Interleukin-1beta, Src- and non-Src tyrosine kinases, and nitric oxide synthase induction in rat aorta in vitro

We studied the potential roles for endogenous interleukin-1beta (IL-1beta) and for several signaling pathways in the spontaneous induction in vitro of inducible nitric oxide synthase (iNOS) in endothelium-denuded rat aorta rings. Added IL-1beta augmented, whereas the IL-1beta receptor antagonist IL-1ra blocked, spontaneous iNOS induction. Furthermore, increases in IL-1beta mRNA preceded those of iNOS mRNA. Mitogen-activated protein kinase kinase and phosphatidyl inositol 3' kinase inhibition did not block iNOS induction, whereas nuclear factor kappaB inhibition did. The sarcoma virus tyrosine kinase (Src) family-selective inhibitor 4-amino-5(4-methylphenyl)-7-(t-butyl)pyrazolo[3,4-d]pyrimidine (PP1) blocked the upregulation of IL-1beta mRNA and the subsequent induction of iNOS but not the induction of iNOS stimulated by exogenously added IL-1beta. In contrast, the non-Src inhibitors TP 47/AG 213 and genistein and the tyrosine phosphatase inhibitor vanadate did not affect the spontaneous upregulation of IL-1beta mRNA but blocked both the IL-1beta-mediated and spontaneous induction of iNOS. We conclude that 1) the upregulation of tissue IL-1beta, via a signaling pathway involving a Src family kinase, plays a key role in rat vascular iNOS induction and 2) non-Src tyrosine kinases play roles downstream from IL-1beta for iNOS induction.     

Effect of tyrosine kinase inhibition on basal and epidermal growth factor-stimulated human Caco-2 enterocyte sheet migration and proliferation

Mucosal healing requires enterocyte migration (restitution) supplemented by proliferation. Proliferation and migration may be studied independently by thymidine uptake and proliferation-blocked cell migration using human Caco-2 enterocyte monolayers in culture. Since epidermal growth factor (EGF) promotes mucosal healing and the EGF receptor is a tyrosine kinase, we hypothesized that tyrosine kinases might therefore modulate enterocyte migration and proliferation. The tyrosine kinase inhibitors genistein and 2, 5-dihydroxymethylcinnamate, which block kinase ATP-binding and substrate-binding sites, respectively, were studied alone and with EGF. Proliferation was blocked with mitomycin. Although each inhibitor decreased basal and EGF-stimulated monolayer expansion when cell proliferation occurred, neither genistein nor 2, 5-dihydroxymethylcinnamate decreased migration when proliferation was blocked. However, each inhibitor prevented EGF stimulation of proliferation-blocked migration and thymidine uptake. More substantial inhibition of basal proliferation by genistein correlated with increased protein-linked DNA breaks, which may reflect nonspecific inhibition of DNA topoisomerase activity by genistein. The more specific 2,5-dihydroxymeth-ylcinnamate blocked changes in the α2 integrin subunit organization which may modulate EGF-stimulated migration. Antiproliferative effects of tyrosine kinase inhibitors decrease basal monolayer expansion but true basal enterocyte migration appears independent of tyrosine kinase regulation. However, a specific tyrosine kinase-dependent modulation of cell-matrix interaction inhibits EGF-stimulated migration. © 1994 Wiley-Liss, Inc.     

The Tyrosine Kinase Inhibitor Genistein Increases Endogenous Dopamine Release from Normal and Weaver Mutant Mouse Striatal Slices

