Increased expression of vascular permeability factor (vascular endothelial growth factor) and its receptors in kidney and bladder carcinomas.

Vascular permeability factor (VPF), also known as vascular endothelial growth factor, is a secreted protein implicated in tumor-associated microvascular hyperpermeability and angiogenesis. Tumor cells in 11 of 12 renal cell carcinomas expressed high levels of VPF messenger RNA (mRNA) by in situ hybridization, the only exception being a case of the relatively avascular papillary variant. Expression was further accentuated adjacent to areas of necrosis. Both tumor cells and endothelial cells in small vessels adjacent to tumor stained strongly for VPF protein by immunohistochemistry. Endothelial cells did not express detectable VPF mRNA, but did express high levels of mRNA for the VPF receptors flt-1 and KDR indicating that the endothelial cell staining likely reflects binding of VPF secreted by adjacent tumor cells. Three transitional cell carcinomas also labeled strongly for VPF mRNA. These data suggest an important role for VPF in the vascular biology of these two common human malignancies.     

血管内皮生长因子及其受体在子宫内膜癌中的表达

目的探讨血管内皮生长因子(VEGF)及其受体fms样酪氨酸受体-1 (flt-1)和含插入区的激酶受体(KDR)在子宫内膜癌血管生成中的作用及其与内膜癌分化程度的关系.方法采用免疫组织化学及原位杂交方法对23例子宫内膜癌及6例正常绝经期子宫内膜中VEGF、flt-1、KDR蛋白质及其mRNA进行检测,并对少数病例行Western印迹分析,以检测VEGF亚型在内膜癌组织的分布,用内皮细胞标志Ⅷ因子标记内膜癌组织中的微血管密度.结果 VEGF、flt-1、KDR蛋白质及其mRNA主要分布在子宫内膜癌组织血管内皮细胞及癌细胞胞质内.VEGF蛋白质在中分化(G2)、低分化(G3)内膜癌血管内皮细胞及癌细胞上的表达高于高分化内膜癌(G1)及正常绝经期子宫内膜(P<0.05), VEGF mRNA在不同分化程度内膜癌组织的表达差异无显著性意义(P>0.05),但均大于正常绝经期子宫内膜(P<0.05);flt-1蛋白质及flt-1mRNA在G3内膜癌血管内皮细胞的表达高于G1、G2及正常绝经期子宫内膜(P<0.05),在癌细胞的表达差异无显著性意义(P>0.05) ,但均高于正常绝经期子宫内膜(P<0.05);KDR蛋白质在子宫内膜癌组织血管内皮细胞及癌细胞上的表达较强,但不随分化程度发生变化,其mRNA在中分化(G2)、低分化(G3)内膜癌血管内皮细胞及癌细胞上的表达高于正常绝经期子宫内膜(P<0.05).G3子宫内膜癌组织的血管密度(48个±12个)高于G1(27个±14个)、G2(26个±16个)及正常绝经期子宫内膜(26个±11个,P<0.05).结论 VEGF、flt-1、KDR及mRNA在子宫内膜癌中的表达形式提示其与癌组织血管生成及血管通透性相关,VEGF及其受体是与子宫内膜癌旺盛生长相关的因子之一.     

Glomeruloid microvascular proliferation follows adenoviral vascular permeability factor/vascular endothelial growth factor-164 gene delivery

Glomeruloid bodies are a defining histological feature of glioblastoma multiforme and some other tumors and vascular malformations. Little is known about their pathogenesis. We injected a nonreplicating adenoviral vector engineered to express vascular permeability factor/vascular endothelial growth factor-164 (VPF/VEGF(164)) into the ears of athymic mice. This vector infected local cells that strongly expressed VPF/VEGF(164) mRNA for 10 to 14 days, after which expression gradually declined. Locally expressed VPF/VEGF(164) induced an early increase in microvascular permeability, leading within 24 hours to edema and deposition of extravascular fibrin; in addition, many pre-existing microvessels enlarged to form thin-walled, pericyte-poor, "mother" vessels. Glomeruloid body precursors were first detected at 3 days as focal accumulations of rapidly proliferating cells in the endothelial lining of mother vessels, immediately adjacent to cells expressing VPF/VEGF(164). Initially, glomeruloid bodies were comprised of endothelial cells but subsequently pericytes and macrophages also participated. As they enlarged by endothelial cell and pericyte proliferation, glomeruloid bodies severely compromised mother vessel lumens and blood flow. Subsequently, as VPF/VEGF(164) expression declined, glomeruloid bodies devolved throughout a period of weeks by apoptosis and reorganization into normal-appearing microvessels. These results provide the first animal model for inducing glomeruloid bodies and indicate that VPF/VEGF(164) is sufficient for their induction and necessary for their maintenance.     

