CD14, a key candidate gene associated with a specific immune response to cockroach.

BACKGROUND: Sensitization to cockroach allergen is one of the strongest predictors of asthma morbidity, especially among African Americans. OBJECTIVE: Our aims were to determine the genomic basis of cockroach sensitization and the specific response to cockroach antigen. METHODS: We investigated the Th1/Th2 cytokine profile of co-cultured plasmacytoid dendritic cells (pDCs) and CD4+ T cells and the 'transcript signature' of the immune response to cockroach antigen using high-throughput expression profiling of co-cultured cells. RESULTS: We observed significantly elevated levels of IL-13, IL-10, and TNF-alpha, but undetectable levels of IL-12p70 and IFN-alpha, when cultures were exposed to crude cockroach antigen. A significant difference was observed for IL-13 between cockroach-allergic and non-allergic individuals (P=0.039). Microarray analyses demonstrated a greater response at 48 h compared with 4 h, with 50 genes being uniquely expressed in cockroach antigen-treated cells, including CD14, S100A8, CCL8, and IFI44L. The increased CD14 expression was further observed in purified pDCs, human monocytic THP-1 cells, and the supernatant of co-cultured pDCs and CD4+ T cells on exposure to cockroach extract. Furthermore, the most differential expression of CD14 between cockroach allergy and non-cockroach allergy was only observed among individuals with the CC 'high-risk' genotype of the CD14-260C/T. Ingenuity Pathways Analysis analyses suggested the IFN signalling as the most significant canonical pathway. CONCLUSION: Our results suggest that these differentially expressed genes, particularly CD14, and genes in the IFN signalling pathway may be important candidates for further investigation of their role in the immune response to cockroach allergen.

Genomic profiling of kidney ischemia-reperfusion reveals expression of specific alloimmunity-associated genes: Linking "immune" and "nonimmune" injury events.

Increased organ ischemia time leads to delayed graft function (DGF), increased acute rejection (AR), enhanced chronic allograft nephropathy (CAN), and reduced long-term allograft survival. The mechanisms by which IRI predisposes to AR and CAN are unknown. We hypothesized that gene expression profiling of ischemia-reperfusion injury (IRI)-affected kidney would identify how IRI predisposes to AR and CAN. Furthermore, we examined how current immunosuppressive drug molecular targets are altered by IRI. C57BL/6J mice were exposed to 30 (n = 3) or 60 (n = 3) minutes of bilateral kidney ischemia or sham surgery (n = 5). At 36 hour kidney tissue was collected and analyzed using Affymetrix 430MOEA (22626 genes) array and GC-RMA-SAM pipeline. Genes with the false discovery rate (q < 1%) and +/-50% fold change (FC) were considered affected by IRI. Genes coding for histocompatibility and antigen-presenting factors, calcineurin, and mammalian target of rapamycin (mTOR) pathway-associated proteins were selected using Gene Ontology (GO) analysis. GO analysis identified 10 and 17 alloimmunity-related genes affected by IRI induced by 30 and 60 minutes of ischemia, respectively, including Traf6 (FC = 2.99) and H2-D1 (FC = 2.58). We also detected significant IRI genomic responses in calcineurin and mTOR pathways represented by Fkbp5 (FC = 4.18) and Fkbp1a (FC = 2.0), and Eif4ebp1 (FC = 16.8) and Akt1 (FC = 3.64), respectively. These data demonstrated that IRI up-regulates expression of several alloimmunity-associated genes, which can in turn enhance alloimune responses. Our discovery of IRI-induced up-regulation of genes associated with calcineurin and mTOR pathways are consistent with clinical observations that FK506 and Rapamycin can alter the course of DGF. Further validation and dissection of these pathways can lead to novel approaches by which improved management of early "nonimmune" transplant events can decrease susceptibility to more classic "immune" changes and CAN.

Antiandrogenic effects of novel androgen synthesis inhibitors on hormone-dependent prostate cancer.

