Contribution of VCAF-positive cells to neovascularization and calcification in atherosclerotic plaque development

Calcification of the vessel wall is a regulated process with many similarities to osteogenesis. Progenitor cells may play a role in this process. Previously, we identified a novel gene, Vascular Calcification Associated Factor (VCAF), which was shown to be important in pericyte osteogenic differentiation. The aim of this study was to determine the localization and expression pattern of VCAF in human cells and tissues. Immunohistochemical analysis of seven atherosclerotic arteries confirmed VCAF protein expression within calcified lesions. In addition, individual VCAF-positive cells were detected within the intima and adventitia in areas where sporadic 3G5-positive pericytes were localized. Furthermore, VCAF-positive cells were identified in newly formed microvessels in association with CD34-positive/CD146-positive/c-kit-positive cells as well as in intact CD31-positive endothelium in internal mammary arteries. Western blot analysis confirmed the presence of VCAF (18 kD) in protein lysates extracted from human smooth muscle cells, endothelial cells, macrophages, and osteoblasts. In fracture callus samples from three patients, VCAF was detected in osteoblasts and microvessels. This study demonstrates the presence of VCAF in neovessels and raises the possibility that VCAF could be a new marker for vascular progenitor cells involved in a number of differentiation pathways. These data may have implications for the prevention or treatment of vascular disease.     

Hepatocyte growth factor promotes migration of human hepatocellular carcinoma via phosphatidylinositol 3-kinase

Hepatocyte growth factor (HGF) is known to be a potent mitogen and motogen for epithelial cells. Hepatocellular carcinoma (HCC) often metastasizes, and the c-Met/HGF receptor is highly expressed by HCC cells. The aim of this study was to investigate the signaling pathways associated with the motogenic effect of HGF on HCC cells via c-Met. HCC cell lines (Hep3B, HepG2, PLC, and Huh-7) and HCC cells harvested from patients were used for the Boyden chamber assay of chemotactic activity as well as for immunoprecipitation and immunoblotting studies. HGF stimulated the motility of Hep3B, HepG2, and Huh-7 cells in a dose-dependent manner in association with tyrosine phosphorylation of c-Met and activation of phosphatidylinositol 3-kinase (PI3-K). A tyrosine kinase inhibitor (genistein) and a PI3-K inhibitor (wortmannin) prevented the migration of HCC cells. However, migration was not prevented by calphostin C, an inhibitor of protein kinase C (PKC), which is a downstream target of phospholipase Cγ (PLCγ). HGF also stimulated the migration of HCC cells obtained from three patients, while wortmannin prevented the migration of these cells. These results indicate that HGF stimulates the migration of HCC cells through the tyrosine phosphorylation of c-Met via activation of PI3-K. This revised version was published online in July 2006 with corrections to the Cover Date.     

The tunica adventitia of human arteries and veins as a source of mesenchymal stem cells

We previously demonstrated that human pericytes, which encircle capillaries and microvessels, give rise in culture to genuine mesenchymal stem cells (MSCs). This raised the question as to whether all MSC are derived from pericytes. Pericytes and other cells defined on differential expression of CD34, CD31, and CD146 were sorted from the stromal vascular fraction of human white adipose tissue. Besides pericytes, CD34+ CD31- CD146- CD45- cells, which reside in the outmost layer of blood vessels, the tunica adventitia, natively expressed MSC markers and gave rise in culture to clonogenic multipotent progenitors identical to standard bone marrow-derived MSC. Despite common MSC features and developmental properties, adventitial cells and pericytes retain distinct phenotypes and genotypes through culture. However, in the presence of growth factors involved in vascular remodeling, adventitial cells acquire a pericytes-like phenotype. In conclusion, we demonstrate the co-existence of 2 separate perivascular MSC progenitors: pericytes in capillaries and microvessels and adventitial cells around larger vessels.     

