Amado Rafael G, Mitsuyasu Ronald T, Rosenblatt Joseph D, Ngok Frances K, Bakker Andreas, Cole Steve, Chorn Nathalie, Lin Lii-Shin, Bristol Gregory, Boyd Maureen P, MacPherson Janet L, Fanning Gregory C, Todd Alison V, Ely Julie A, Zack Jerome A, Symonds Geoff P
Department of Medicine and UCLA AIDS Institute, University of California, Los Angeles, CA 90095, USA.
Hum Gene Ther. 2004 Mar;15(3):251-62. doi: 10.1089/104303404322886101.
A phase I gene transfer clinical study was undertaken to examine the ability to introduce a potential anti-human immunodeficiency virus (HIV) gene therapeutic into hematopoietic progenitor cells (HPC), thereby contributing to multilineage engraftment. The potential therapeutic effect of genetically modifying HPC with protective genes in HIV-infected adults depends in part on the presence of adult thymic activity and myeloid capacity in the setting of HIV replication. Herein we report the presence and expression of a retroviral vector encoding an anti-HIV-1 ribozyme in mature hematopoietic cells of different lineages, and de novo T-lymphocyte development ensuing from genetically engineered CD34(+) HPC. Sustained output of vector-containing mature myeloid and T-lymphoid cells was detected even in patients with multidrug-resistant infection. In addition, the study showed that the degree of persistence of gene-containing cells was dependent on transduced HPC dose. These novel findings support the concept of gene therapy as a modality to effect immune reconstitution with cells engineered to inhibit HIV replication and this report represents the first demonstration of long-term maintenance of a potential therapeutic transgene in HIV disease.
开展了一项I期基因转移临床研究,以检验将一种潜在的抗人类免疫缺陷病毒(HIV)基因疗法导入造血祖细胞(HPC)的能力,从而促进多谱系植入。在HIV感染的成年人中,用保护性基因对HPC进行基因改造的潜在治疗效果部分取决于HIV复制情况下成人胸腺活性和髓系能力的存在。在此,我们报告了在不同谱系的成熟造血细胞中存在并表达编码抗HIV-1核酶的逆转录病毒载体,以及基因工程改造的CD34(+) HPC产生的新生T淋巴细胞发育。即使在多重耐药感染患者中也检测到了含有载体的成熟髓系和T淋巴细胞的持续产出。此外,研究表明,含基因细胞的持续程度取决于转导的HPC剂量。这些新发现支持了基因疗法作为一种通过工程改造细胞抑制HIV复制来实现免疫重建的方式的概念,本报告首次证明了在HIV疾病中潜在治疗性转基因的长期维持。