We have found that in addition to being potent inhibitors of 17alpha-hydroxylase/C17,20-lyase and/or 5alpha-reductase, some of our novel androgen synthesis inhibitors also interact with the mutated androgen receptor (AR) expressed in LNCaP prostate cancer cells and the wild-type AR expressed in hormone-dependent prostatic carcinomas. The effects of these compounds on the proliferation of hormone-dependent human prostatic cancer cells were determined in vitro and in vivo. L-2 and L-10 are delta4-3-one-pregnane derivatives. L-35 and L-37 are delta5-3beta-ol-androstane derivatives, and L-36 and L-39 are delta4-3-one-androstane-derived compounds. L-2, L-10, and L-36 (L-36 at low concentrations) stimulated the growth of LNCaP cells, indicating that they were interacting agonistically with the mutated AR expressed in LNCaP cells. L-35, L-37, and L-39 acted as LNCaP AR antagonists. To determine whether the growth modulatory effects of our novel compounds were specific for the mutated LNCaP AR, competitive binding studies were performed with LNCaP cells and PC-3 cells stably transfected with the wild-type AR (designated PC-3AR). Regardless of AR receptor type, all of our novel compounds were effective at preventing binding of the synthetic androgen methyl-trienolone[17alpha-methyl-(3H)-R1881 to both the LNCaP AR and the wildtype AR. L-36, L-37, and L-39 (5.0 microM) prevented binding by >90%, whereas L-35 inhibited binding by 30%. To determine whether the compounds were acting as agonists or antagonists, LNCaP cells and PC-3AR cells were transfected with the pMAMneoLUC reporter gene. When luciferase activity was induced by dihydrotestosterone, all of the compounds were found to be potent inhibitors of transcriptional activity, and the pattern of inhibition was similar for both receptor types. However, L-2, L-10, and L-36 were determined to be AR agonists, and L-35, L-37, and L-39 were wild-type AR antagonists. When tested in vivo, L-39 was the only AR antagonist that proved to be effective at inhibiting the growth of LNCaP prostate tumor growth. L-39 slowed tumor growth rate in LNCaP tumors grown in male SCID mice to the same level as orchidectomy, significantly reduced tumor weights (P < 0.05), significantly lowered serum levels of prostate-specific antigen (P < 0.02), and significanty lowered serum levels of testosterone (P < 0.05). L-39 also proved to be effective when tested against the PC-82 prostate cancer xenograft that expresses wild-type AR. These results show that some of our compounds initially developed to be inhibitors of androgen synthesis also interact with the human AR and modulate the proliferation of hormone-dependent prostatic cancer cells. Therefore, compounds such as L-39, which have multifunctional activities, hold promise for the treatment of androgen-dependent prostate tumors.

Anti-tumour effects and pharmacokinetic profile of 17-(5'-isoxazolyl)androsta-4,16-dien-3-one (L-39) in mice: an inhibitor of androgen synthesis.

17-(5'-Isoxazolyl)androsta-4,16-dien-3-one (L-39), a novel androstene derivative, was synthesized and evaluated in vitro and in vivo. L-39 showed potent and non-competitive inhibition of human testicular microsomal 17alpha-hydroxylase/C(17,20)-lyase with an IC50 value of 59 nM and Ki of 22 nM. L-39 also showed potent and competitive inhibition of 5alpha-reductase in human prostatic microsomes with IC50 and Ki values of 33 and 28 nM respectively. L-39 (5 microM) has also been shown to manifest anti-androgenic activity in cultures of human prostate cancer cell lines (LNCaP) by preventing the labelled synthetic androgen R1881 (5 nM) from binding to the androgen receptors. Androgen-dependent human prostate cancer xenografts (PC-82) were grown in nude mice and the effects of L-39 (50 mg kg(-1) day(-1)) on tumour growth and prostate-specific antigen (PSA) levels were determined after 28 days. L-39 significantly (P < 0.01) diminished tumour growth and wet weights to a similar extent as castration or flutamide treatment. L-39 also significantly (P < 0.01) reduced serum PSA levels by more than 80% in the mice bearing human prostate cancer xenografts. Pharmacokinetic studies were also conducted in male Balb/c mice. After subcutaneous administration of a single bolus dose, L-39 was rapidly absorbed into the systemic circulation. Peak plasma levels occurred at 0.75 h and then declined with a t(1/2) of 1.51 h. The bioavailability of L-39 after subcutaneous administration was 28.5%. These results demonstrate that L-39 is a potent inhibitor of androgen synthesis and is effective in reducing the growth of human prostate cancer xenografts in nude mice. Although improvements in the bioavailability are necessary, L-39 is a potential lead compound with this profile as an inhibitor of prostate cancer growth.

