采用CD34+造血细胞的慢病毒基因疗法治疗甲型血友病
Lentiviral Gene Therapy with CD34+ Hematopoietic Cells for Hemophilia A.
作者信息
Srivastava Alok, Abraham Aby, Aboobacker Fouzia, Singh Gurbind, Geevar Tulasi, Kulkarni Uday, Selvarajan Sushil, Korula Anu, Dave Rutvi Gautam, Shankar Mohana, Singh Abraham S, Jeba Anbu, Kumaar Navien, Benjamin Christopher, Lakshmi Kavitha M, Srivastava Vivi Miriam, Shaji Ramachandran V, Nair Sukesh C, Brown Harrison C, Denning Gabriela, Lollar Pete, Doering Christopher B, Spencer Trent
机构信息
From the Department of Hematology, Christian Medical College Vellore, Ranipet Campus, Vellore, India (A.S., A.A., F.A., U.K., S.S., A.K., A.S.S., A.J., N.K., C.B., K.M.L., R.V.S.); Center for Stem Cell Research Unit of inStem, Bengaluru, Christian Medical College Vellore, Vellore, India (A.S., G.S., M.S., R.V.S.); the Department of Immunohematology and Transfusion Medicine, Christian Medical College Vellore, Town Campus, Vellore, India (T.G., R.G.D., S.C.N.); the Department of Cytogenetics, Christian Medical College Vellore, Vellore, India (V.M.S.); Expression Therapeutics, Tucker, GA (H.C.B., G.D., P.L., C.B.D., T.S.); and Emory University School of Medicine, Children's Healthcare of Atlanta, Atlanta (P.L., C.B.D., T.S.).
出版信息
N Engl J Med. 2025 Jan 30;392(5):450-457. doi: 10.1056/NEJMoa2410597. Epub 2024 Dec 9.
BACKGROUND
Severe hemophilia A is managed with factor VIII replacement or hemostatic products that stop or prevent bleeding. Data on gene therapy with hematopoietic stem-cell (HSC)-based expression of factor VIII for the treatment of severe hemophilia A are lacking.
METHODS
We conducted a single-center study involving five participants 22 to 41 years of age with severe hemophilia A without factor VIII inhibitors. Autologous HSCs were transduced with CD68-ET3-LV - a lentiviral vector including a new transgene () with a myeloid-directed CD68 promoter - either without transduction enhancer (group 1) or with transduction enhancer (group 2). Transduced HSCs were transplanted into recipients after myeloablative conditioning. The treatment was assessed for safety (engraftment and regimen-related toxic effects) and efficacy (factor VIII activity and annualized bleeding rate).
RESULTS
Participants received CD68-ET3-LV-transduced autologous CD34+ HSCs at doses of 5.0×10 to 6.1×10 per kilogram of body weight. The vector copy numbers in the final drug product were 1.0 and 0.6 copies per cell for the two participants in group 1 and 1.5, 0.6, and 2.2 copies per cell for the three participants in group 2. The duration of severe neutropenia was 7 to 11 days and of severe thrombocytopenia was 1 to 7 days. The median factor VIII activity level, measured with the use of a one-stage assay, after day 28 until the last follow-up visit was 5.2 IU per deciliter (range, 3.0 to 8.7) and 1.7 IU per deciliter (range, 1.0 to 4.0) with a peripheral-blood vector copy number of 0.2 and 0.1 copies per cell, respectively, in the two group 1 participants, and 37.1 IU per deciliter (range, 18.3 to 73.6), 19.3 IU per deciliter (range, 6.6 to 34.5), and 39.9 IU per deciliter (range, 20.6 to 55.1) with a peripheral-blood vector copy number of 4.4, 3.2, and 4.8 copies per cell, respectively, in the three group 2 participants. The annualized bleeding rate was zero for all five participants over a cumulative follow-up of 81 months (median follow-up, 14 months; range, 9 to 27).
CONCLUSIONS
Gene therapy for hemophilia A with the use of lentiviral vector-transduced autologous HSCs resulted in stable factor VIII expression, with factor VIII activity correlating to vector copy number in the peripheral blood. (Funded by the Ministry of Science and Technology, Government of India, and others; ClinicalTrials.gov number, NCT05265767; Clinical Trials Registry-India number, CTRI/2022/03/041304.).
背景
重度甲型血友病采用凝血因子 VIII 替代疗法或使用止血产品来止血或预防出血。目前缺乏关于利用基于造血干细胞(HSC)表达凝血因子 VIII 进行基因治疗重度甲型血友病的数据。
方法
我们开展了一项单中心研究,纳入了 5 名年龄在 22 至 41 岁之间、患有重度甲型血友病且无凝血因子 VIII 抑制剂的参与者。自体造血干细胞用 CD68-ET3-LV 进行转导,这是一种慢病毒载体,包含一个新的转基因,带有髓系定向的 CD68 启动子,一组不使用转导增强剂(第 1 组),另一组使用转导增强剂(第 2 组)。在清髓预处理后,将转导后的造血干细胞移植到受体体内。对该治疗进行安全性(植入情况和与治疗方案相关的毒性作用)和疗效(凝血因子 VIII 活性和年化出血率)评估。
结果
参与者接受了每千克体重 5.0×10 至 6.1×10 剂量的 CD68-ET3-LV 转导的自体 CD34+造血干细胞。第 1 组的两名参与者最终药物产品中的载体拷贝数为每细胞 1.0 和 0.6 拷贝,第 2 组的三名参与者为每细胞 1.5、0.6 和 2.2 拷贝。严重中性粒细胞减少的持续时间为 7 至 11 天,严重血小板减少的持续时间为 1 至 7 天。在第 28 天直至最后一次随访期间,使用一步法测定的凝血因子 VIII 活性中位数水平,第 1 组的两名参与者外周血载体拷贝数分别为每细胞 0.2 和 0.1 拷贝时,为 5.2 IU/分升(范围 3.0 至 8.7)和 1.7 IU/分升(范围 1.0 至 4.0);第 2 组的三名参与者外周血载体拷贝数分别为每细胞 4.4、3.2 和 4.8 拷贝时,为 37.1 IU/分升(范围 18.3 至 73.6)、19.3 IU/分升(范围 6.6 至 34.5)和 39.9 IU/分升(范围 20.6 至 55.1)。在累计 81 个月的随访(中位随访时间 14 个月;范围 9 至 27 个月)中,所有 5 名参与者的年化出血率均为零。
结论
使用慢病毒载体转导的自体造血干细胞对甲型血友病进行基因治疗可实现稳定的凝血因子 VIII 表达,凝血因子 VIII 活性与外周血中的载体拷贝数相关。(由印度政府科技部等资助;ClinicalTrials.gov 编号,NCT05265767;印度临床试验注册中心编号,CTRI/2022/03/041304。)
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