Abstract: Protein tyrosine kinases that are known to have major roles in the control of cell growth and transformation are abundant and have numerous phosphoprotein substrates in the adult CNS. Although less well characterized than serine/threonine kinases, tyrosine kinases are also concentrated in the synapse. The effect of genistein, a selective inhibitor of tyrosine kinase activity, was examined on the in vitro release of endogenous dopamine (DA) from superfused mouse striatal slices. Fractional release of DA was significantly increased over basal release levels by genistein (100 and 200 µ M ). The effect was concentration dependent and rapidly reversible on washout of the kinase inhibitor. No significant change from basal release levels was observed with two structural analogues of genistein that do not inhibit tyrosine kinase activity at the same concentration. We have previously described alterations in basal and evoked DA release from the striatum of the weaver ( wv/wv ) mutant mouse, and genotypic differences in fractional release were also observed with genistein stimulation. The total evoked release was 25–50% greater from the wv/wv striatum. These results suggest a modulatory role for tyrosine kinase activity in neurotransmitter release and perhaps an alteration of kinase-regulated mechanisms in the DA-deficient wv/wv striatum.     

Endothelin-1 induces tyrosine phosphorylation in human blood monocytes

Mediators including the neuropeptide endothelin-1 (ET-1), which are released in response to injury, modulate the expression of cell adhesion molecules on leukocytes and endothelial cells. The mechanisms underlying this process are not clear. In this study we investigated the effect of endothelin-1 on the expression of tyrosine phosphorylated proteins in human blood monocytes. Endothelin-1 caused an increase in tyrosine phosphorylated proteins in monocytes in a time-dependent and dose-dependent manner, the Mr 60, 80 and 110 kDa proteins being the most prominent. This effect was blocked by pre-incubating the monocytes with the selective tyrosine kinase inhibitors genistein or herbimycin A. Endothelin-1-induced upregulation of tyrosine phosphorylated proteins appears to be mediated by the ET_Areceptor. Unlike our previously reported studies in endothelial cells, immunoprecipitation with anti-src or anti-JAK antibodies followed by immunoblotting with PY20 in human blood monocytes revealed that these proteins of Mr 60, 80 and 110 kDa were not related to src or JAK kinases. These findings suggest that ET-1 exerts its effect on monocytes by a pathway involving tyrosine kinases other than src or JAK kinases.     

Tyrosine kinase regulates phospholipase D activation at a point downstream from protein kinase C in osteoblast-like cells

It has recently been shown that the activation of protein kinase C (PKC) induces protein tyrosine phosphorylation in osteoblast-like MC3T3-E1 cells. We previously reported that the activation of PKC stimulates phosphatidylcholine-hydrolyzing phospholipase D in these cells. In this study, we examined whether protein tyrosine kinase is involved in the PKC-induced activation of phospholipase D in MC3T3-E1 cells. Genistein, an inhibitor of protein tyrosine kinases, which by itself had little effect on choline formation, significantly suppressed the formation of choline induced by 12-O-tetradecanoylphorbol-13-acetate (TPA), an activator of PKC, in a dose-dependent manner. Tyrphostin, an inhibitor of protein tyrosine kinases chemically distinct from genistein, also dose-dependently suppressed the TPA-induced formation of choline. Sodium orthovandate, an inhibitor of protein tyrosine phosphatases, significantly enhanced the TPA-induced formation of choline in a dose-dependent manner. These results strongly suggest that protein tyrosine kinase regulates phospholipase D activity at a point downstream from PKC in osteoblast-like cells.     

A Decrease of neuroprotective effect of ganglioside GM1 on PC12 cells under conditions of oxidative stress in the presence of inhibitor of tyrosine kinase of Trk-receptors