Pregnenolone stimulates LNCaP prostate cancer cell growth via the mutated androgen receptor.

Pregnenolone (P(5)), a common precursor of many steroids, is present in the blood of normal adult men at concentrations of 1-3 nM. In vitro, P(5) was found to stimulate LNCaP-cell proliferation 7-8-fold at a physiological concentration (2 nM), and 3-4-fold at a subphysiological concentration (0.2 nM). Growth stimulation at the 2-nM concentration was comparable with that of the androgen, dihydrotestosterone at its physiological concentration (0.5 nM; 9-10-fold increase in cell number). To determine whether P(5) or its metabolites were mediating this growth response, LNCaP cells were incubated with [3H]P(5) and high-performance liquid chromatography (HPLC) was performed. After a 48-h exposure, two unidentified metabolites were detected. Although, the P(5) metabolites slightly increased LNCaP-cell growth in vitro, their effect was significantly less than P(5) alone, suggesting that the growth stimulation was mediated by P(5) itself. We further showed that P(5) sustained its proliferative activity in vivo and stimulated the growth of LNCaP-tumor xenografts in intact male SCID mice as well as in castrated animals. In order to determine whether P(5) was binding to a specific site in LNCaP cells, receptor binding studies were performed. Scatchard analysis predicted for a single class of binding sites with K(d)=1.4 nM. Studies were performed to determine the effects of P(5) on transcription mediated by wild-type and LNCaP androgen receptors. P(5) was shown to activate transcription through the LNCaP androgen receptor (AR), but not the wild-type AR. This implies that P(5) most likely stimulates LNCaP-cell proliferation through binding to the cellular mutated AR present in LNCaP cells. We have also demonstrated that drugs designed to be antagonists of the androgen, progesterone and estrogen receptors, and one of our novel compounds designed to be an inhibitor of androgen synthesis, were potent inhibitors of the AR-mediated transcriptional activity induced by P(5), and were able to inhibit LNCaP-cell proliferation. These findings suggest that some prostate cancer patients who appear to become hormone-independent may have tumors which are stimulated by P(5) via a mutated AR and that these patients could benefit from treatment with antiestrogens, antiprogestins, or with some of our novel androgen synthesis inhibitors.

The effect of combining aromatase inhibitors with antiestrogens on tumor growth in a nude mouse model for breast cancer.

We have previously established a model for postmenopausal, hormone-dependent breast cancer in nude mice which is responsive to both antiestrogens and aromatase inhibitors. In this model, MCF-7 human breast carcinoma cells transfected with the aromatase gene (MCF-7CA) synthesize sufficient estrogen to form tumors in ovariectomized nude mice. In the present study we used this intratumoral aromatase model to investigate the effects on tumor growth of the new nonsteroidal aromatase inhibitors letrozole (CGS 20,267) and anastrozole (ZD 1033) and the antiestrogens tamoxifen (ICI 47,474) and faslodex (ICI 182,780). Furthermore, we determined whether the inhibition of estrogen synthesis together with inhibition of estrogen action would be more effective in controlling breast tumor growth. The results of our studies indicate that the aromatase inhibitors anastrozole and letrozole, as well as the new pure antiestrogen faslodex, have potent antitumor effects in the mouse model. In the treatment of mice with mammary tumors, letrozole was more effective in suppressing tumor growth than anastrozole. This was consistent with the Ki values of these inhibitors against placental aromatase and the IC50 values in cell culture (MCF-7CA), which indicated the greater potency of letrozole as an aromatase inhibitor. Letrozole also had greater antitumor effects than tamoxifen and faslodex. The antitumor effect of letrozole was substantial, making it difficult to detect any additional effect on the tumors when letrozole was combined with the antiestrogens. However, the combined treatment of anastrozole + tamoxifen and anastrozole + faslodex also did not increase efficacy compared to the aromatase inhibitor alone. In addition, combining the two antiestrogens did not suppress tumor growth more effectively than faslodex alone. Our results show that treatment with the combinations of aromatase inhibitors with either tamoxifen or faslodex are not more effective in blocking estrogen stimulation of tumor growth than the aromatase inhibitors alone.