Expression of vascular permeability factor/vascular endothelial growth factor by human granulosa and theca lutein cells. Role in corpus luteum development.

Vascular permeability factor/vascular endothelial growth factor (VPF/VEGF) is a cytokine that is overexpressed in many tumors, in healing wounds, and in rheumatoid arthritis. VPF/VEGF is thought to induce angiogenesis and accompanying connective tissue stroma in two ways: 1), by increasing microvascular permeability, thereby modifying the extracellular matrix and 2), as an endothelial cell mitogen. VPF/VEGF has been reported in animal corpora lutea and we investigated the possibility that it might be present in human ovaries and have a role in corpus luteum formation. We here report that VPF/VEGF mRNA and protein are expressed by human ovarian granulosa and theca cells late in follicle development and, subsequent to ovulation, by granulosa and theca lutein cells. Therefore, VPF/VEGF is ideally positioned to provoke the increased permeability of thecal blood vessels that occurs shortly before ovulation. VPF/VEGF likely also contributes to the angiogenesis and connective tissue stroma generation that accompany corpus luteum/corpus albicans formation. Finally, VPF/VEGF was overexpressed in the hyperthecotic ovarian stroma of Stein-Leventhal syndrome in which it may also have a pathophysiological role.     

Secretion of vascular endothelial growth factor/vascular permeability factor from human luteinized granulosa cells is human chorionic gonadotrophin dependent

Vascularization is a prominent event during corpus luteum formation, providing low density lipoproteins for steroid biosynthesis and enabling transport of secreted steroids. The process of vascularization is controlled by specific regulators. Vascular endothelial growth factor (VEGF), otherwise named vascular permeability factor (VPF), induces endothelial cell proliferation as well as angiogenesis in vivo and increases capillary permeability. Here we report the expression of VEGF/VPF mRNA by cultured human luteinized granulosa cells (GC) for at least 10 days. Without HCG VEGF/VPF expression declined after day 4 and by day 10 was reduced to approximately 30% of the value at day 4. However, after culture in the presence of 1 U/ml human chorionic gonadotrophin (HCG), expression of VEGF/VPF mRNA by GC was four times greater than control experiments by day 10, and increased 100% from day 4 to day 10. Simultaneously, HCG supplementation increased VEGF/VPF secretion by GC. Medium VEGF/VPF on day 3 was 13 pM without and 11 pM with HCG. Medium VEGF/VPF on day 10 was 6 pM without HCG and 29 pM with HCG. These results suggest that vascularization of the corpus luteum is induced by HCG-mediated effects of VEGF/VPF.      

Increased Tie2 Expression, Enhanced Response to Angiopoietin-1, and Dysregulated Angiopoietin-2 Expression in Hemangioma-Derived Endothelial Cells

Infantile hemangiomas are endothelial tumors that grow rapidly in the first year of life and regress slowly during early childhood. Although hemangiomas are well-known vascular lesions, little is known about the mechanisms that cause the excessive endothelial cell proliferation in these most common tumors of infancy. To investigate the molecular basis of hemangioma, we isolated endothelial cells from several proliferative-phase lesions and showed that these cells are clonal and exhibit abnormal properties in vitro (E. Boye, Y. Yu, G. Paranya, J. B. Mulliken, B. R. Olsen, J. Bischoff: Clonality and altered behavior of endothelial cells from hemangiomas. J Clin Invest 2001, 107:745-752). Here, we analyzed mRNA expression patterns of genes required for angiogenesis, including members of the vascular endothelial growth factor (VEGF)/VEGF receptor family and the angiopoietin/Tie family, in hemangioma-derived and normal endothelial cells. KDR, Flt-1, Tie1, Tie2, and angiopoietin-2 (Ang2) were strongly expressed in cultured hemangioma-derived endothelial cells and in hemangioma tissue. In contrast, there was little expression of angiopoietin-1 (Ang1) or VEGF. We found Tie2 mRNA and protein up-regulated with a concomitant increase in cellular responsiveness to Ang1 in most hemangioma-derived endothelial cells. Ang2 mRNA was down-regulated in response to serum in hemangioma-derived endothelial cells, but not in normal endothelial cells, suggesting altered regulation. These findings implicate Tie2 and its ligands Ang1 and Ang2 in the pathogenesis of hemangioma.     

