血管内皮细胞生长因子受体Flt-1结合小肽的融合表达及活性鉴定

血管内皮细胞生长因子 (VEGF)通过结合其酪氨酸激酶受体KDR、fms样酪氨酸激酶 1(Flt 1)调节新生血管形成 ;筛选能封闭VEGF结合Flt 1的小肽 ,可以通过阻断肿瘤血管形成 ,抑制实体瘤生长 .将从噬菌体 12肽库中筛选获得的 2个能与Flt 1结合的阳性噬菌体克隆 (F5 6和F90 )十二肽DNA(36bp)克隆到表达载体pQE4 2中 ,在大肠杆菌M15中稳定表达二氢叶酸还原酶融合蛋白(DHFR F5 6 F90 ) ,经变性、复性后得到纯度达 90 %的可溶性蛋白 .ELISA检测表明 ,DHFR F5 6 F90能结合可溶性受体sFlt 1和血管内皮细胞 ;12 5I VEGF竞争抑制实验显示 ,DHFR F5 6能竞争抑制VEGF同可溶性受体sFlt 1结合 .结果提示 ,F5 6可能是VEGF受体Flt 1的有效拮抗剂 ,具有抗肿瘤新生血管形成的潜在应用前景     

小鼠天然可溶性VEGF受体基因sflt-1的克隆及鉴定

 可溶性血管内皮细胞生长因子受体 (sFlt 1 )与膜表面受体Flt 1竞争结合血管内皮细胞生长因子 (VEGF) ,并且与膜表面受体Flt 1及KDR形成异源二聚体 .完全阻断VEGF的生物学活性 ,除与sFlt 1的结合部位结构域有关外 ,还与整个蛋白质分子的高效分泌表达有关 .而蛋白质分子的高效分泌表达与蛋白质在细胞内高尔基体及内质网的加工密切相关 ,基因工程重组可溶性受体由于一些尚未明了的原因 ,往往不能高效表达 ,从而大大影响了其应用价值 .利用RT PCR技术从胚胎小鼠中扩增出天然可溶性VEGF受体基因sflt 1 ,克隆于pcDNA3载体中 ,在COS 7细胞中短暂表达 ;并克隆至pET42b载体中 ,经IPTG诱导后 ,可大量稳定表达与His Tag形成的融合蛋白 ,经HisNi柱纯化 ,可特异性结合VEGF .可溶性受体sFlt 1在肿瘤组织的高效表达可有效阻断新生血管的形成 ,从而为肿瘤的治疗探索一种方法 .     

血管内皮生长因子家族及其受体与肿瘤血管生成研究进展

血管内皮生长因子(vascular endothelial growth factor,VEGF),又名血管通透性因子(vascular permeability factor,VPF)是重要的血管生成正性调节因子,是目前抗癌治疗的研究靶点之一。现已发现的VEGF家族成员包括VEGF—A、VEGF—B、VEGF—C、VEGF—D、VEGF—E和胎盘生长因子(placenta growth factor,PLGF)。VEGF的受体有VEGFR—1(fit—1)、VEGFR-2(flk-1／KDR)、VEGFR-3(fit-4)、neuropilin(NPR1／NPR2)。该家族的成员可以选择性地增强血管和／或淋巴管内皮细胞的有丝分裂,刺激内皮细胞增殖并促进血管生成,提高血管特别是微小血管的通透性,使血浆大分子外渗沉积在血管外的基质中,促进新生毛细血管网的建立,为肿瘤细胞的生长提供营养等。作者对VEGF家族成员及其受体的理化特征、VEGF与肿瘤的关系、VEGF抑制剂的研制作一综述。     

VEGF受体KDR结合区的克隆与表达

KDR是血管内皮生长因子(VEGF)的主要受体之一,它在介导VEGF刺激内皮细胞增殖及血管通透性等生物学活性中起重要作用.为了获得人重组的有VEGF结合活性的KDR,通过RT-PCR从人胎儿脐静脉内皮细胞（EC）扩增出编码KDR胞外Ⅰ～Ⅳ区片段,将其克隆在谷胱甘肽转移酶（GST）融合蛋白表达载体pGEX2T中,并在大肠杆菌中获得稳定表达.表达的融合蛋白GST-KDR以包涵体形式存在,其分子质量约66 ku左右.经碱变性法大量提取,及制备胶电泳获得纯化的KDR,为进一步的研究奠定了基础.     