Effects of new 17alpha-hydroxylase/C(17,20)-lyase inhibitors on LNCaP prostate cancer cell growth in vitro and in vivo.

Our laboratory has been developing new inhibitors of a key regulatory enzyme of testicular and adrenal androgen synthesis 17alpha-hydroxylase/C(17,20)-lyase (P450c17), with the aim of improving prostate cancer treatment. We designed and evaluated two groups of azolyl steroids: delta5-non-competitive inhibitors (delta5NCIs), VN/63-1, VN/85-1, VN/87-1 and their corresponding delta4 derivatives (delta4NCIs), VN/107-1, VN/108-1 and VN/109-1. The human P450c17 gene was transfected into LNCaP human prostate cancer cells, and the resultant LNCaP-CYP17 cells were utilized to evaluate the inhibitory potency of the new azolyl steroids. VN/85-1 and VN/108-1 had the lowest IC50 values of 1.25 +/- 0.44 nM and 2.96 +/- 0.78 nM respectively, which are much lower than that of the known P450 inhibitor ketoconazole (80.7 +/- 1.8 nM). To determine whether the compounds had direct actions on proliferation of wild-type LNCaP cells, cell growth studies were performed. All of the delta5NCIs and VN/108-1 blocked the growth-stimulating effects of androgens. In steroid-free media, the delta5NCIs decreased the proliferation of LNCaP cells by 35-40%, while all of the delta4NCIs stimulated LNCaP cells growth 1.5- to 2-fold. In androgen receptor (AR) binding studies, carried out to determine the mechanism of this effect, all of the delta4NCIs (5 microM) displaced 77-82% of synthetic androgen R1881 (5 nM) from the LNCaP AR. The anti-androgen flutamide and the delta5NCIs displaced 53% and 32-51% of R1881 bound to AR respectively. These results suggested that the delta5NCIs may also be acting as anti-androgens. We further evaluated our inhibitors in male severe combined immunodeficient mice bearing LNCaP tumour xenografts. In this model VN/85-1 was as effective as finasteride at inhibiting tumor growth (26% and 28% inhibition, respectively) and the inhibitory effect of VN/87-1 was similar to that of castration (33% and 36% inhibition respectively). These results suggest that VN/85-1 and VN/87-1 may be potential candidates for treatment of prostate cancer.

Cytochrome P450c17-expressing Escherichia coli as a first-step screening system for 17alpha-hydroxylase-C17,20-lyase inhibitors.

We have designed and synthesized a number of cytochrome P450 17alpha-hydroxylase-C17,20-lyase (P450c17) inhibitors with the aim of inhibiting androgen synthesis. To select the most potent inhibitors, we initially used human testicular microsomes, which have a high level of expression of this enzyme. However, due to lack of availability of human tissue and variability among the samples, we utilized recombinant human enzyme expressed in Escherichia coli. We designed a simple and economical protocol based on the report that recombinant bovine P450c17 can be functionally active in live bacteria. In the assay we report here, we substituted high-performance liquid chromatography product isolation with a rapid biochemical acetic acid releasing assay and utilized intact P450c17-expressing E. coli for the source of the enzyme. Enzymatic parameters of the bacterial system (Km = 5.1 x 10(-7) M, Vmax = 15.0 pmol/min/mg) were similar to those of human testicular microsomes (Km = 4.8 x 10(-7) M, Vmax = 40.0 pmol/min/mg), and our compounds displayed a similar pattern of inhibition in both systems. This new system is a fast, reliable, and reproducible method for screening P450c17 inhibitors. Furthermore, it eliminates our dependence on human tissue and potential data fluctuations caused by variations in enzymatic activity between donors.