Dose-dependent modulation of myogenesis by HGF: implications for c-Met expression and downstream signalling pathways

Abstract

Hepatocyte growth factor (HGF) regulates satellite cell activation, proliferation, and differentiation. We analyzed the dose-dependent effects of HGF on myogenesis. Murine C2C12 and human donor-derived skeletal muscle myoblasts were treated with 0, 2, or 10?ng/ml HGF followed by assessment of proliferation and differentiation. HGF (2?ng/ml) significantly promoted cell division, but reduced myogenic commitment and fusion. Conversely, 10?ng/ml HGF reduced proliferative capability, but increased differentiation. c-Met expression analysis revealed significantly decreased expression in differentiating cells cultured with 2?ng/ml HGF, but increased expression in proliferating cells with 10?ng/ml HGF. Mitogen-activated protein kinase (MAPKs: ERK, JNK, or p38K) and phosphatidylinositol-3-kinase (PI3K) inhibition abrogated the HGF-stimulated increase in cell number. Interestingly, PI3K and p38 kinase facilitated the negative effect of HGF on proliferation, while ERK inhibition abrogated the HGF-mediated decrease in differentiation. Dose-dependent effects of HGF are mediated by changes in c-Met expression and downstream MAPK and PI3K signalling.     

Neovascularization in early atherosclerotic lesions of human carotid arteries: its potential contribution to plaque development.

Neovascularization is a prominent feature of late-stage atherosclerotic lesions and their complications but is generally regarded as an insignificant, undetectable component of the earliest stages of plaque development, probably because of relatively poor histological techniques. Using an improved vascular staining procedure, we have examined the extent of neovascularization in the earliest plaque lesions. Combined monoclonal antibodies to CD31, CD34, and von Willebrand factor have provided an ultrasensitive technique with which to visualize blood vessels in early atherosclerotic lesions (n = 55) of human carotid arteries obtained through surgical procedures. Capillary-like microvessels were shown in very early atherosclerotic lesions (type II), where they were associated with the distribution of macrophages and a few immature mast cells. Neovascularization was more prominent in type III lesions with vessels of variable size, often providing a focus around which local accumulations of macrophages and apolipoproteins A-I and B were visualized. Thickened type III lesions usually showed an intricate network of microvessels, together with numerous mast cells. These studies have shown neovascularization as a prominent feature of early stages of atherosclerotic plaque development. Whereas distribution of apolipoproteins A-I and B were observed in the very earliest stages of the plaque intima, these lipids, together with macrophages, foam cells, and mast cells, were observed as perivascular accumulations in a proportion of type II and III lesions. Such findings indicate that neovascularization is an important feature of early plaque development and may provide an additional or alternative source of leukocyte and lipid accumulations relative to the arterial lumen.     

姜黄素抑制HGF诱导血管内皮细胞迁移和VEGF表达的体内外研究

目的:探索姜黄素抑制肝细胞生长因子(HGF)诱导血管生成的分子机制。方法:利用管腔形成实验、划痕实验、Western blot实验和动物实验观察姜黄素、c-Met抑制剂SU11274、磷脂酰肌醇3-激酶(PI3K)抑制剂LY294002和m TOR抑制剂rapamycin对HGF诱导的内皮细胞迁移、管腔形成能力、血管内皮生长因子(VEGF)表达、相关信号通路和瘤体内血管密度的影响。结果:姜黄素可显著抑制HGF诱导内皮细胞发生迁移、小管形成及VEGF的表达,同时抑制c-Met/AKT/m TOR/S6通路的磷酸化,并可减少瘤体内VEGF的表达和微血管密度。使用c-Met抑制剂SU11274、PI3K抑制剂LY294002或m TOR抑制剂rapamycin能得到和姜黄素相似的效应。结论:姜黄素抑制HGF诱导的血管生成可能是通过抑制c-Met/AKT/m TOR/S6信号通路活化实现的。     

Vascular endothelial growth factor acts as a pericyte mitogen under hypoxic conditions