人血管内皮生长因子受体KDR胞外3区的表达与配体结合活性的鉴定

血管内皮生长因子受体(VEGFR)是血管内皮生长因子的特异性受体,VEGFR-2在介导VEGF刺激内皮细胞增殖及血管通透性等生物学活性中起重要作用.在大肠杆菌中实现可溶性的人血管内皮生长因子受体KDR胞外3区的表达,并鉴定其与配体结合的活性.采用重叠PCR的方法合成人血管内皮生长因子受体KDR胞外3区基因,将该基因与高效表达载体pET-32a重组,转化大肠杆菌Rosetta(DE3)中,表达产物依次经过CM阳离子交换树脂和镍柱亲和层析纯化.利用ELISA法和体外抑制VEGF刺激的人脐静脉内皮细胞增殖实验检测表达产物与配体结合的活性.SDS-PAGE显示,目的蛋白主要以可溶性Trx-KDR3融合蛋白表达于胞质,30℃时1 mmol/L IPTG诱导细菌5 h融合蛋白表达量约占胞质可溶性总蛋白的20%,经CM阳离子交换树脂和镍柱亲合层析纯化得到纯度为95%的产物,Western blotting鉴定是目的蛋白.ELISA和体外HUVEC细胞增殖实验显示,表达产物具有特异性结合hVEGF165的活性,且该作用呈一定的浓度依赖性.具有配体特异性结合活性的可溶性人血管内皮生长因子受体KDR胞外3区成功表达,为靶向血管抗肿瘤治疗和相关抗体的研究奠定了基础.     

用腺相关病毒载体介导人血管内皮生长因子受体KDR胞外区基因的表达

新生血管大量形成在实体瘤的生长和转移中起着关键的作用。血管内皮生长因子(VEGF)是介导肿瘤血管生成的最主要因素。从原代培养的人脐静脉血管内皮细胞(HUVEC)提取细胞总RNA,采用逆转录PCR(RT-PCR)方法得到VEGF受体KDR胞外区cDNA片段。将获得的受体基因克隆到AAV基因治疗载体pSNAV中,得到重组质粒pSNAV/KDR。重组质粒转染BHK细胞,加入辅助病毒后,获得了表达目的蛋白的重组AAV。重组病毒表达的KDR在体外实验中具有与VEGF结合的活性。在体内实验中,重组AAV感染的黑色素瘤细胞在小鼠中形成肿瘤的血管化程度明显低于对照组。     

用腺相关病毒载体介导人血管内皮生长因子受体KDR胞外区基因的有达

新生血管大量形成在实体瘤的生长和转移中起着关键的作用。血管内皮生长因子 (VEGF)是介导肿瘤血管生成的最主要因素。从原代培养的人脐静脉血管内皮细胞 (HUVEC)提取细胞总RNA ,采用逆转录PCR(RT PCR)方法得到VEGF受体KDR胞外区cDNA片段。将获得的受体基因克隆到AAV基因治疗载体pSNAV中 ,得到重组质粒pSNAV KDR。重组质粒转染BHK细胞 ,加入辅助病毒后 ,获得了表达目的蛋白的重组AAV。重组病毒表达的KDR在体外实验中具有与VEGF结合的活性。在体内实验中 ,重组AAV感染的黑色素瘤细胞在小鼠中形成肿瘤的血管化程度明显低于对照组。     

