinic contractions in the standard bioassay are pertussis toxin insensitive. These results demonstrate that the M2 muscarinic receptor can cause an indirect contraction of the guinea pig ileum by preventing the relaxing effect of agents that increase cAMP.     

5-Oxo-ETE regulates tone of guinea pig airway smooth muscle via activation of Ca2+ pools and Rho-kinase pathway

5-Oxo-6,8,11,14-eicosatetraenoic acid (5-oxo-ETE) is a proinflammatory mediator, but its effects on airway smooth muscle (ASM) have never been assessed. Tension measurements performed on guinea pig ASM showed that 5-oxo-ETE induced sustained concentration-dependent positive inotropic responses (EC50 = 0.89 microM) of somewhat lower amplitude than those induced by carbamylcholine and the thromboxane A2 (TXA2) agonist U-46619. Transient inotropic responses to 5-oxo-ETE were recorded in Ca2+-free medium, suggesting mobilization of intracellular Ca2+. Meanwhile, the sustained contraction, which required Ca2+ entry, was partially blocked by 1 microM nifedipine (an L-type Ca2+ channel blocker) but relatively insensitive to 100 microM Gd3+. The 5-oxo-ETE responses were also inhibited by indomethacin and SC-560 [a cyclooxygenase (COX-1) inhibitor] pretreatments but not by NS-398 (a selective COX-2 inhibitor). The contractile effects of 5-oxo-ETE on ASM were inhibited by the selective TXA2 receptor (TP receptor) antagonist SQ-29548 (-75%) and by 2-(p-amylcinnamoyl) amino-4-chlorobenzoic acid pretreatment, a phospholipase A2 inhibitor (-66%), suggesting that the major part of its effect is mediated by the release of TXA2. ASM responses to 5-oxo-ETE were also blocked by the Rho-kinase inhibitor Y-27632, which also partially inhibited the response to the TP receptor agonist U-46619, suggesting that the contractile response is due in part to Ca2+ sensitization of ASM cell myofilaments.     

Characterization of a high affinity binding site for pancreatic-type phospholipase A2 in the rat. Its cellular and tissue distribution.

We showed in an earlier study (Arita, H., Hanasaki, K., Nakano, T., Oka, S., Teraoka, H., and Matsumoto, K. (1991) J. Biol. Chem. 266, 19139-19141) that there is a high affinity and specific binding site for mammalian group I phospholipase A2 (PLA2-I) in Swiss 3T3 fibroblast cells. Analysis of the cellular distribution in rat using 125I-PLA2-I as a radioligand indicated the presence of this site in various cells, including vascular smooth muscle cells (VSMC), vascular endothelial cells, synovial cells, chondrocytes, and gastric mucosal cells. Scatchard analysis of rat VSMC revealed the existence of a single class of binding site with a Kd value of 1.60 nM and a Bmax value of 51.0 fmol/10(6) cells. The mammalian mature type of PLA2s-I derived from several animal species specifically recognized the same site in cells and stimulated DNA synthesis, whereas its inactive zymogen, mammalian group II PLA2s, and snake and bee venom PLA2s showed much lesser activities. 125I-PLA2-I bound to VSMC was rapidly internalized and subsequently released from the cells as trichloroacetic acid-soluble radioactivity. Down-regulation of the PLA2-I site was observed in the treatment of VSMC with cAMP-elevating agents, as well as glucocorticoids. Affinity labeling experiments indicated that PLA2-I binds to a single polypeptide with a mass of approximately 200,000 daltons. These results suggest a novel PLA2-I action on the cellular function via its specific binding site.