Transcriptome analysis reveals a role of interferon-gamma in human neointima formation.

The most effective immediate cure for coronary stenosis is stent-supported angioplasty. Restenosis due to neointima proliferation represents a major limitation. We investigated the expression of 2435 genes in atherectomy specimens and blood cells of patients with restenosis, normal coronary artery specimens, and cultured human smooth muscle cells (SMCs). Of the 223 differentially expressed genes, 37 genes indicated activation of interferon-gamma (IFN-gamma) signaling in neointimal SMCs. In cultured SMCs, IFN-gamma inhibited apoptosis. Genetic disruption of IFN-gamma signaling in a mouse model of restenosis significantly reduced the vascular proliferative response. Our data suggest an important role of IFN-gamma in the control of neointima proliferation.

Gene expression profiling of human stent-induced neointima by cDNA array analysis of microscopic specimens retrieved by helix cutter atherectomy: Detection of FK506-binding protein 12 upregulation.

BACKGROUND: Restenosis due to neointima formation is the major limitation of stent-supported balloon angioplasty. Despite abundant animal data, molecular mechanisms of neointima formation have been investigated on only a limited basis in patients. This study sought to establish a method for profiling gene expression in human in-stent neointima and to identify differentially expressed genes that may serve as novel therapeutic targets. METHODS AND RESULTS: We retrieved tissue specimens from patients with symptomatic in-stent restenosis using a novel helix cutter atherectomy device. cDNA samples prepared from neointima (n=10) and, as a control, from the media of normal arteries (n=14) were amplified using a novel polymerase chain reaction protocol and hybridized to cDNA arrays. Immunohistochemistry characterized the atherectomy material as neointima. cDNA arrays readily identified differentially expressed genes. Some of the differentially expressed genes complied with expected gene expression patterns of neointima, including downregulation of desmin and upregulation of thrombospondin-1, cyclooxygenase-1, and the 70-kDa heat shock protein B. Additionally, we discovered previously unknown gene expression patterns, such as downregulation of mammary-derived growth inhibitor and upregulation of FK506-binding protein 12 (FKBP12). Upregulation of FKBP12 was confirmed at the protein level in neointimal smooth muscle cells. CONCLUSIONS: Gene expression patterns of human neointima retrieved by helix-cutter atherectomy can be reliably analyzed by cDNA array technology. This technique can identify therapeutic targets in patients, as exemplified by the findings regarding FKBP12. FKBP12 is the receptor for Rapamycin (sirolimus), which in animal models reduced neointima formation. Our study thus yields a rationale for the use of Rapamycin to prevent restenosis in patients.

Adhesion of monocyte very late antigen-4 to endothelial vascular cell adhesion molecule-1 induces interleukin-1beta-dependent expression of interleukin-6 in endothelial cells.

In atheroma, T cell-derived interferon-gamma (INF-gamma) stimulates endothelial cells and facilitates recruitment of monocytes. We investigated potential mechanisms by which these interactions could contribute to local and systemic inflammatory responses. Specifically, we analyzed the expression of interleukin (IL)-1beta and IL-6 in both cell types after coculture, the relevant adhesion molecules in this interaction, and transcriptional control by NF-kappaB. We studied coculture of purified peripheral blood monocytes with human umbilical vein endothelial cells (HUVECs), which were stimulated with INF-gamma (10(6) U/L) to model the activated endothelium of atherosclerotic lesions. Coculture of monocytes with activated HUVECs resulted in release of IL-1beta (40. 6+/-3 pg/24 h, P=0.002) and IL-6 (46.6+/-7 ng/24 h, P=0.0015). Electrophoretic mobility gel shift assay and Northern blotting in each cell type separately revealed NF-kappaB activation in both cell types, IL-1beta mRNA expression predominantly in monocytes, and IL-6 mRNA expression predominantly in HUVECs. The endothelial IL-6 release was IL-1-dependent, because it was suppressed by IL-1 receptor antagonist. Experiments with blocking antibodies demonstrated that binding of monocyte very late antigen-4 (VLA-4) to endothelial vascular cell adhesion molecule-1 (VCAM-1) was necessary for the induction of IL-1beta in monocytes. Binding of monocyte VLA-4 to endothelial VCAM-1 induces NF-kappaB activation in both cell types with expression and release of IL-1beta by monocytes, which in turn stimulates endothelial release of IL-6. The beta(1)-integrin-mediated expression of IL-1beta and IL-6 could contribute to local and systemic inflammatory reactions in atherosclerosis.