短肽库中VEGF受体拮抗剂的筛选及生物学活性鉴定

为获得可溶性血管内皮细胞生长因子受体 (s VEGFR,soluble VEGF receptor)的拮抗剂 ,以固相化可溶性 VEGF受体 s Flt- 1和 s KDR通过生物淘选筛选噬菌体十二肽库 .采用 ELISA及竞争性 ELISA筛选阳性克隆 ,12 5I- VEGF竞争性放射免疫吸附实验进一步鉴定阳性克隆的体外结合活性 .经过 3～ 4轮生物淘选的短肽库有明显富集 .初筛后约 3%的噬菌体克隆可同时结合相应的可溶性受体及人脐静脉内皮细胞 .其中 6个克隆与内皮细胞的结合 ,可以部分地被变性复性处理的原核表达血管内皮细胞生长因子 (VEGF)竞争抑制 .4个噬菌体克隆可竞争性抑制 12 5I- VEGF与可溶性受体的体外结合反应 .两个 KDR阳性克隆 K2 37与 K93可在体外抑制内皮细胞的增殖 .克隆K2 37与 F90可抑制鸡胚绒毛尿囊膜血管形成 .阳性克隆可作为血管内皮细胞生长因子受体拮抗剂 ,具有良好的应用前景 .     

VEGF及其受体在人胃癌细胞MGC803的共表达及VEGF对MGC803细胞的促增殖效应

血管内皮细胞生长因子 (VEGF)在许多肿瘤细胞有异常高表达 .应用RT- PCR从人胃癌细胞MGC80 3中扩增获得了VEGF及其受体KDR的特异片段 ;细胞免疫化学结果显示在MGC80 3细胞上有KDR的强阳性着染 ,说明在胃癌细胞MGC803中存在VEGF及其受体KDR的共表达 .³H -TdR掺入实验表明 :外源性VEGF₁₆₅对胃癌细胞MGC80 3有明显的促增殖作用 ,抗VEGF₁₆₅单抗及抗KDR单抗均可阻断VEGF的这种刺激作用 .从而提示VEGF可能作为肿瘤细胞的自分泌促生长因子发挥作用 ,为进一步认识VEGF在肿瘤发生中的作用提供了新的依据 .     

逍遥丸合六味地黄丸对原因不明月经过少子宫内膜细胞ER、VEGF和KDR表达影响

探讨逍遥丸合六味地黄丸治疗原因不明月经过少的机理.原代培养原因不明月经过少病人的子宫内膜,采用免疫细胞化学进行细胞鉴定.空白对照组,高剂量组,中剂量组,低剂量组,雌激素组.免疫蛋白质斑迹法观察子宫内膜细胞的雌激素受体(ER)、血管内皮生长因子(VEGF)及其受体(KDR)表达改变.逍遥丸合六味地黄丸能增强子宫内膜细胞的ER、VGER和KDR表达.逍遥丸合六味地黄丸可能通过提高子宫内膜组织中ER、VEGF和KDR治疗原因不明月经过少.     

VEGF受体功能研究进展

血管内皮生长因子受体（VEGFR）调控心血管系统的发育。VEGFR1对于造血祖细胞的招募及单核巨噬细胞的迁移是必需的;VEGFR2、VEGFR3在调控血管及淋巴管内皮细胞的功能时发挥重要作用,而现在很多研究都聚焦于阻断VEGFR信号通路以达到阻断肿瘤血管生长的目的。     

Inhibition of FGF‐FGFR and VEGF‐VEGFR signalling in cancer treatment

The sites of targeted therapy are limited and need to be expanded. The FGF‐FGFR signalling plays pivotal roles in the oncogenic process, and FGF/FGFR inhibitors are a promising method to treat FGFR‐altered tumours. The VEGF‐VEGFR signalling is the most crucial pathway to induce angiogenesis, and inhibiting this cascade has already got success in treating tumours. While both their efficacy and antitumour spectrum are limited, combining FGF/FGFR inhibitors with VEGF/VEGFR inhibitors are an excellent way to optimize the curative effect and expand the antitumour range because their combination can target both tumour cells and the tumour microenvironment. In addition, biomarkers need to be developed to predict the efficacy, and combination with immune checkpoint inhibitors is a promising direction in the future. The article will discuss the FGF‐FGFR signalling pathway, the VEGF‐VEGFR signalling pathway, the rationale of combining these two signalling pathways and recent small‐molecule FGFR/VEGFR inhibitors based on clinical trials.     