胰岛素对牛胸主动脉内皮细胞血管内皮生长因子及其受体表达的影响

目的:评价胰岛素对培养的牛胸主动脉内皮细胞血管内皮生长因子(VEGF)及其受体表达的影响。方法: 取新生的小牛胸主动脉,做血管内皮细胞原代及传代培养,取4-6代培养细胞分组,应用不同浓度的胰岛素(30 mU/L、300 mU/L、3 000 mU/L)干预培养过程,48 h后应用免疫组化法测定内皮细胞VEGF及其受体(flt-1、flk-1/KDR)的表达水平。结果: 低浓度胰岛素组(30 mU/L、300 mU/L)内皮细胞VEGF表达明显高于不用胰岛素组(P<0.01);高浓度组(3 000 mU/L)内皮细胞VEGF表达明显低于不用胰岛素组(P＜0.05);各组内皮细胞VEGF受体(flt-1及flk-1/KDR)的表达无明显差异(P＞0.05)。结论: 低浓度胰岛素促进小牛主动脉血管内皮细胞VEGF表达;高浓度胰岛素可抑制血管内皮细胞VEGF表达;胰岛素对小牛主动脉血管内皮细胞VEGF受体(flt-1、flk-1/KDR)的表达无直接影响。     

血管内皮生长因子及其受体mRNA在输卵管妊娠蜕膜组织的表达

目的:检测血管内皮生长因子(VEGF)及其受体(KDR、Flt-1)在输卵管妊娠蜕膜组织的表达,探讨其在输卵管妊娠中的作用。方法:采用半定量RT-PCR方法,检测输卵管妊娠蜕膜组织中的VEGF、KDR、Flt-1 mRNA的表达,并与正常输卵管黏膜及正常宫内早孕子宫蜕膜组织比较。结果:半定量结果表明,VEGF、KDR、Flt-1 mRNA在输卵管妊娠蜕膜组织中的表达强于正常输卵管组织,但弱于正常宫内早孕蜕膜组织,差异均有显著性。结论:输卵管妊娠时,VEGF及其受体mRNA水平的增高是使滞留在输卵管的胚泡着床于输卵管的重要因素。     

Expression of a lymphatic endothelial cell marker in benign and malignant vascular tumors

Tumors of endothelial cell origin are relatively common. Soft tissue tumors and numerous subtypes of benign and malignant vascular tumors have been described; the histogenesis of many of these tumors is uncertain, and distinguishing between benign and malignant vascular tumors, some of which express lymphatic endothelial cell markers, can be problematic. In the present study, immunophenotypic expression of a novel hyaluronan receptor (LYVE-1), which is expressed by endothelial cells of normal lymphatic vessels but not blood vessels, was determined in benign and malignant vascular tumors. It was found that, except in lymphangiomas, intramuscular hemangiomas, and Masson's hemangiomas, endothelial cells in benign blood vessel tumors (including capillary and cavernous hemangiomas, glomus tumors, pyogenic granulomas, and epithelioid hemangiomas) were negative for LYVE-1, and that all angiosarcomas and Kaposi's sarcomas were positive for LYVE-1. Expression of LYVE-1 and other lymphatic endothelial cell markers in relatively few vascular neoplasms has implications for the histogenesis of these lesions, and may prove useful in distinguishing angiosarcoma and Kaposi's sarcoma from most common benign vascular tumors.     

Vascular growth factors and receptors in capillary hemangioblastomas and hemangiopericytomas.

Capillary hemangioblastomas and hemangiopericytomas are highly vascular central nervous system tumors of controversial origin. Of interest in their pathogenesis are mechanisms regulating endothelial cell growth. The endothelial cell mitogen vascular endothelial growth factor (VEGF) stimulates angiogenesis, and together with its two receptor tyrosine kinases VEGFR-1(FLT1) and VEGFR-2(KDR), is up-regulated during the malignant progression of gliomas. We have analyzed the expression of VEGF and its receptors, the related placental growth factor (PlGF) and the endothelial receptors FLT4 and Tie by in situ hybridization in capillary hemangioblastomas and hemangiopericytomas. VEGF mRNA was up-regulated in all of the hemangiopericytomas studied and highly expressed in the stromal cells of hemangioblastomas. In addition, some hemangioblastoma tumor cells expressed high levels of PlGF. Significantly elevated levels of Tie mRNA, Tie protein, VEGFR-1, and VEGFR-2 but not FLT4 mRNAs were observed in the endothelia of both tumor types. In hemangioblastomas, however, the receptors were also highly expressed by a subpopulation of stromal cells. Consistent results were obtained for a human hemangioblastoma cell line in culture. Up-regulation of the endothelial growth factors and receptors may result in autocrine or paracrine stimulation of endothelial cells and their precursors involved in the genesis of these two vascular tumors.     

