rAAV5-IGF-I转导的自体软骨细胞植入可改善马模型全层软骨缺损的修复情况。

Implantation of rAAV5-IGF-I transduced autologous chondrocytes improves cartilage repair in full-thickness defects in the equine model.

作者信息

Ortved Kyla F, Begum Laila, Mohammed Hussni O, Nixon Alan J

机构信息

Comparative Orthopaedics Laboratory, Cornell University, Ithaca, New York, USA.

Department of Population Medicine and Diagnostic Sciences, College of Veterinary Medicine, Cornell University, Ithaca, New York, USA.

出版信息

Mol Ther. 2015 Feb;23(2):363-73. doi: 10.1038/mt.2014.198. Epub 2014 Oct 14.

DOI:10.1038/mt.2014.198

PMID:25311491

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4445609/

Abstract

Cartilage injury often precipitates osteoarthritis which has driven research to bolster repair in cartilage impact damage. Autologous chondrocytes transduced with rAAV5-IGF-I were evaluated in chondral defects in a well-established large animal model. Cartilage was harvested from the talus of 24 horses; chondrocytes were isolated and stored frozen. Twenty million cells were cultured and transduced with 10(5) AAV vg/cell prior to implantation. Chondrocytes from eight horses were transduced with rAAV5-IGF-I, chondrocytes from eight horses with rAAV5-GFP, and chondrocytes from eight horses were not transduced. A 15 mm full-thickness chondral defect was created arthroscopically in the lateral trochlear ridge of the femur in both femoropatellar joints. Treated defects were filled with naive or gene-enhanced chondrocytes, in fibrin vehicle. Control defects in the opposite limb received fibrin alone. rAAV5-IGF-I transduced chondrocytes resulted in significantly better healing at 8 week arthroscopy and 8 month necropsy examination when compared to controls. At 8 months, defects implanted with cells expressing IGF-I had better histological scores compared to control defects and defects repaired with naive chondrocytes. This included increased chondrocyte predominance and collagen type II, both features of hyaline-like repair tissue. The equine model closely approximates human cartilage healing, indicating AAV-mediated genetic modification of chondrocytes may be clinically beneficial to humans.

摘要

软骨损伤常常会引发骨关节炎，这推动了旨在促进软骨撞击损伤修复的研究。在一个成熟的大型动物模型的软骨缺损中，对用rAAV5-IGF-I转导的自体软骨细胞进行了评估。从24匹马的距骨采集软骨；分离软骨细胞并冷冻保存。植入前，将2000万个细胞进行培养并用10(5)个腺相关病毒载体/细胞进行转导。来自8匹马的软骨细胞用rAAV5-IGF-I转导，来自8匹马的软骨细胞用rAAV5-GFP转导，来自8匹马的软骨细胞未进行转导。在两个髌股关节的股骨外侧滑车嵴上通过关节镜制造一个15毫米的全层软骨缺损。处理过的缺损用未处理的或基因增强的软骨细胞填充于纤维蛋白载体中。对侧肢体的对照缺损仅接受纤维蛋白。与对照组相比，rAAV5-IGF-I转导的软骨细胞在8周关节镜检查和8个月尸检时愈合明显更好。在8个月时，与对照缺损和用未处理软骨细胞修复的缺损相比，植入表达IGF-I细胞的缺损具有更好的组织学评分。这包括软骨细胞优势增加和II型胶原增加，这两者都是透明样修复组织的特征。马模型与人类软骨愈合情况非常相似，表明腺相关病毒介导的软骨细胞基因修饰可能对人类具有临床益处。

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