杀伤血管内皮生长因子受体 1 阳性细胞的靶向毒素

白喉毒素 (diphtheria toxin DT) 是棒状白喉杆菌被β噬菌体感染后分泌的一种外毒素. 它可以阻断真核细胞的蛋白质合成,杀死细胞. 血管内皮生长因子 (VEGF) 的 R82A, K84A, H86A 突变体可以和肿瘤血管上高表达的 VEGF 受体 1 (VEGFR-1) 特异性结合. 首先从白喉杆菌中提取基因组 DNA,扩增出白喉毒素 C 区、 T 区基因. 并运用点突变技术,制成 VEGF 的 R82A, K84A, H86A 突变体. 利用这个可以和肿瘤血管上特异性受体相结合的 VEGF 的突变体,代替白喉毒素上的受体结合区,制成了针对 VEGFR-1 的靶向融合毒素——— DT391-mVEGF. 以去除了受体结合区的 DT391 为阴性对照,细胞实验表明,融合毒素对 VEGFR-1 阳性的肿瘤细胞有特异性杀伤作用.     

血小板活化因子对大鼠黄体细胞孕酮分泌及血管内皮生长因子表达的作用

本文旨在研究血小板活化因子(platelet-activating factor,PAF)对大鼠黄体细胞孕酮分泌及血管内皮生长因子(vascularendothelial growth factor,VEGF)mRNA表达的作用.将未成年(25～28 d)Sprague-Dawley雌性大鼠颈部皮下注射50 IU孕马血清促性腺激素(pregnant mare serum gonadotrophin,PMSG),48 h后注射25 IU人绒毛膜促性腺激素(human chorionicgonadotrophin.hCG)诱导卵泡发育和黄体生成,第6天(hCG注射日为第1天)收集卵巢黄体细胞,体外培养24 h后,不加或加入不同剂量(0.1 μg/mL、1 μg/mL、10 μg/mL)PAF,37℃、5%CO2培养箱内培养24 h.用放射免疫方法测定培养液中孕酮的含量,流式细胞仪和RT-PCR方法检测黄体细胞凋亡以及VEGF mRNA的表达.结果显示,PAF促进黄体细胞孕酮分泌,1 μg/mL PAF作用最强(P<0.05);PAF促进黄体细胞凋亡无明显剂量依赖性,但10 μg/mL PAF显著促进大鼠黄体细胞凋亡(P<0.05):PAF刺激黄体细胞VEGF mRNA表达,1 μg/mL PAF效果最显著(P<0.01).结果提示,PAF可通过调节黄体细胞孕酮的分泌和VEGF mRNA的表达来促进黄体形成.     

细胞生长因子对冠状动脉内皮细胞增殖与迁移的影响

目的 :观察肝细胞生长因子 (HGF)和血管内皮细胞生长因子 (VEGF)对体外培养牛冠状动脉内皮细胞(BCAEC)增殖、迁移的影响。方法 :分离和培养BCAEC ,设对照组、VEGF组、HGF组。采用四甲基偶氮唑蓝法(MTT)观察细胞增殖 ;倒置显微镜观察培养的血管内皮细胞的迁移。结果 :对照组、VEGF组、HGF组的OD值分别为 0 .2 2± 0 .0 1、0 .40± 0 .1 4、0 .44± 0 .1 5 ;VEGF组、HGF组BCAEC的增殖率分别为 81 .8%± 1 6 .9%、1 0 0 %±2 1 .1 % ;对照组BCAEC迁移不明显 ,而VEGF组和HGF组BCAEC迁移明显。结论 :VEGF、HGF能促进BCAEC增殖、迁移 ,HGF作用强度不亚于VEGF。     

Treatment of Mid‐Pregnant Mice with KRN633, an Inhibitor of Vascular Endothelial Growth Factor Receptor Tyrosine Kinase,Induces Abnormal Retinal Vascular Patterning in Their Newborn Pups