Effect of glycoprotein IIb/IIIa receptor blockade on platelet-leukocyte interaction and surface expression of the leukocyte integrin Mac-1 in acute myocardial infarction.

OBJECTIVES: This prospective randomized study investigated platelet-induced upregulation of Mac-1 on monocytes and its inhibition by glycoprotein (GP) IIb/IIIa blockage in patients with acute myocardial infarction (AMI). BACKGROUND: In experimental AMI, Mac-1 on leukocytes is the pivotal adhesion molecule for detrimental inflammatory responses. In vitro, platelet adhesion to monocytes upregulates Mac-1. METHODS: Patients undergoing stenting in AMI within 48 h after onset of symptoms were randomly assigned to receive either standard-dose heparin (n = 50) or abciximab plus low-dose heparin (n = 50). In serial blood samples, we assessed platelet-monocyte interaction and Mac-1 surface expression by triple color immunofluorescence flow cytometry. RESULTS: Compared with platelet-negative monocytes, Mac-1 surface expression on monocytes with attached platelets was upregulated (median fluorescence intensity [interquartile range]: 259 [179 to 367] vs. 135 [78 to 195] arbitrary units, p < 0.001). As an indicator of platelet-monocyte interaction, mean fluorescence of the platelet marker GP Ib alpha in the monocytes population decreased after abciximab, although it remained unaffected by heparin alone. Abciximab achieved this effect by a reduction in platelet mass attached to monocytes (GP Ib alpha fluorescence intensity of heterotypic aggregates at 24 h [arbitrary units]: 187 [143 to 236] after abciximab vs. 228 [156 to 332] after heparin, p = 0.02), whereas it did not affect the percentage of monocytes with adherent platelets. Reduction of platelet-monocyte interaction resulted in decreased Mac-1 surface expression (fluorescence intensity at 24 h [arbitrary units]: 116 [68 to 153] after abciximab vs. 162 [117 to 239] after heparin, p = 0.001). CONCLUSIONS: In patients with AMI, platelet-leukocyte interactions modulate Mac-1 expression on monocytes. Glycoprotein IIb/IIIa blockade is a therapeutic option to interfere with this mechanism.

Effect of glycoprotein IIb-IIIa receptor antagonism on platelet membrane glycoproteins after coronary stent placement.

Platelet membrane glycoproteins play a crucial role in ischemic complications after coronary stenting. Glycoprotein IIb-IIIa blockade reduces adverse clinical events after angioplasty but is associated with rare but profound thrombocytopenia that might increase hemorrhagic complications. Changes in platelet membrane glycoproteins of patients with angina who underwent coronary stenting and were treated with the GPIIb-IIIa antagonist abciximab (n=20) or with heparin (n=23) were studied. GPIb-IIIa receptor blockade and membrane glycoproteins were evaluated with immunological markers in venous blood samples taken before. 10, 24, 48, 72, and 96 h after initial treatment with either abciximab or heparin. Patients receiving abciximab therapy showed a rapid inhibition of binding of fluorochrome-conjugated mAb CD41 and c7E3 concomitant with a reduction in platelet aggregation which was restored in part in the days after termination of abciximab infusion. Induction of ligand-induced binding sites on GPIIb-IIIa was increased in patients receiving abciximab. The expression of ligand-induced binding sites correlated inversely with platelet count. No significant change in platelet membrane markers were found in the heparin group. In vitro studies showed that abciximab induces ligand-induced binding sites on isolated platelets and on nuclear cells bearing recombinant GPIIb-IIIa. Abciximab rapidly achieves GPIIb-IIIa receptor blockade after coronary stent placement that might be beneficial in high-risk settings to bridge the delayed action of ticlopidine. Significant alterations of platelet membrane glycoproteins during GPIIb-IIIa antagonism might contribute to development of acute profound thrombocytopenia.

Enhancement of monocyte procoagulant activity by adhesion on vascular smooth muscle cells and intercellular adhesion molecule-1-transfected Chinese hamster ovary cells.