Novel 17-azolyl steroids, potent inhibitors of human cytochrome 17 alpha-hydroxylase-C17,20-lyase (P450(17) alpha): potential agents for the treatment of prostate cancer.

A new synthetic route to a variety of novel delta 16-17-azolyl steroids is described: it involves the nucleophilic vinylic "addition-elimination" substitution reaction of 3 beta-acetoxy-17-chloro-16-formylandrosta-5,16-diene (2) and azolyl nucleophiles. Some of these novel delta 16-17-azolyl steroids, 6, 17, 19, and 27-29, prepared in good overall yields, are very potent inhibitors of human and rat testicular P450(17) alpha. They are shown to be noncompetitive and appear to be slow-binding inhibitors of human P450(17) alpha. The most potent compounds are 3 beta-hydroxy-17-(1H-imidazol-1-yl)androsta-5,16-diene (17), 3 beta-hydroxy-17-(1H-1,2,3-triazol-1-yl)androsta-5,-16-diene (19), and 17-(1H-imidazol-1-yl)androsta-4,16-dien-3-one (28), with Ki values of 1.2, 1.4, and 1.9 nM, respectively, being 20-32 times more potent than ketoconazole (Ki = 38 nM). Spectroscopic studies with a modified form of human P450(17) alpha indicate that the inhibition process involves binding of steroidal azole nitrogen to the heme iron of the enzyme. Furthermore, some of these potent P450(17) alpha inhibitors (27-29) are also powerful inhibitors of steroid 5 alpha-reductase, and others (17 and 19) appear to exhibit strong antiandrogenic activity in cultures of the LNCaP human prostatic cancer cell line. These novel compounds with impressive dual biological activities make them strong candidates for development as therapeutic agents for treatment of prostate cancer and other disease states which depend on androgens.

The steroidal antiestrogen ICI 182,780 is an inhibitor of cellular aromatase activity.

Two types of endocrine therapy that have been successfully applied to patients with hormone-dependent breast cancer are the non-steroidal antiestrogen tamoxifen, and inhibitors of aromatase, the enzyme that synthesizes estrogens. The major drawback with tamoxifen is that it acts as a partial estrogen-agonist and this is believed to mediate, at least in part, acquired tumor resistance to the drug as well as endometrial hyperplasia and carcinoma in some patients. The newer and more potent antiestrogen ICI 182,780 is a steroidal molecule that is devoid of estrogenic activity. We now report that ICI 182,780 is also an inhibitor of aromatase activity in fibroblasts isolated from the normal human breast as well as other carcinoma cell lines that express aromatase (MCF-7Ca breast cancer and JEG-3 choriocarcinoma). ICI 182,780 (1 microM) did not affect aromatase activity levels in human placental microsomes and only inhibited aromatase activity in each of the cell lines following a prolonged incubation period. In the fibroblasts, inhibition of aromatase activity by ICI 182,780 was shown to be time and dose-dependent. In contrast, tamoxifen and 17beta-estradiol were shown to have no effect on aromatase activity levels. ICI 182,780 inhibited aromatase activity levels with IC50 values of 16.80 nM in MCF-7Ca cells, 125.50 nM in JEG-3 cells and 386.1 nM in breast fibroblasts. These values were compared to those for known aromatase inhibitors, and in each of the cell lines the order of potency was letrozole>4-OHA>anastrozole>ICI 182,780. The inhibition of aromatase activity by ICI 182,780 was sustained even after the antiestrogen was removed from the cells indicating that ICI 182,780 may be remaining bound to the enzyme. Although ICI 182,780 had no effect on the proliferation of the fibroblasts, or JEG-3 cells, it significantly inhibited the growth of MCF-7Ca cells. This growth inhibition appeared to be due to the antiestrogenic activity of ICI 182,780 and not to its aromatase inhibiting effects. ICI 182,780 did not inhibit aromatase activity by down-regulating levels of the aromatase transcript. These results show that in addition to being a potent antiestrogen, ICI 182,780 is also an inhibitor of cellular aromatase activity, and suggest that by interfering with the actions of estrogen by two distinct mechanisms, ICI 182,780 may be a suitable drug for treating patients with hormone-dependent breast cancer.