Angiogenesis is the process by which new vascular networks are formed from preexisting capillaries. The small vessels are composed of two types of cells, namely endothelial cells (EC) and pericytes, with the former being encircled by the latter. We previously showed that hypoxia, the principal cause of angiogenesis, can induce the proliferation of pericytes as well as EC. In this report we present evidence that the hypoxic induction of pericyte growth can be ascribed at least in part to vascular endothelial growth factor (VEGF) produced by this very cell type. First, the finding that hypoxia can stimulate the proliferation of pericytes was confirmed by cultivating bovine retinal pericytes in a controlled-atmosphere culture chamber containing various concentrations of oxygen and then assaying pericyte synthesis of DNA. Second, Northern blot analysis revealed that pericyte levels of mRNA encoding VEGF increased as the atmospheric oxygen tension was decreased; this was accompanied by an increase in de novo synthesis of VEGF proteins. Third, pericytes were able to respond to exogenously added VEGF, resulting in a dose-dependent increase in viable cell numbers. Fourth, polyclonal antibodies against VEGF efficiently blocked the hypoxic induction of pericyte growth. Fifth, pericytes expressed the gene for fms-like tyrosine kinase 1 (flt1) as the predominant form of VEGF receptor, and tyrosine phosphorylation of this receptor protein was enhanced when pericytes were exposed to hypoxia, as it was when cells were exposed to VEGF. Sixth, the antisense DNA complement of flt1 mRNA abolished the hypoxia-induced stimulation of pericyte growth. Finally, exogenous VEGF stimulated the migration of pericytes in a dose-dependent manner. The results thus suggest that VEGF, which has been thought to be a specific mitogen for EC, also acts on neighboring pericytes, probably in both autocrine and paracrine manners, and that the hypoxia-induced overproduction of VEGF could promote not only EC sprouting but also the recruitment of pericytes, thereby contributing to the maturation of newly formed microvessels.     

Hepatocyte growth factor/scatter factor and MET are involved in arterial repair and atherogenesis

Several studies have shown that in the arterial wall hepatocyte growth factor/scatter factor (HGF/SF) is expressed by smooth muscle cells (SMCs) but acts on endothelial cells, not SMCs. Other studies, however, have indicated that SMCs can respond to HGF/SF. We have reinvestigated expression and activity of HGF/SF and its receptor MET in arterial SMC and endothelial cell cultures and in whole arteries after superficial or deep injury or atherogenesis. High-density cultures of SMCs produced HGF/SF but did not express MET, whereas SMCs, at the leading edge of injured cultures, expressed both ligand and receptor and showed a dramatic motility and growth response to HGF/SF. In line with these results, HGF/SF and MET expression was undetectable in the media of uninjured carotid arteries but was induced after deep arterial injury in areas of SMC migration in the neointima. Strong MET expression was also observed in the SMCs of the atherosclerotic lesions of homozygous apoE^−/− mice, whereas HGF/SF was expressed by macrophage-derived foam cells. These results demonstrate that MET is induced in migrating and proliferating SMCs and that HGF/SF and MET are key mediators of the SMC response in atherogenesis.     

AMINOPEPTIDASE A IS A CONSTITUENT OF ACTIVATED PERICYTES IN ANGIOGENESIS

Monoclonal antibody (MAb) RC38 recognizes a human renal antigen of 160 kD recently identified as human aminopeptidase A (APA; EC 3.4.11.7). This ectoenzyme is able to hydrolyse selectively N-terminal glutamyl and aspartyl residues from oligopeptides. By enzyme histochemistry, APA activity has also been localized in the microvessels of all organs in animals and man. The purpose of this study was to investigate the distribution of human APA as recognized by MAb RC38 in the microvasculature of normal human tissues and pathological conditions associated with neovascularization. Unexpectedly, in normal tissues vascular staining with MAb RC38 was generally weak and often absent, while in tumours, granulation tissue, and chronic synovitis, marked microvascular staining was demonstrated. By immuno-electron microscopy, the antigen was found on the cell membrane of activated pericytes and their processes in the tumour vasculature. RC38 expression could not be detected on cultured human endothelial cells or pericytes. These observations suggest that pericyte expression of a subtype of APA (as recognized by MAb RC38) is markedly enhanced in the vasculature of tumours and wound healing tissue as compared with normal resting tissues. This provides further evidence of the altered state of pericytes in these conditions. Pericyte APA may be involved in the metabolism of biologically active oligopeptides during neovascularization, supporting a regulatory role of pericytes in this process. In addition, MAb RC38 may be useful as a marker of pericyte activation in tissue sections.     