We previously reported that treatment of mid‐pregnant mice with KRN633, a vascular endothelial growth factor receptor tyrosine kinase inhibitor, caused fetal growth restriction resulting from diminished vascularization in the placenta and fetal organs. In this study, we examined how the treatment of mid‐pregnant mice with KRN633 affects the development and morphology of vascular components (endothelial cells, pericytes, and basement membrane) in the retinas of their newborn pups. Pregnant mice were treated with KRN633 (5 mg/kg) once daily from embryonic day 13.5 until the day of delivery. Vascular components were examined using immunohistochemistry with specific markers for each component. Radial vascular growth in the retina was slightly delayed until postnatal day 4 (P4) in the newborn pups of KRN633‐treated mothers. On P8, compared with the pups of control mothers, the pups of KRN633‐treated mothers exhibited decreased numbers of central arteries and veins and abnormal branching of the central arteries. No apparent differences in pericytes or basement membrane were observed between the pups of control and KRN633‐treated mothers. These results suggest that a critical period for determining retinal vascular patterning is present at the earliest stages of retinal vascular development, and that the impaired vascular endothelial growth factor signaling during this period induces abnormal architecture in the retinal vascular network     

KRN633, an Inhibitor of Vascular Endothelial Growth Factor Receptor Tyrosine Kinase,Induces Intrauterine Growth Restriction in Mice

We previously reported that treatment with KRN633, a vascular endothelial growth factor receptor tyrosine kinase inhibitor, during mid‐pregnancy caused intrauterine growth restriction resulting from impairment of blood vessel growth in the labyrinthine zone of the placenta and fetal organs. However, the relative sensitivities of blood vessels in the placenta and fetal organs to vascular endothelial growth factor (VEGF) inhibitors have not been determined. In this study, we aimed to examine the effects of KRN633 on the vasculatures of organs in mother mice and their newborn pups by immunohistochemical analysis. Pregnant mice were treated daily with KRN633 (5 mg/kg) either from embryonic day 13.5 (E13.5) to E17.5 or from E13.5 to the day of delivery. The weights of the pups of KRN633‐treated mice were lower than those of the pups of vehicle‐treated mothers. However, no significant difference in body weight was observed between the vehicle‐ and KRN633‐treated mice. The vascular development in the organs (the pancreas, kidney, and intestine) and intestinal lymphatic formation of the pups of KRN633‐treated mothers was markedly impaired. In contrast, the KRN633 treatment showed no significant effect on the vascular beds in the organs, including the labyrinthine zone of the placenta, of the mother mice. These results suggest that blood vessels in fetal organs are likely to be more sensitive to reduced VEGF signaling than those in the mother. A partial loss of VEGF function during pregnancy could suppress vascular growth in the fetus without affecting the vasculature in the mother mouse, thereby increasing the risk of intrauterine growth restriction.     

Vascular permeability factor: a unique regulator of blood vessel function.

Vascular permeability factor (VPF), also known as vascular endothelial growth factor (VEGF), is a potent polypeptide regulator of blood vessel function. VPF promotes an array of responses in endothelium, including hyperpermeability, endothelial cell growth, angiogenesis, and enhanced glucose transport. VPF regulates the expression of tissue factor and the glucose transporter. All of the endothelial cell responses to VPF are evidently mediated by high affinity cell surface receptors. Thus, endothelial cells have a unique and specific spectrum of responses to VPF. Since each of the responses of endothelial cells to VPF are also elicited by agonists, such as bFGF, TNF, histamine and others, it remains a major challenge to determine how post-receptor signalling pathways maintain both specificity and redundancy in cellular responses to various agonists.     

血管内皮生长因子 (VEGF1 83)转基因小鼠的建立(英文)

采用显微注射法 ,将一个由 1.3kb人感光细胞间维生素A类结合蛋白 (hIRBP)启动子区和人血管内皮生长因子 (hVEGF183)cDNA所构成的融合基因片段HIRV183导入 2 89枚ICR小鼠受精卵的雄性原核 .制备当代 (G0 )转基因小鼠 ,共得G0 代小鼠 17只 .经PCR和PCR Southern方法筛选得到 1只为hVEGF183转基因阳性小鼠 ,整合率为 5 9%,转基因总效率为 0 3%.将其与正常ICR小鼠交配 ,经PCR和dot blot杂交鉴定后代 (F1)小鼠阳性整合率为 4 5 9%.F1代兄妹之间进行交配 ,后代 (F2 )小鼠阳性整合率为 6 7 6 %.结果表明 ,外源基因hVEGF183整合在小鼠染色体的单一位点 ,为以后利用转基因动物的方法对VEGF这个新型异构体VEGF183进行深入研究打下了基础