Refining the treatment of women with unstable angina--a randomized, double-blind, comparative safety and efficacy evaluation of Integrelin versus aspirin in the management of unstable angina.

BACKGROUND: Although women typically develop coronary artery disease several years after men, once they have symptomatic disease their thromboembolic complications are worse than in men. The mechanism mediating this gender difference in outcome after thromboembolic events is unknown. We previously studied platelet functions in siblings from patients with premature coronary artery disease. We observed that platelets from women are responsive than their male counterparts. In particular, platelets from women stimulated ex vivo with various agonists bind more fibrinogen molecules than platelets from men. HYPOTHESIS: We hypothesized that in patients with acute coronary events, the control of platelet activity might require stronger antagonists in women than in men. METHODS: To test this hypothesis, we investigated retrospectively the results of a trial on Integrelin in unstable angina. RESULTS: We report that platelet aggregation and Holter-detected ischemic episodes are significantly reduced in women with unstable angina treated with the specific GPIIb-IIIa inhibitor, Integrelin, compared with the standard platelet inhibitor aspirin. In contrast, both platelet aggregation and Holter-detected ischemic events are well controlled in men with unstable angina treated with standard therapy including aspirin. CONCLUSION: Integrelin does provide protection in men, but, in contrast with women, not beyond what can be achieved with aspirin. Our data are consistent with the concept that the platelets from women require stronger and more specific inhibitors to limit their activity, and that platelets may play a more important role in women with acute coronary syndromes than in men. Most important, specific GPIIb-IIIa inhibitors may represent a therapeutic option which provides as much suppression of ischemic events in women as they do in men with coronary artery disease.

A monoclonal antibody (SZ21) specific for platelet GPIIIa distinguishes P1A1 from P1A2.

Neonatal alloimmune thrombocytopenia (NATP) and post-transfusion purpura (PTP) are acquired bleeding disorders caused by alloimmune thrombocytopenia. In most cases, the thrombocytopenia is due to an alloantibody directed against the platelet glycoprotein IIb-IIIa (GPIIb-IIIa) complex. During the course of routine studies on the role of GPIIb-IIIa in inherited and acquired bleeding and thrombotic disorders, we unexpectedly identified an individual whose platelets reacted by non-reduced Western blot analysis with anti-GPIIIa polyclonal antisera, but did not react with a commercially available monoclonal antibody (SZ21) specific for GPIIIa. We screened all 14 GPIIIa exons for possible nucleotide changes which might alter amino acids and found variations in only exons 3 and 10. Nucleotide sequencing revealed that only the exon 3 alteration changed the predicted amino acid sequence. This variation was caused by homozygosity for the uncommon P1A2 allele of the GPIIIa gene. Platelets from two additional unrelated normal individuals known to be homozygous for P1A2 also lacked reactivity with SZ21 by Western blot. Using flow cytometry with intact platelets, we observed a markedly reduced binding of SZ21 to platelets with the P1A2 genotype. Scatchard analyses indicated that SZ21 bound to P1A1/A1 platelets with a Kd of approximately 8.26 x 10(-10) M, and to P1A2/A2 platelets with a Kd of approximately 5.58 x 10(-9) M. Thus, we have characterized a readily available monoclonal antibody able to distinguish between the two P1A alleles of the GPIIIa gene. Because incompatibility for this platelet polymorphism is the most common cause of neonatal alloimmune thrombocytopenia and posttransfusion purpura, and because platelet immunophenotyping reagents lack specificity and are not easily available, this monoclonal antibody could facilitate the management of patients with these disorders.

Surface recruitment but not activation of integrin alpha IIb beta 3 (GPIIb-IIIa) requires a functional actin cytoskeleton.