Coexpression of hepatocyte growth factor and its receptor c-Met correlates with high MIB-1 proliferative index in malignant fibrous histiocytoma

Hepatocyte growth factor (HGF) is a multifunctional cytokine that variably affects cell motility, proliferation, and morphogenesis. Little information is currently available on the HGF and its receptor c-Met expression in malignant fibrous histiocytoma (MFH). We immunohistochemically investigated the HGF and c-Met expression in 43 MFH tissue specimens. Furthermore, the correlation of the HGF and c-Met expression with tumor proliferative activity assessed by MIB-1 indices was analyzed. Our results showed that positive cytoplasmic immunoreactivity for HGF and c-Met was identified in tumor cells in 36 (84%) and 20 (47%) of the 43 MFH cases analyzed, respectively. Coexpression of HGF and c-Met was observed in 20 (47%) of the 43 MFHs, and was correlated with high MIB-1 proliferative indices (p = 0.0446). These findings strongly indicate that the HGF/c-Met signaling system plays an important role in promoting cell proliferation of human MFHs via an autocrine loop.     

Neural stem cell targeting of glioma is dependent on phosphoinositide 3-kinase signaling

The utility of neural stem cells (NSCs) has extended beyond regenerative medicine to targeted gene delivery, as NSCs possess an inherent tropism to solid tumors, including invasive gliomas. However, for optimal clinical implementation, an understanding of the molecular events that regulate NSC tumor tropism is needed to ensure their safety and to maximize therapeutic efficacy. We show that human NSC lines responded to multiple tumor-derived growth factors and that hepatocyte growth factor (HGF) induced the strongest chemotactic response. Gliomatropism was critically dependent on c-Met signaling, as short hairpin RNA-mediated ablation of c-Met significantly attenuated the response. Furthermore, inhibition of Ras-phosphoinositide 3-kinase (PI3K) signaling impaired the migration of human neural stem cells (hNSCs) toward HGF and other growth factors. Migration toward tumor cells is a highly regulated process, in which multiple growth factor signals converge on Ras-PI3K, causing direct modification of the cytoskeleton. The signaling pathways that regulate hNSC migration are similar to those that promote unregulated glioma invasion, suggesting shared cellular mechanisms and responses. Disclosure of potential conflicts of interest is found at the end of this article.     

Interleukin-10 expression is positively correlated with oxidized LDL deposition and inversely with T-lymphocyte infiltration in atherosclerotic intimas of human coronary arteries

The inflammatory balance modulated by pro- and anti-inflammatory cytokines in atherosclerotic lesions is still unclear. The purpose of this study was to investigate the immunohistochemical localization of interleukin-10 (IL-10) and the topographical correlation between IL-10-positive cells and the other inflammatory cells in human coronary arteries. Coronary arteries (242 sections) were obtained from 43 Japanese patients (mean age: 72+/-14 years) at autopsy, and the intimal changes were classified according to the classification of the American Heart Association. The immunohistochemical distributions of IL-10, oxidized low-density lipoprotein (oxLDL), macrophages, and lymphocytes were examined morphometrically. We compared the ratios of IL-10-positive cells/macrophages and T-lymphocyte number among the shoulder and in other areas of type IV lesions and in atherosclerotic lesion types. IL-10 was expressed mainly by macrophages, and the positive cell number increased as the lesions became advanced (p<0.0001). The number of IL-10-positive cells was positively correlated with that of oxLDL-positive cells, and inversely with infiltrating T-lymphocytes (p<0.01). IL-10 expression in type IV-plaque shoulder was significantly lower than that in fibrous cap and the deeper portion under necrotic core (p<0.01). These findings suggest that IL-10 expression, seen mainly in macrophages, was possibly upregulated with oxLDL, and was inversely correlated with T-lymphocytic function in atherosclerotic coronary intimas.     