Effects of inhibitors of tyrosine kinases (K-252a, genistein) and of phospholipase A₂ (bromophenacyl bromide) on viability of PC12 cells are studied in the presence of hydrogen peroxide and ganglioside GM1. The degree of inhibition of hydrogen peroxide cytotoxic effects by ganglioside GM1 amounted to 52.8 ± 4.2%. However, in the presence in the medium of 0.1 and 1 μM inhibitors of tyrosine kinase of Trk-receptors (K-252a) it was as low as 32.7 ± 6.5% and 11.7 ± 9.8%, respectively. GM1 prevented Na⁺,K⁺-ATPase oxidative inactivation produced by H₂O₂, but in the presence of 1 μM K-252a this effect was practically not pronounced. In the presence of another inhibitor of tyrosine kinases-genistein, a tendency for a decrease of the GM1 protective effect was observed at its concentrations 0.1 and 1 μM, whereas at a higher concentration 10 μM, genistein depressed statistically significantly the GM1 neuroprotective effect. It was found that inhibitor of phospholipase A₂ bromophenacyl bromide did not affect the action of GM1 aimed at increasing the viability of cells under action of hydrogen peroxide on them. It seems that this enzyme is not involved in the cascade of reactions participating in realization of the ganglioside protective effect. Thus, inhibitor of tyrosine kinase of Trk-receptors K-252a decreases or practically prevents the ganglioside GM1 neuroprotective effect on PC12 cells under stress conditions; the same ability is characteristic of genistein—an inhibitor of tyrosine kinases of the wider spectrum of action.     

Involvement of host cell tyrosine phosphorylation in the invasion of HEp-2 cells by Bartonella bacilliformis

We have provided evidence that exposure of human cells to protein kinase inhibitors results in decreased invasion of these cells by Bartonella bacilliformis in a dose-dependent manner. Preincubation of human laryngeal epithelial cells in the presence of genistein, a tyrosine protein kinase inhibitor, decreased the invasion of these cells by B. bacilliformis significantly. Further, exposure of normal human umbilical vein endothelial cells to staurosporine, a potent inhibitor of protein kinase C and some tyrosine protein kinases, resulted in a considerable reduction in the number of organisms internalized by these cells. Moreover, Bartonella infection of HEp-2 cells induced tyrosine phosphorylation of several Triton X-100 soluble proteins with approximate molecular masses of 243, 215 179, 172 (doublet), 160, 145 and 110 kDa that were absent or reduced in the presence of genistein in cells after 1 h of infection. Exposure of HEp-2 cell monolayers to anti-alpha 5 and anti-beta 1 chain integrin monoclonal antibodies resulted in a moderate decrease in the invasion of these cells, suggesting a possible role of alpha 5 beta 1 integrins in the uptake of Bartonella into nucleated cells.     

Inhibition of protein tyrosine kinase activity disrupts early retinal development

In the present study, we have investigated the role of tyrosine kinase activity during early retinal development in Xenopus laevis. The protein tyrosine kinase (PTK) inhibitors lavendustin A and genistein were used to determine the possible role of tyrosine kinase activity during retinal development in vivo and in vitro. Application of the inhibitors to early embryonic retina disrupted the pattern of lamination in the developing retina. The plexiform layers were severely disorganized or were no longer apparent, and photoreceptor morphogenesis was disrupted. Immunocytochemical analysis verified the presence of focal adhesions in dissociated retinal neuroepithelial cells isolated from St 25 embryos. Application of the PTK inhibitors blocked focal adhesion assembly in these primary cultured cells. To further investigate the regulation of focal adhesions by PTK activity, we examined the effect of lavendustin A on cultured XR1 glial cells. Lavendustin A produced a dose-dependent decrease in the proportion of XR1 cells displaying focal adhesions. Taken together, these results suggest that tyrosine kinase activity is essential for regulating neuroepithelial cell adhesion, migration and morphogenesis during retinal development. Furthermore, the disruption of retinal development may, in part, be due to the inhibition of integrin-mediated signaling.     