Protective effect of vascular endothelial growth factor/vascular permeability factor 165 and 121 on glomerular endothelial cell injury in the rat

Vascular endothelial growth factor/vascular permeability factor (VEGF/VPF) promotes the repair of injured vessels by stimulating angiogenesis. VEGF/VPF reportedly has cytoprotective activity but no study has shown the protective effect of VEGF/VPF on glomerular endothelial cells. We examined whether recombinant VEGF/VPF121 and VEGF/VPF165 isoforms could prevent injury of glomerular endothelial cells. Mild glomerular injury was induced in rats by an intravenous-injection of a limited dose of anti-Thy-1.1 antibody to obtain lesions similar to those found in the human disease. Recombinant VEGF/VPF165, VEGF/VPF121 or BSA was administered 4 h before the injection of the antibody, and once daily for 3 days. In the BSA-injected rats, mesangial cell lysis and endothelial cell injury in dilated capillary tufts were evident without endothelial cell apoptosis on days 1-4. Thereafter, cell proliferation and repair began and remodeling of the glomeruli was completed by day 28. Macrophages but not polymorphonuclear leukocytes accumulated significantly in the glomeruli on days 1-4. Treatment with VEGF/VPF isoform protected endothelial cells but not mesangial cells from destruction on day 1, and accelerated the repair of both types of cells, which was completed by day 18, 10 days earlier than that of the control animals. The results indicate that VEGF/VPF121 or VEGF/VPF165 can protect glomerular endothelial cells against injury, independent of apoptosis-inhibition activity, thereby promoting reconstruction of glomeruli. The protective effect of VEGF/VPF on endothelial cells suggests that it could provide therapeutic benefit for certain kidney diseases.     

血管内皮生长因子及其受体在肝癌细胞中的表达及意义

目的 探讨人肝癌细胞株血管内皮生长因子（VEGF）及其受体的表达,进一步认识VEGF在肝癌血管形成中的作用机制,方法 以人脐静脉血管内皮细胞系ECV304和小鼠成纤维细胞系L929作为对照,采用免疫组化染色及RT-PCR,检测体外培养的人肝细胞肝癌细胞系SMMC7721、HHCC和HepG2中VEGF及其受体的表达。结果 SMMC7721、HHCC和HepG2细胞均有VEGF的表达。同时VEGF受体1（Flt-1)在SMMC7721细胞中也有表达;而HHCC和HepG2细胞则表达VEGF的受体2（KDR）。结论 在肝癌的血管形成中可能存在VEGF的自分泌机制。     

Stimulation of endothelial cell migration by vascular permeability factor/vascular endothelial growth factor through cooperative mechanisms involving the alphavbeta3 integrin, osteopontin, and thrombin.

We have identified several mechanisms by which the angiogenic cytokine vascular permeability factor/vascular endothelial growth factor (VPF/VEGF) likely regulates endothelial cells (EC) migration. VPF/VEGF induced dermal microvascular EC expression of mRNAs encoding the alphav and beta3 integrin subunits resulting in increased levels of the alphavbeta3 heterodimer at the cell surface, and VPF/VEGF also induced mRNA encoding osteopontin (OPN), an alphavbeta3 ligand. OPN promoted EC migration in vitro; and VPF/VEGF induction of alphavbeta3 was accompanied by increased EC migration toward OPN. Because thrombin cleavage of OPN results in substantial enhancement of OPN's adhesive properties, and because VPF/VEGF promotes increased microvascular permeability leading to activation of the extrinsic coagulation pathway, we also investigated whether VPF/VEGF facilitates thrombin cleavage of OPN in vivo. Consistent with this hypothesis, co-injection of VPF/VEGF together with OPN resulted in rapid cleavage of OPN by endogenous thrombin. Furthermore, in comparison with native OPN, thrombin-cleaved OPN stimulated a greater rate of EC migration in vitro, which was additive to the increased migration associated with induction of alpha v beta 3. Thus, these data demonstrate cooperative mechanisms for VPF/VEGF regulation of EC migration involving the alphavbeta3 integrin, the alphavbeta3 ligand OPN, and thrombin cleavage of OPN. These findings also illustrate an operational link between VPF/VEGF induction of EC gene expression and VPF/VEGF enhancement of microvascular permeability, suggesting that these distinct biological activities may act accordingly to stimulate EC migration during angiogenesis.     