Alterations of endothelin-converting enzyme expression in early and advanced stages of human coronary atherosclerosis

Endothelin-1 is a potent vasoconstrictor and exhibits a mitogenic activity on vascular smooth muscle cells (SMCs). Endothelin-converting enzyme (ECE) is the final key enzyme of endothelin-1 processing. We studied the immunolocalization of ECE in human coronary atherosclerotic lesions with different disease stages. Frozen sections of normal coronary arteries with diffuse intimal thickening (n=13) and those of coronary arteries with early (n=10) or advanced atherosclerotic plaques (n=13) were studied. Monoclonal antibodies used were directed against SMCs, macrophages, endothelial cells, and ECE. For the identification of cell types that express ECE, double immunostaining analysis was also used. In normal coronary arteries, ECE immunoreactivity was observed in luminal endothelial cells and medial SMCs. Early atherosclerotic plaques, which consisted predominantly of SMCs, showed enhanced ECE expression in luminal endothelial cells and intimal SMCs. In advanced atherosclerotic plaques, distinct ECE expression was found in accumulated macrophages and in endothelial cells of intraplaque microvessels, while luminal endothelial cells showed relatively weak immunoreactivity for ECE. In conclusion, the present study demonstrates that the major cell types expressing ECE within the plaques are different between early and advanced stages of human coronary atherosclerosis. Enhanced ECE expression and possible endothelin-1 generation may contribute to SMC proliferation and vasoconstriction in early atherosclerotic stages, and may promote plaque destabilization in advanced atherosclerotic stages.     

HGF/c-Met Signaling Mediated Mesenchymal Stem Cell-induced Liver Recovery in Intestinal Ischemia Reperfusion Model

Purpose: Liver injury triggered by intestinal ischemia-reperfusion (IIR) usually presage multiorgan dysfunction and death in patients. Recent studies suggest mesenchymal stem cells (MSCs) possess a protective potential against organ damage. Since relative evidence is insufficient and the mechanism is not well understood, we investigated the effect of hepatocyte growth factor c-Met signaling (HGF/c-Met) on recruitment of MSCs and subsequent protection against liver injury triggered by IIR in a rat model.Methods: IIR models were built as rats were subjected to 75 min of superior mesenteric artery occlusion and subsequent 4 h reperfusion. Either of pure MSCs and MSCs pretreated with HGF or SU11274 (c-Met inhibitor) were injected into rat models. Biochemical and pathologic alterations of liver in IIR model were measured to evaluate the therapeutic effect of MSCs and drug treatment. Concurrently, the effect of HGF and SU11274 on c-Met and phosphorylated Met expression in MSCs and MSCs migration were assessed in in vitro experiment.Results: IIR-induced liver injury was manifested by significant increase in serum ALT, AST and HGF levels as well as pathological change. MSCs with highly c-Met expression ameliorated the increase of serum transaminase levels and hepatic histopathological change, while SU11274 weaken these effects. HGF upregulated c-Met and phosphorylated Met expression in MSCs and enhanced its liver protection effect. Transwell assays demonstrated HGF promoted MSCs migration, which was blocked by SU11274.Conclusions: HGF/c-Met signaling pathway plays an essential role in the homing of MSCs towards injured liver triggered by intestinal ischemia-reperfusion, and then mediates MSC-induced liver repair.     

Induction of alpha-smooth muscle actin expression in cultured human brain pericytes by transforming growth factor-beta 1.