Nitric Oxide Implication in the Control of Neurosecretion by Chromaffin Cells

Abstract: In this work, we have studied the effects of pure nitric oxide (NO) on the regulation of catecholamine (CA) secretion by chromaffin cells, as well as the possible presence of its synthesizing enzyme l -arginine:NO synthase (NOS) in these cells. Our results show that NO produces a large stimulation of basal CA secretion. This effect was calcium- and concentration-dependent (EC₅₀ = 64 ± 8 µ M ) and was not due to nonspecific damage of the tissue by NO. NO also modulates the CA secretion evoked by nicotine in a dose-dependent manner. Although it has a stimulatory effect on the CA secretion evoked by low doses of nicotine (<3 µ M ; EC₅₀ = 16 ± 3 µ M ), it produces a dose-dependent inhibition of the CA secretion induced by high doses of nicotine (≥30 µ M ; IC₅₀ = 52 ± 6 µ M ). The mechanism by which NO modulates CA secretion seems to be through the increase in the cyclic GMP levels, because there was a close correlation between the CA secretion and the cyclic GMP levels. The presence of a specific activity of NOS in chromaffin cells has been demonstrated by two independent methods: release of [¹⁴C]citruiline from [¹⁴C]arginine and formation of an NO-hemoglobin complex. NOS activity was about 0.5 pmol/min/mg of protein. It was calcium- and mainly calmodulin-dependent and could be specifically blocked by the NOS inhibitor N -methyl- l -arginine. These results suggest that NO could be an important intracellular messenger in the regulation of neurosecretion in chromaffin cells.     

Genistein inhibits Ca2+ influx and glutamate release from hippocampal synaptosomes: putative non-specific effects

The role of protein tyrosine kinases on glutamate release was investigated by determining the effect of broad range inhibitors of tyrosine kinases on the release of glutamate from rat hippocampal synaptosomes. We found that lavendustin A and herbimycin A did not inhibit glutamate release stimulated by 15 mM KCl, but genistein, also a broad range inhibitor of tyrosine kinases did inhibit the intracellular Ca(2+) concentration response to KCl and, concomitantly, decreased glutamate release evoked by the same stimulus, in a dose-dependent manner. These effects were not observed with the inactive analogue genistin. Therefore, we investigated the mechanism whereby genistein modulates Ca(2+) influx and glutamate release. Studies with voltage-gated Ca(2+) channel inhibitors showed that omega-conotoxin GVIA did not further inhibit glutamate release or the Ca(2+) influx stimulated by KCl in the presence of genistein. This tyrosine kinase inhibitor and omega-agatoxin IVA had a partially additive effect on those events. Nitrendipine did not reduce significantly the KCl-induced responses. Genistein further reduced Ca(2+) influx in response to KCl in the presence of nitrendipine, omega-conotoxin GVIA and omega-agatoxin IVA, simultaneously. The effect of tyrosine phosphatase inhibitors was also tested on the influx of Ca(2+) and on glutamate release stimulated by KCl-depolarization. We found that the broad range inhibitors sodium orthovanadate and dephostatin did not significantly affect these KCl-evoked events.Our results suggest that genistein inhibits glutamate release and Ca(2+) influx in response to KCl independently of tyrosine kinase inhibition, and that tyrosine kinases and phosphatases are not key regulators of glutamate release in hippocampal nerve terminals.     

Tyrosine kinase-dependent calcium signaling in airway smooth muscle cells

Contractile agonists may stimulate mitogenic responses in airway smooth muscle by mechanisms that involve tyrosine kinases. The role of contractile agonist-evoked activation of tyrosine kinases in contractile signaling is not clear. We addressed this issue using cultured rat airway smooth muscle cells. In these cells, serotonin (5-HT, 1 microM) caused contraction (quantitated by a decrease in cell area), which was blocked by the tyrosine kinase inhibitor genistein (40 microM). Genistein and tyrphostin 23 (40 and 10 microM, respectively) significantly decreased 5-HT-evoked peak Ca(2+) responses, and the effect of genistein could be observed in the absence of extracellular Ca(2+). The specific inhibitor of mitogen-activated protein kinase kinase PD-98059 (30 microM) had no significant effect on peak Ca(2+) levels. Western analysis of cell extracts revealed that 5-HT caused a significant increase in tyrosine phosphorylation of proteins with molecular masses of approximately 70 kDa within 10 s of stimulation but no measurable tyrosine phosphorylation of the gamma isoform of phospholipase C (PLC-gamma). Tyrosine phosphorylation was inhibited by genistein. Furthermore, genistein (40 microM) significantly attenuated 5-HT-induced inositol phosphate production. We conclude that in airway smooth muscle contractile agonists acting on G protein-coupled receptors may activate tyrosine kinase(s), which in turn modulate calcium signaling by affecting, directly or indirectly, PLC-beta activity. It is unlikely that PLC-gamma or the mitogen-activated protein kinase pathway is involved in Ca(2+) signaling to 5-HT.     

