Cre/loxP介导的CTLA4IgG基因转移通过体内的开关基因重组诱导具有临床相关性的免疫抑制。

Cre/loxP-mediated CTLA4IgG gene transfer induces clinically relevant immunosuppression via on-off gene recombination in vivo.

作者信息

Izawa Atsushi, Sano Kenji, Takehara Megumi, Inobe Manabu, Suzuki Jun-ichi, Imamura Hiroshi, Takahashi Masafumi, Ikeda Uichi, Isobe Mitsuaki, Uede Toshimitsu

机构信息

Department of Organ Regeneration, Shinshu University Graduate School of Medicine, Matsumoto, Japan.

出版信息

Cardiovasc Res. 2006 Jan;69(1):289-97. doi: 10.1016/j.cardiores.2005.07.021. Epub 2005 Sep 26.

DOI:10.1016/j.cardiores.2005.07.021

Abstract

OBJECTIVE

Transfer of the CTLA4IgG gene induces long-term and high levels of CTLA4IgG expression, which can result in generalized immunosuppression. In this study, we utilized Cre/loxP-mediated on-off switch recombination to eliminate transgene expression of CTLA4IgG following acceptance of murine cardiac allografts.

METHODS

Fully MHC-mismatched hearts from BALB/c donor mice were transplanted into C3H/He recipient mice. Adenovirus-containing CTLA4IgG flanked between two loxP sites was administered via a recipient tail vein immediately after transplantation. Cre-recombinase gene was subsequently transferred at day 30 posttransplantation.

RESULTS

Long-term allograft survival was observed in recipients that received the CTLA4IgG gene. Cre-mediated recombination reduced CTLA4IgG gene expression without any adverse effect on the graft survival. Secondary skin grafts of donor type and of third party were promptly rejected in the recipients that accepted cardiac allografts. In addition, the B cell response against ovalbumin was suppressed during high levels of serum CTLA4IgG, but recovered after Cre-mediated inactivation of CTLA4IgG gene.

CONCLUSION

CTLA4IgG gene transfer promoted long-term survival of murine cardiac allografts; however, this was not sufficient to induce tolerance. Cre/loxP-mediated on-off switch recombination was useful to inactivate the CTLA4IgG gene so that recipients' immune responses against neoantigens were restored without an influence on the allograft survival. This system may open novel strategies to orchestrate clinically relevant immunosuppression.

摘要

目的

CTLA4IgG基因的转移可诱导长期且高水平的CTLA4IgG表达，这可能导致全身性免疫抑制。在本研究中，我们利用Cre/loxP介导的开关重组在小鼠心脏同种异体移植被接受后消除CTLA4IgG的转基因表达。

方法

将来自BALB/c供体小鼠的完全MHC不匹配的心脏移植到C3H/He受体小鼠体内。在移植后立即通过受体尾静脉给予含两个loxP位点侧翼的CTLA4IgG的腺病毒。随后在移植后第30天转移Cre重组酶基因。

结果

接受CTLA4IgG基因的受体中观察到长期同种异体移植物存活。Cre介导的重组降低了CTLA4IgG基因表达，而对移植物存活没有任何不利影响。接受心脏同种异体移植的受体中，供体类型和第三方的二次皮肤移植物迅速被排斥。此外，在血清CTLA4IgG水平高时，针对卵清蛋白的B细胞反应受到抑制，但在Cre介导的CTLA4IgG基因失活后恢复。

结论

CTLA4IgG基因转移促进了小鼠心脏同种异体移植物的长期存活；然而，这不足以诱导耐受。Cre/loxP介导的开关重组可用于使CTLA4IgG基因失活，从而在不影响同种异体移植物存活的情况下恢复受体针对新抗原的免疫反应。该系统可能为协调临床相关的免疫抑制开辟新策略。