Klonjkowski B, Gilardi-Hebenstreit P, Hadchouel J, Randrianarison V, Boutin S, Yeh P, Perricaudet M, Kremer E J
CNRS URA 1301/Rhône-Poulenc Rorer Gencell, Laboratoire de Génétique des Virus Oncogènes, Institut Gustave Roussy, Villejuif, France.
Hum Gene Ther. 1997 Nov 20;8(17):2103-15. doi: 10.1089/hum.1997.8.17-2103.
Human adenovirus (HAV) serotypes 2 and 5 are commonly used as vector backbones for adenovirus-mediated gene transfer. However, HAVs were chosen as a backbone for the vectors for historical reasons and have a number of significant disadvantages when used as a shuttle for gene transfer in humans. As an initial trial to circumvent some of the shortcomings of HAV vectors, we have produced an E1-deleted canine adenovirus type 2 (CAV-2) vector for gene transfer. Initially, we demonstrated that CAV-2 undergoes an abortive viral cycle in a wide range of human-derived cell lines. Second, we assayed human sera containing HAV-5 neutralizing antibodies for their ability to inhibit CAV-2-induced plaques on permissive cells. In the cohort tested, our data demonstrate that the humoral response directed against HAV-5 does not inhibit CAV-2 plaque formation in the majority of cases. Canine cell lines expressing the E1 region of CAV-2 were generated and characterized. A recombinant CAV vector (CAVRSVbetagal) deleted in the E1 region and harboring lacZ was constructed. We show that CAVRSVbetagal is able to transduce and direct expression of the transgene in vitro in a variety of mammalian cells, most notably primary human-derived cells. In addition, gene transfer is demonstrated in vivo using chick embryos.
人腺病毒(HAV)血清型2和5通常用作腺病毒介导的基因转移的载体骨架。然而,选择HAV作为载体骨架是出于历史原因,并且在用作人类基因转移的载体时存在许多重大缺点。作为克服HAV载体某些缺点的初步试验,我们构建了一种用于基因转移的E1区缺失的犬2型腺病毒(CAV-2)载体。首先,我们证明CAV-2在多种人源细胞系中经历流产性病毒周期。其次,我们检测了含有HAV-5中和抗体的人血清抑制CAV-2在允许细胞上诱导噬斑的能力。在测试的队列中,我们的数据表明,在大多数情况下,针对HAV-5的体液反应不会抑制CAV-2噬斑形成。构建并鉴定了表达CAV-2 E1区的犬细胞系。构建了一种在E1区缺失并携带lacZ的重组CAV载体(CAVRSVbetagal)。我们表明,CAVRSVbetagal能够在体外多种哺乳动物细胞中,最显著的是原代人源细胞中,转导并指导转基因的表达。此外,利用鸡胚在体内证明了基因转移。
