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MHC I类和II类抗原作为低风险和高风险小鼠眼穿透性角膜移植排斥反应的靶点。

MHC class I and II antigens as targets of rejection in penetrating keratoplasty in low- and high-risk mouse eyes.

作者信息

Osawa Hideya, Streilein J Wayne

机构信息

Schepens Eye Research Institute and Department of Ophthalmology, Harvard Medical School, Boston, MA 02114, USA.

出版信息

Cornea. 2005 Apr;24(3):312-8. doi: 10.1097/01.ico.0000138852.26332.1c.

Abstract

PURPOSE

To determine the extent to which expression of major histocompatibility complex (MHC) class I and II molecules contributes to rejection of orthotopic corneal transplants in mice.

METHODS

Full-thickness corneas, prepared from eyes of normal C57BL/6 (B6) and BALB/c mice and from B6 mice in which the class II gene I-A or the beta2-microglobulin (beta2mu) gene was disrupted, were placed orthotopically in low- or high-risk eyes of BALB/c (fully incompatible), BALB.B [minor histoincompatible (H) only], and bm12 (class II only disparate) recipients. BALB/c grafts were placed in low-risk eyes of normal B6 and B6 mice with disrupted H-2 DMalpha genes. Graft survival was judged by clinical examination.

RESULTS

Recipient-identical class II, but not class I, molecules on fully allogeneic corneas grafted to low-risk beds promoted graft rejection. Allogeneic class II molecules on fully allogeneic corneas placed in high-risk beds promoted graft rejection more strongly than did allogeneic class I molecules. Neither allogeneic class I molecules nor recipient-identical class II molecules on grafts placed in high-risk beds contributed to graft outcome. Mice deficient in H-2 DMalpha failed to reject fully incompatible cornea grafts.

CONCLUSIONS

On corneal allografts, where minor H antigens are the major barriers to acceptance, allogeneic class II molecules promote rejection if the graft is placed in high-risk eyes, whereas recipient-type class II molecules promote rejection if the graft is placed in low-risk eyes. Allogeneic class I molecules make a minor contribution to rejection only if the grafts are placed in high-risk eyes.

摘要

目的

确定主要组织相容性复合体(MHC)Ⅰ类和Ⅱ类分子的表达在多大程度上导致小鼠原位角膜移植排斥反应。

方法

将从正常C57BL/6(B6)和BALB/c小鼠以及Ⅱ类基因I-A或β2-微球蛋白(β2mu)基因被破坏的B6小鼠眼中制备的全层角膜原位植入BALB/c(完全不相容)、BALB.B[仅次要组织不相容(H)]和bm12(仅Ⅱ类不同)受体的低风险或高风险眼中。将BALB/c移植物植入正常B6和H-2 DMα基因被破坏的B6小鼠的低风险眼中。通过临床检查判断移植物存活情况。

结果

移植到低风险眼床的完全同种异体角膜上的受体相同的Ⅱ类分子而非Ⅰ类分子促进了移植物排斥反应。置于高风险眼床的完全同种异体角膜上的同种异体Ⅱ类分子比同种异体Ⅰ类分子更强烈地促进移植物排斥反应。置于高风险眼床的移植物上的同种异体Ⅰ类分子和受体相同的Ⅱ类分子均未对移植物结果产生影响。缺乏H-2 DMα的小鼠未能排斥完全不相容的角膜移植物。

结论

在角膜同种异体移植中,次要H抗原是接受移植的主要障碍,若移植物置于高风险眼中,同种异体Ⅱ类分子会促进排斥反应;若移植物置于低风险眼中,受体型Ⅱ类分子会促进排斥反应。仅当移植物置于高风险眼中时,同种异体Ⅰ类分子对排斥反应的影响较小。

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