Broadwell R D, Charlton H M, Ebert P S, Hickey W F, Shirazi Y, Villegas J, Wolf A L
Department of Surgery, University of Maryland School of Medicine, Baltimore 21201.
Exp Neurol. 1991 Apr;112(1):1-28. doi: 10.1016/0014-4886(91)90110-x.
Angiogenesis and patency of blood vessels were analyzed qualitatively in solid CNS and peripheral tissue syngeneic, allogeneic, and xenogeneic grafts and in individual cell suspension grafts of astrocytes, fibroblasts, PC12, and three additional tumor cell lines placed intracerebrally in adult host mice. Postgrafting survival times were 1 day through 4 weeks. The patency of graft vessels was determined in sections from immersion-fixed tissues incubated to reveal the endogenous peroxidase activity of host red cells trapped within the lumen of blood vessels. Additionally, horseradish peroxidase (HRP) was administered intravenously to live hosts; HRP labels host brain and graft vessels on the luminal surface and reveals the presence or absence of a blood-brain barrier (BBB) within the grafts. The origins of blood vessels supplying solid tissue xenografts were identified immunohistochemically with primary antibodies against host (athymic AKR mice) and donor (fetal Lewis rats) major histocompatibility complex (MHC) class I. Blood vessels supplying solid CNS grafts at 1-7 days post-transplantation were identified ultrastructurally and possessed interendothelial tight junctional complexes; however, they were not perfused with either host blood or blood-borne HRP prior to 8 days. Graft vessels at 10 days were outlined consistently by peroxidase-positive red cells in immersion-fixed material and labeled with blood-borne HRP. These vessels provided a BBB to the circulating HRP and exhibited interendothelial tight junctions. Evidence of angiogenesis within solid anterior pituitary grafts and the variety of cell suspension grafts was obtained prior to 3 days post-transplantation in immersion-fixed preparations; the vessels, with the notable exception of those supplying astrocyte cell suspensions, failed to present a BBB to blood-borne peroxidase. Endothelia in the solid pituitary allografts and the PC12 cell grafts were highly fenestrated and exhibited open interendothelial junctions; those in the tumor and fibroblast cell grafts, for the most part, appeared nonfenestrated, and many possessed open interendothelial junctional complexes. Immunostaining for host and donor MHC class I revealed that donor blood vessels predominate over host vessels in CNS xenografts and supply pituitary xenografts exclusively; in both preparations, donor vessels were not identified within the host CNS. Because cell suspension grafts were derived from endothelia-free preparations grown in culture, blood vessels supplying these grafts were necessarily of host CNS origin and manifested a morphological transformation from a BBB to a non-BBB endothelium. The data suggest that angiogenesis in solid CNS grafts placed into the adult host CNS, compared to similarly placed solid peripheral tissue/cell suspension grafts, is not rapid.(ABSTRACT TRUNCATED AT 400 WORDS)
在成年宿主小鼠脑内植入的实体中枢神经系统(CNS)和外周组织同基因、异基因及异种移植物以及星形胶质细胞、成纤维细胞、PC12细胞和另外三种肿瘤细胞系的单个细胞悬液移植物中,对血管生成和血管通畅性进行了定性分析。移植后的存活时间为1天至4周。通过对浸泡固定组织切片进行孵育以显示被困在血管腔内的宿主红细胞的内源性过氧化物酶活性,来确定移植血管的通畅性。此外,将辣根过氧化物酶(HRP)静脉注射给活体宿主;HRP标记宿主脑和移植血管的管腔表面,并揭示移植物中血脑屏障(BBB)的存在与否。用针对宿主(无胸腺AKR小鼠)和供体(胎儿Lewis大鼠)主要组织相容性复合体(MHC)I类的一抗,通过免疫组织化学方法鉴定供应实体组织异种移植物的血管来源。移植后1 - 7天供应实体CNS移植物的血管通过超微结构鉴定,具有内皮间紧密连接复合体;然而,在8天之前它们未被宿主血液或血源性HRP灌注。在浸泡固定材料中,10天时的移植血管始终被过氧化物酶阳性红细胞勾勒出来,并用血源性HRP标记。这些血管为循环的HRP提供了血脑屏障,并表现出内皮间紧密连接。在浸泡固定制剂中,在移植后3天之前获得了实体垂体移植物和各种细胞悬液移植物内血管生成的证据;除了供应星形胶质细胞悬液的血管外,这些血管未能对血源性过氧化物酶呈现血脑屏障。实体垂体同种移植物和PC12细胞移植物中的内皮高度有窗孔,表现出开放的内皮间连接;肿瘤和成纤维细胞移植物中的内皮在大多数情况下似乎无窗孔,许多具有开放的内皮间连接复合体。对宿主和供体MHC I类的免疫染色显示,在CNS异种移植物中供体血管多于宿主血管,并专门供应垂体异种移植物;在这两种制剂中,在宿主CNS内未鉴定出供体血管。由于细胞悬液移植物源自培养的无内皮制剂,供应这些移植物的血管必然起源于宿主CNS,并表现出从血脑屏障内皮到非血脑屏障内皮的形态转变。数据表明,与同样植入的实体外周组织/细胞悬液移植物相比,植入成年宿主CNS的实体CNS移植物中的血管生成并不迅速。(摘要截短至400字)