Genistein and erbstatin inhibition of normal mammary epithelial cell proliferation is associated with EGF-receptor down-regulation

Epidermal growth factor (EGF) is a potent mitogen for normal mouse mammary epithelial cells grown in primary culture. EGF activation of the EGF-receptor (EGF-R) induces intrinsic tyrosine kinase activity which results in EGF-R autophosphorylation and tyrosine phosphorylation of other intracellular substrates involved in EGF-R signal transduction. Genistein and erbstatin are anticancer agents which have been shown to be potent tyrosine kinase inhibitors. However, the effects of these compounds in modulating EGF-dependent normal mammary epithelial cell proliferation is presently unknown. Therefore, studies were conducted to determine the effects of genistein and erbstatin on EGF-dependent proliferation, and EGF-R levels and autophosphorylation in normal mouse mammary epithelial cells grown in primary culture and maintained in serum-free media. Chronic treatment with 6.25–100 μM genistein or 1–16 μM erbstatin significantly decreased EGF-dependent mammary epithelial cell proliferation in a dose-responsive manner. However, the highest doses of genistein (100 μM ) and erbstatin (16 μM ) were found to be cytotoxic. Additional studies showed that acute treatment with 6.25–400 μM genistein did not affect EGF-R levels or EGF-induced EGF-R autophosphorylation, while acute treatment with 1–64 μM erbstatin caused a slight reduction in EGF-R levels, but had no effect on EGF-dependent EGF-R autophosphorylation in these cells. In contrast, chronic treatment with similar doses of genistein or erbstatin resulted in a large dose-responsive decrease in EGF-R levels, and a corresponding decrease in total cellular EGF-R autophosphorylation intensity. These results demonstrate that the inhibitory effects of chronic genistein and erbstatin treatment on EGF-dependent mammary epithelial cell proliferation is not due to a direct inhibition of EGF-R tyrosine kinase activity, but results primarily from a down-regulation in EGF-R levels and subsequent decrease in mammary epithelial cell mitogenic-responsiveness to EGF stimulation.     

Angiotensin II induces MMP 2 activity via FAK/JNK pathway in human endothelial cells

Matrix metalloproteinases (MMPs) play an important role in the pathogenesis of cardiovascular diseases and are modified in response to a variety of stimuli such as bioactive peptides, cytokines and/or grown factors. In this study, we demonstrated that angiotensin II (Ang II) induces a time- and dose-dependent increase in the activity of metalloproteinase 2 (MMP 2) in human umbilical vein endothelial cells (HUVEC). The effect of Ang II was markedly attenuated in cells pretreated with wortmannin and LY294002, two selective inhibitors of phosphatidylinositol-3-kinase (PI3K), indicating that PI3K plays a key role in regulating MMP 2 activity. Similar results were observed when HUVEC were pretreated with genistein, a non-selective tyrosine kinases inhibitor, or with the specific Src-family tyrosine kinase inhibitor PP2, demonstrating the involvement of protein tyrosine kinases, and particularly Src-family tyrosine kinases on the downstream signaling pathway of Ang II receptors. Furthermore, Ang II-induced MMP 2 activation was markedly blocked by SP600125, a selective c-Jun N-terminal kinase (JNK) inhibitor, or pre-treatment of cells with antisense oligonucleotide to focal adhesion kinase (FAK), indicating that both molecules were important for the activation of MMP 2 by Ang II receptor stimulation. In conclusion, these results suggest that Ang II mediates an increase in MMP 2 activity in macrovascular endothelial cells through signal transduction pathways dependent on PI3K and Src-family tyrosine kinases activation, as well as JNK and FAK phosphorylation.     