Binding of integrin alpha IIb beta 3 (glycoprotein [GP] IIb-IIIa) to soluble fibrinogen requires that the receptor undergo a conformational change (receptor activation), which occurs rapidly in agonist-stimulated platelets. Agonist stimulation of platelets also results in alpha IIb beta 3 recruitment from intracellular membranes (alpha-granules and open canalicular system) to the platelet surface. Once activated and accessible, the receptor can engage, a process that corresponds to the binding of the receptor to its soluble fibrinogen ligand, leading to intracellular signaling reactions and centripetal migration of bound receptor molecules. Because these processes occur concurrently with a marked reorganization of the actin cytoskeleton, we investigated the role of actin in fibrinogen receptor activation and surface recruitment. We used a flow cytometric assay to directly quantitate the binding of alpha IIb beta 3 to fluorescently labeled fibrinogen on the platelet surface. Cytochalasin D, which inhibits elongation of actin filaments, was used to prevent the actin response to platelet agonists. Despite its ability to inhibit the actin response and alpha IIb beta 3 binding to the actin cytoskeleton, cytochalasin D did not alter the agonist-induced intramolecular changes resulting in increased affinity of alpha IIb beta 3 for soluble fibrinogen and therefore did not inhibit ADP-induced aggregation. Thus, disruption of the actin network with cytochalasin D had no effect on the dissociation constant of the complex between activated alpha IIb beta 3 and fibrinogen (Kd = 0.26 to 0.28 mumol/L). However, cytochalasin D suppressed the recruitment of cryptic alpha IIb beta 3 molecules to the platelet surface.(ABSTRACT TRUNCATED AT 250 WORDS)

Platelet tyrosine kinases and fibrinogen receptor activation.

Platelet adhesion and aggregation during hemostasis and thrombosis are usually limited to sites where the integrity of the vessel wall is disrupted. The high concentration of platelet agonists within these sites represents a putative control mechanism for targeting platelet activation. Although much has been learned about the intracellular signaling systems controlling platelet activation, our understanding of the connection between signaling molecules and platelet aggregation remains limited. Tyrosine kinases are important signaling enzymes in cells and are abundant in platelets. Previous reports indicate that binding of glycoprotein IIb-IIIa (GPIIb-IIIa) to fibrinogen can induce the tyrosine phosphorylation of specific substrates. We show that, in turn, protein tyrosine kinase activity is necessary for agonist-induced activation of GPIIb-IIIa. Genistein and the tyrphostin AG-18 are two specific tyrosine kinase inhibitors, and the former has been shown to inhibit platelet aggregation. We use genistein and AG-18 in the present study to demonstrate that aggregation inhibition is due to suppression of GPIIb-IIIa activation. In contrast, genistin, an isoflavone compound related to genistein, and acetylsalicylic acid do not affect the tyrosine kinase-signaling pathway, nor do they inhibit GPIIb-IIIa activation induced by strong agonists. On identifying prominent tyrosine kinase substrates in activated platelets, we confirm that several substrates correspond to proteins associated with the cytoskeleton: the 85-kD subunit of phosphatidylinositol 3-kinase, the SH3-containing and actin-associating p85, pp60Src, and pp125FAK.(ABSTRACT TRUNCATED AT 250 WORDS)

Derivatives of 1,2-diazetidine-1,2-di-N-oxides--a new class of soluble guanylate cyclase activators with vasodilatory properties.

Derivatives of diazetidine-di-N-oxides have been found capable of the nonenzymatic generation of nitric oxide by the principally new mechanism of the nitric oxide splitting at physiological pH values. The effect of the synthesized compounds on human platelet soluble guanylate cyclase activity as well as their spasmolytic and hypotensive action were studied. Four of 7 derivatives studied exhibited a distinct correlation between the ability of being decomposed with the nitric oxide formation, activation of soluble guanylate cyclase, and spasmolytic and antihypertensive activities. Among them, 3-brom, 4-methyl-3,4-tetramethylene-diazetidine-di-N-oxide has proved to be most effective, its spasmolytic effect being commensurable with glyceryl trinittrate activity. The revealed correlation allows us to regard 1,2-diazetidine-1,2-di-N-oxide derivatives as vasodilatory agents of a new class.