Miyazaki Masashi, Sugiyama Osamu, Tow Benjamin, Zou Jun, Morishita Yuichiro, Wei Feng, Napoli Antonia, Sintuu Chananit, Lieberman Jay R, Wang Jeffrey C
Department of Orthopaedic Surgery, University of California at Los Angeles, Los Angeles, CA 90095, USA.
J Spinal Disord Tech. 2008 Jul;21(5):372-9. doi: 10.1097/BSD.0b013e31814cf51d.
Rat spinal fusion model.
This study aimed to assess the ability of rat bone marrow cells (RBMCs) transfected with bone morphogenetic protein (BMP)-2-containing lentivirus to induce a posterolateral spinal fusion in a rat model.
Spinal arthrodesis is a commonly performed spinal procedure and autograft remains the standard for achieving spinal fusion. However, its procurement is associated with significant morbidity, and the rate of pseudoarthrosis has been reported to be 5% to 43%. Nonunion frequently leads to an unsatisfactory resolution of clinical symptoms and usually results in high medical costs and morbidity as well as the need for additional surgeries. These problems have led surgeons to search for alternative solutions to stimulate bone formation. Recombinant BMPs have also been used successfully in clinical trials. However, large doses of BMPs were required to induce adequate bone repair. The development of a regional gene therapy may be a more efficient method to deliver proteins to a specific anatomic site. Furthermore, adeno-BMP-2-producing rat bone marrow-derived cells have been used successfully to induce posterior spinal fusion. Recently, lentiviral vectors on the basis of human immunodeficiency virus have been developed for gene therapy. Lentiviruses are capable of insertion into the host genome, ensuring a prolonged gene expression. However, safety issues are a major concern when adopting these vectors for clinical use.
In vitro study, we used RBMCs transfected with lentivirus vectors encoding BMP-2 (Lenti-BMP-2), RBMCs transfected with lentivirus vectors encoding the green fluorescent protein (GFP) (Lenti-GFP), and untransfected RBMCs; the latter 2 were used as controls. Alkaline phosphatase (ALP) staining and ALP activity were compared between the groups to assess the ability of the Lenti-BMP-2-transfected RBMCs to stimulate osteoblastic differentiation. In the rat posterolateral spine fusion model, the experimental study comprised 4 groups. Group 1 comprised 6 animals that were implanted with a collagen sponge containing 5 million RBMCs transfected with Lenti-BMP-2. Group 2 comprised 3 animals that were implanted with a collagen sponge containing 5 million RBMCs transfected with Lenti-GFP. Group 3 comprised 6 animals that were implanted with a collagen sponge containing 5 million untransfected RBMCs. Group 4 comprised 3 animals that were implanted with a collagen sponge alone. The rats were assessed by radiographs obtained at 4, 6, and 8 weeks. After death, their spines were explanted and assessed by manual palpation, high-resolution microcomputerized tomography, and histologic analysis.
The ALP staining was significantly greater in the Lenti-BMP-2-transfected RBMCs than in the untransfected RBMCs and the Lenti-GFP-transfected RBMCs. The ALP activity was 3-fold greater in the Lenti-BMP-2-transfected RBMCs than in the untransfected RBMCs and the Lenti-GFP-transfected RBMCs. In the rat spine fusion model, radiographic evaluation, high-resolution microcomputerized tomography, and manual palpation revealed spinal fusion in all the rats in Group 1 at 8 weeks. Groups 2, 3, and 4 comprised the control group. None of the rats in the control group (0 of 12) developed fusion at L4-L5.
The present study demonstrated that BMP-2-producing RBMCs, created through lentiviral gene transfer, induced sufficient spinal fusion. The use of lentiviral vectors that contain the cDNA for BMP-2 will be a novel and promising approach for a spinal fusion strategy.
大鼠脊柱融合模型。
本研究旨在评估用含骨形态发生蛋白(BMP)-2的慢病毒转染的大鼠骨髓细胞(RBMCs)在大鼠模型中诱导后外侧脊柱融合的能力。
脊柱融合术是一种常见的脊柱手术,自体骨移植仍是实现脊柱融合的标准方法。然而,获取自体骨会带来显著的发病率,据报道假关节形成率为5%至43%。骨不连常常导致临床症状的解决效果不理想,通常还会导致高昂的医疗费用和发病率增加,以及需要额外的手术。这些问题促使外科医生寻找刺激骨形成的替代解决方案。重组BMPs也已在临床试验中成功应用。然而,需要大剂量的BMPs才能诱导足够的骨修复。区域基因治疗的发展可能是将蛋白质递送至特定解剖部位的更有效方法。此外,产生腺病毒-BMP-2的大鼠骨髓来源细胞已成功用于诱导后路脊柱融合。最近,基于人类免疫缺陷病毒的慢病毒载体已被开发用于基因治疗。慢病毒能够插入宿主基因组,确保基因的长期表达。然而,在将这些载体用于临床时,安全问题是一个主要关注点。
在体外研究中,我们使用了用编码BMP-2的慢病毒载体转染的RBMCs(Lenti-BMP-2)、用编码绿色荧光蛋白(GFP)的慢病毒载体转染的RBMCs(Lenti-GFP)以及未转染的RBMCs;后两者用作对照。比较各组之间的碱性磷酸酶(ALP)染色和ALP活性,以评估Lenti-BMP-2转染的RBMCs刺激成骨细胞分化的能力。在大鼠后外侧脊柱融合模型中,实验研究包括4组。第1组包括6只动物,植入含有500万个用Lenti-BMP-2转染的RBMCs的胶原海绵。第2组包括3只动物,植入含有500万个用Lenti-GFP转染的RBMCs的胶原海绵。第3组包括6只动物,植入含有500万个未转染的RBMCs的胶原海绵。第4组包括3只动物,仅植入胶原海绵。在4、6和8周时通过X线片对大鼠进行评估。处死大鼠后,取出其脊柱,通过手动触诊、高分辨率微型计算机断层扫描和组织学分析进行评估。
Lenti-BMP-2转染的RBMCs中的ALP染色明显高于未转染的RBMCs和Lenti-GFP转染的RBMCs。Lenti-BMP-2转染的RBMCs中的ALP活性比未转染的RBMCs和Lenti-GFP转染的RBMCs高3倍。在大鼠脊柱融合模型中,X线评估、高分辨率微型计算机断层扫描和手动触诊显示,第1组所有大鼠在8周时均实现了脊柱融合。第2、3和4组为对照组。对照组的大鼠(12只中的0只)在L4-L5节段均未形成融合。
本研究表明,通过慢病毒基因转移产生的产生BMP-2的RBMCs可诱导充分的脊柱融合。使用含有BMP-2 cDNA的慢病毒载体将是一种用于脊柱融合策略的新颖且有前景的方法。