Protein kinase implication in prolactin signaling in bovine oocyte-cumulus complexes

The mechanisms of prolactin signal transduction in generative and somatic cells of mammalian ovarian follicles are poorly understood. In this work, participation of tyrosine kinases and protein kinase C in mediation of the previously revealed modulating effects of prolactin on the nuclear maturation of bovine oocytes and the morphologic and functional state of surrounding cumulus cells in vitro has been investigated. It was found that a tyrosine kinase inhibitor genistein suppresses the stimulating action of prolactin on the completion of oocyte nuclear maturation and cumulus expansion, whereas a protein kinase C inhibitor calpostin C does not affect the hormonal effect. Furthermore, both genistein and calpostin C inhibited the inducing influence of prolactin on the proliferative activity of cumulus cells. At the same time, the retarding action of prolactin on destructive processes in cumulus cells was blocked only in the presence of calpostin C. These results show that the stimulating influence of prolactin on oocyte nuclear maturation accompanied by cumulus expansion is achieved with participation of tyrosine kinases, whereas the modulating action of the hormone on the functional state of cumulus cells depends on activation both of tyrosine kinases and protein kinase C.     

Regulation of the nitric oxide synthase-nitric oxide-cGMP pathway in rat mesenteric endothelial cells.

Most of the available data on the nitric oxide (NO) pathway in the vasculature is derived from studies performed with cells isolated from conduit arteries. We investigated the expression and regulation of components of the NO synthase (NOS)-NO-cGMP pathway in endothelial cells from the mesenteric vascular bed. Basally, or in response to bradykinin, cultured mesenteric endothelial cells (MEC) do not release NO and do not express endothelial NOS protein. MEC treated with cytokines, but not untreated cells, express inducible NOS (iNOS) mRNA and protein, increase nitrite release, and stimulate cGMP accumulation in reporter smooth muscle cells. Pretreatment of MEC with genistein abolished the cytokine-induced iNOS expression. On the other hand, exposure of MEC to the microtubule depolymerizing agent colchicine did not affect the cytokine-induced increase in nitrite formation and iNOS protein expression, whereas it inhibited the induction of iNOS in smooth muscle cells. Collectively, our findings demonstrate that MEC do not express endothelial NOS but respond to inflammatory stimuli by expressing iNOS, a process that is blocked by tyrosine kinase inhibition but not by microtubule depolymerization.     

Involvement of protein tyrosine kinases and phosphatases in uptake and intracellular replication of virulent and avirulent Leishmania donovani promastigotes in mouse macrophage cells

In this study we show that protein tyrosine kinases (PTKs) and also protein tyrosine phosphatases are involved in the uptake of virulent and avirulent Leishmania donovani promastigotes by macrophage cells. Protein tyrosine kinase inhibitors such as genistein or tyrphostin 25 decrease parasite uptake in a dose-dependent manner. Addition of sodium orthovanadate, a protein tyrosine phosphatase inhibitor, prior to infection significantly increases parasite internalization. A similar uptake profile was observed with both virulent and avirulent L. donovani promastigotes. Treatment of macrophages with cytochalasin B, an inhibitor of actin polymerization prevents promastigote uptake, indicating that a tyrosine kinase induced actin polymerization signal may be necessary for the entry of the parasites. In contrast, neither genistein nor tyrphostin significantly reduce intracellular replication of this pathogen or nitric oxide production, suggesting that the PTK-mediated signal is not related to the ultimate virulence mechanism associated with intracellular replication of this pathogen. These data collectively suggest that protein tyrosine kinase mediated entry of L. donovani promastigotes into macrophages is not a virulence-associated event.     