Gene expression of vascular endothelial growth factor and its receptors and angiogenesis in bronchial asthma

BACKGROUND: Angiogenesis is a feature of airway remodeling in bronchial asthma. The mechanism responsible for this angiogenesis is unknown. Vascular endothelial growth factor (VEGF) is a potent inducer of endothelial cells, which may contribute to chronic inflammation and angiogenesis. OBJECTIVE: We sought to investigate the molecular mechanisms underlying increased vascularity, and we examined the mRNA expression of VEGF and its receptors (flt-1 and flk-1) within bronchial biopsy specimens from asthmatic patients and normal control subjects. METHODS: Endobronchial biopsy specimens were examined immunocytochemically by staining with anti-type IV collagen mAb to evaluate vessel density by using computer-assisted image analysis. Specimens were also analyzed for the presence of the mRNAs of VEGF and its receptors with in situ hybridization. RESULTS: The extent of airway vascularity was increased in asthmatic subjects compared with that in control subjects (P <.01). Asthmatic subjects exhibited a greater expression of VEGF, flt-1, and flk-1 mRNA(+) cells in the airway mucosa compared with that in control subjects (P <.001 for each comparison). The degree of vascularity was associated with the number of VEGF, flt-1, and flk-1 mRNA(+) cells. Numbers of cells expressing VEGF mRNA inversely correlated with airway caliber (r = -0.83, P <.01) and airway hyperresponsiveness (r = -0.97, P <.001). Colocalization studies showed that macrophages, eosinophils, and CD34(+) cells were the major sources of VEGF; CD34(+) cells, macrophages, and T cells expressed both flt-1 and flk-1. CONCLUSION: These findings provide evidence that VEGF may play an important role in angiogenesis and subsequent airway remodeling in bronchial asthma.     

Conditioned medium from mouse sarcoma 180 cells contains vascular endothelial growth factor

Medium conditioned by mouse sarcoma 180 cells stimulates the growth of capillary endothelial cells. The growth factor produced by mouse sarcoma 180 cells is heparin-binding, dithiothreitol-sensitive, endothelial cell specific, and secreted into the medium. The characteristics of this mouse sarcoma-derived growth factor are very similar to those of vascular endothelial growth factor (VEGF) first described by Ferrara and Henzel (1989). The N-terminal amino acid sequences of the two growth factors are similar. Since the amino acid sequence of vascular permeability factor (VPF) is essentially identical to that of VEGF, a Western blot of mouse sarcoma 180-derived endothelial growth factor was probed with a polyclonal antibody raised against human VPF. This antibody reacted with several proteins of approximately 23 kDa, suggesting the presence of multiple forms of a VEGF-like protein. A full length cDNA probe for bovine VEGF reacted strongly with RNA isolated from mouse sarcoma 180 cells. We conclude that an endothelial growth factor found in conditioned medium from mouse sarcoma 180 cells is VEGF.     

Expression of vascular endothelial growth factor and its receptors correlates closely with formation of the plexiform lesion in human pulmonary hypertension

The pulmonary vasculature exhibits various morphological changes in patients with pulmonary hypertension (PH). Among them, the plexiform lesion is one of the most characteristic vascular lesions, although nothing is known about the molecular mechanisms of its formation. In the present study, the expression of vascular endothelial growth factor (VEGF), an endothelial cell-specific angiogenic mitogen, and its receptors, fms-like tyrosine kinase (Flt-1) and kinase insert domain-containing receptor (KDR), in the lungs of five cases with PH, were examined. By in situ hybridization, VEGF expression was found in modified smooth muscle cells inside the plexiform lesions as well as in medial smooth muscle cells of the arteries adjacent to the lesions. The expression of Flt-1 mRNA was observed in endothelial cells of the arteries adjacent to the plexiform lesions, while KDR mRNA was expressed in the endothelial cells inside the plexiform lesions. VEGF was immunolocalized to the endothelial cells expressing its receptors as well as the modified smooth muscle cells producing VEGF. These results demonstrate that VEGF and its receptors are upregulated with a close correlation to the plexiform lesions, and suggest that VEGF expressed by smooth muscle cells may activate the endothelial cells to form the plexiform lesions.