Pericytes are cells localized at the abluminal side of the microvascular endothelium and completely enveloped by a basement membrane. Pericytes have close contact with endothelial cells and are probably involved in the regulation of endothelial cell functions. Previous studies suggested a role for pericytes in microvascular proliferation in tumors. To study this cell type, we isolated human brain pericytes from microvessel segments derived from autopsy brain tissue. These cells were characterized in vitro using a panel of monoclonal antibodies. Human brain pericytes were reactive with monoclonal antibodies directed against the high molecular weight-melanoma associated antigen and intercellular adhesion molecule-1, but only a minority of the cells expressed alpha-smooth muscle actin (alpha-SMA, 0 to 10%) or vascular cell adhesion molecule-1 (10 to 50%). In histologically normal human brain microvessels in situ, pericytes consistently lacked staining for these four markers. Tissue with microvascular proliferation, however, showed a marked pericyte staining for both alpha-SMA and high molecular weight-melanoma associated antigen. The expression of alpha-SMA in vitro could be slightly up-regulated by incubation with serum-containing medium. An increase in alpha-SMA expression up to 40% of the total cell population was seen when pericytes were treated with transforming growth factor-beta 1, whereas basic fibroblast growth factor slightly inhibited alpha-SMA expression. Incubation with other factors (platelet-derived growth factor-AA, heparin, interferon-gamma, tumor necrosis factor-alpha) had no effect on the alpha-SMA expression at all. Transforming growth factor-beta 1 thus induces smooth muscle-like differentiation in pericytes in vitro and might play a role in the activation of pericytes during angiogenesis in vivo.     

A comparative study of neovascularisation in atherosclerotic plaques using CD31, CD105 and TGF beta 1.

OBJECTIVES: This study aims to identify plaque neovascularisation using antibodies to CD31, CD105 and TGFbeta1, and to compare their patterns of expression. METHODS: Tissue expression of CD31, CD105 and TGFbeta1 was examined immunohistologically in atherosclerotic plaques from 53 patients who had undergone carotid endarterectomy and in 10 controls. RESULTS: CD31 was observed in a proportion of the microvessels within atheroma. The expression of CD105 was barely visible in normal arteries, but was markedly enhanced in atherosclerotic plaques. The vast majority of the microvessels in atheroma were positive for CD105 with pronounced expression around the periphery of the lipid core. In consecutive sections, microvessels showing negative staining for CD31 were positive for CD105. Although TGFbeta1 was seen in the thickened intima, it was more strongly expressed in well-formed fibrous plaques. Consecutive sections showed that some microvessels were stained by both CD105 and TGFbeta1, but in certain areas microvessels were exclusively CD105 positive. CONCLUSIONS: These observations highlight the distinctive expression patterns of CD31, CD105 and TGFbeta1, suggesting their specific roles in the development of atherosclerotic plaques. CD105 is almost universally expressed in microvessels within the atheroma and is therefore a better vascular marker than CD31 and TGFbeta1for assessing neovascularisation in atherosclerotic plaques.     

Expression of hepatocyte growth factor/scatter factor and its receptor c-Met in brain tumors: evidence for a role in progression of astrocytic tumors (Review)

Hepatocyte growth factor (HGF) is a multifunctional cytokine which is believed to have important roles in tissue development and regeneration, and tumor progression. It is indistinguishable from scatter factor (SF), a motility factor. HGF/SF is believed to be a mesenchymal cell-derived cytokine acting for epithelial cells bearing its receptor tyrosine kinase, c-Met. Recently, we found that glioblastoma multiforme (GBM), a highly malignant brain tumor of astrocytic origin, concomitantly express HGF/SF and c-Met. This finding indicates a presence of autocrine loop of HGF/SF signaling pathway in GBM. Moreover, GBM cells also co-express HGF activator, a recently identified serine proteinase having efficient HGF/SF activating activity. The expression of HGF/SF and c-Met was low or hardly detectable in low-grade astrocytoma, and c-Met immunoreactivity was correlated with the histological grade of the tumor suggesting that the creation of HGF/SF autocrine loop occurs along with the progression of astrocytic brain tumors. Experimental evidence indicated that HGF/SF exhibits potent migration/invasion-inducing activity for GBM cells bearing c-Met receptor. It is also a significant angiogenesis factor in GBM, and may serve as a cellular growth factor for certain GBM cells. These lines of evidence suggest that HGF/SF signaling pathway may serve as a promising new target of therapeutic intervention of GBM.