Oncostatin M stimulates the growth of dermal fibroblasts via a mitogen-activated protein kinase-dependent pathway

Oncostatin M (OSM), a member of the hemopoietic cytokine family, has been implicated in the process of fibrosis and dermal wound healing. As a part of an ongoing study of the mechanisms of fibrosis and dermal wound healing, we have investigated the mechanism of the growth regulation of dermal fibroblasts by OSM. OSM stimulates the mitogenesis of dermal fibroblasts in a dose-dependent manner. This effect was completely blocked by anti-OSM IgG, but not by anti-IL-6 IgG. Furthermore, OSM induction was abolished by genistein, a tyrosine kinase inhibitor, or by PD98059, a specific mitogen-activated protein (MAP) kinase pathway inhibitor, but not by calphostin C, a protein kinase C inhibitor. Immunoblotting analysis using a specific Ab against phosphorylated MAP kinase (Thr202/Tyr204) showed that OSM induces phosphorylation of MAP kinase in dermal fibroblasts. Furthermore, transient transfection of the dominant-negative mutant MAP kinase into dermal fibroblasts abolished the OSM induction. These results strongly suggest that OSM stimulates the growth of dermal fibroblasts via a MAP kinase-dependent pathway.     

The Naturally Occurring PKC Inhibitor Sphingosine and Tumor Promoter Phorbol Ester Potentially Induce Tyrosine Phosphorylation/Activation of Oncogenic Proline-Directed Protein Kinase FA/GSK-3α in a Common Signalling Pathway

When serum-starved A431 cells were treated with 200 nM phorbol ester TPA for 15 min, the cellular activity of protein kinase F_A/glycogen synthase kinase-3α (kinase F_A/GSK-3α) could be decreased to ~25% of control. Conversely, when treated with 1 μM TPA for 24 hr, the activity could be reversibly increased to ~200% of Control. The naturally occurring protein kinase C (PKC) inhibitor sphingosine at a concentration of 27 μM could also induce activation of kinase F_A/GSK-3α to ~200% of control within 60 min. Further, when cells were chronically treated with 1 μM TPA for 24 hr and then with 27 μM sphingosine for 60 min, the activity of kinase F_A/GSK-3α could only be increased to ~200% of control. Furthermore, when cells were pretreated with sphingosine and then acutely treated with TPA, the acute TPA effect on kinase F_A/GSK-3α activity could be abolished by genistein or tyrosine phosphorylation, which could be blocked by genistein or tyrosine phosphatase, but could be reversed by orthovanadate. Taken together, the results demonstrate that TPA/sphingosine induce tyrosine phosphorylation and concurrent activation of kinase F_A/GSK-3α in a common signalling pathway. Since TPA and sphingosine are potent PKC modulators, the results further suggest a potential role of PKC in modulating tyrosine phosphorylation/activation of kinase F_A/GSK-3α. Kinetic studies on seven subtypes of PKC further demonstrate a specific involvement of PKC∈ in this tyrosine phosphorylation/activation process. This provides a new mode of signal transduction between these two important serine/threonine kinases in cells.     

Effects of tyrosine kinase inhibitors on voltage-dependent Ba(2+) currents in the guinea-pig gastric antrum.

We have investigated whether tyrosine kinases modify the activity of voltage-dependent Ba(2+) currents (I(Ba)) recorded from guinea-pig gastric myocytes by use of patch-clamp techniques. All experiments were carried on single smooth muscle cells, dispersed from the circular layer of the guinea-pig gastric antrum. Genistein ( > or = 10 microM), a specific tyrosine kinase inhibitor, reduced the peak amplitude of I(Ba) in a voltage- and concentration-dependent manner. Daidzein ( > or = 30 microM), an inactive analog of genistein, also inhibited I(Ba) in a concentration-dependent manner. Similarly, other types of tyrosine kinase inhibitors (lavendustin A and tyrphostin 23) suppressed the peak amplitude of I(Ba) in a concentration-dependent manner. These results indicate that tyrosine kinases may be essential to regulate Ca(2+) mobilization through voltage-dependent Ca(2+) channels in gastric myocytes.