BACKGROUND: Plaque erosion is a frequent finding in sudden death due to coronary thrombosis. The present study sought to investigate whether monocyte adhesion to human aortic vascular smooth muscle cells (VSMCs) induces procoagulant activity (PCA) and whether this could be mediated by intercellular adhesion molecule-1 (ICAM-1). METHODS AND RESULTS: We incubated mononuclear cells (MNCs) with VSMCs and ICAM-1-transfected Chinese hamster ovary (CHO) cells, investigated monocyte tissue factor (TF) mRNA expression by Northern blot analysis and TF protein expression by ELISA, and measured PCA. Incubation of MNCs with VSMCs for 6 hours increased PCA from 0.7+/-0.1 to 166.0+/-37.9 mU/105 cells (P=0.007), which could be inhibited in a dose-dependent manner by the addition of blocking anti-ICAM-1 monoclonal antibodies. Prestimulation of VSMCs with interleukin-1beta enhanced surface ICAM-1 expression significantly but did not induce PCA in VSMCs. Incubation of MNCs with prestimulated VSMCs led to a further increase in PCA to 239.9+/-27.9 mU/10(5) cells (P=0.02 compared with incubation with unstimulated VSMCs). Incubation of MNCs with VSMCs enhanced TF mRNA after 2 hours and significantly increased TF protein content after 6 hours. Incubation of purified monocytes with ICAM-1-transfected CHO cells increased PCA from 1.2+/-0.2 to 81.9+/-3.3 mU/10(5) cells (P<0.001 compared with incubation with untransfected CHO cells) after 6 hours. This effect could be inhibited significantly by the addition of blocking anti-CD18, anti-CD11b, or anti-CD11c monoclonal antibodies. Similar results were obtained for MNCs. CONCLUSIONS: Monocyte adhesion to VSMCs induces TF mRNA and protein expression and monocyte PCA, which is regulated by beta2-integrin-mediated monocyte adhesion to ICAM-1 on VSMCs.

The hepatic interleukin-6 receptor. Studies on its structure and regulation by phorbol 12-myristate 13-acetate-dexamethasone.

Recombinant human 125I-interleukin-6 (IL-6) was cross-linked with the homobifunctional reagent disuccinimidyl suberate to human hepatoma cells (HepG2). Three recombinant human 125I-IL-6-containing complexes of apparent molecular masses of 100, 120, and 200 kDa were immunoprecipitated with specific antibodies to human IL-6 or to the 80-kDa IL-6 receptor subunit. We show by immunoprecipitation, peptide mapping, and by the use of a cleavable heterobifunctional cross-linker (Denny-Jaffe reagent) that different polypeptides are involved in the formation of the 100- and 120-kDa IL-6-containing complexes. The molecular compositions of the 100- and 120-kDa cross-linked complexes were identified. The 100-kDa complex consisted of one ligand and one IL-6 receptor subunit, glycoprotein 80 (gp80), whereas the 120-kDa complex was found to be composed of one ligand and a polypeptide which was immunoprecipitable with the monoclonal antibody AM64 directed against gp130. Exposure of HepG2 cells to phorbol 12-myristate 13-acetate (PMA) or PMA-dexamethasone led to an increase in the 80-kDa IL-6 receptor mRNA and functional receptor protein. Whereas treatment of HepG2 cells with PMA led to an increase in the formation of gp80.gp130.IL-6 complexes determined by cross-linking, no corresponding increase in high affinity binding sites was found. The existence of a third IL-6 receptor subunit present in limiting amounts on HepG2 cells is proposed to explain this discrepancy. Evidence is presented that the 80-kDa IL-6 receptor up-regulation by PMA-dexamethasone is caused by the depletion of protein kinase C since the protein kinase C inhibitor staurosporine mimics the effect of PMA-dexamethasone.

The hepatic interleukin-6 receptor. Down-regulation of the interleukin-6 binding subunit (gp80) by its ligand.

Interleukin-6 (IL6) exerts its action via a cell surface receptor composed of an 80 kDa IL6-binding protein (gp80) and a 130 kDa polypeptide involved in signal transduction (gp130). We studied the role of gp80 in binding, internalization and down-regulation of the hepatic IL6-receptor (IL6R) by its ligand in human hepatoma cells (HepG2). Comparison of transfected HepG2 cells overexpressing gp80 with parental cells indicate that gp80 is responsible for low affinity binding (Kd = 500 pM) of IL6. Furthermore, gp80 is rate-limiting in internalization and degradation of IL6. Internalization resulted in a rapid down-regulation (t1/2 approximately 15-30 min) of IL6-binding sites at the cell surface. More than 80% of the internalized [125I]rhIL6 was degraded. The reappearance of IL6-binding sites at the cell surface required greater than 8 h and was sensitive to cycloheximide, suggesting that gp80 is not recycled after internalization. The down-regulation of the hepatic IL6R by its ligand might play an important role as a protection against overstimulation.