Khan Aneal, Barber Dwayne L, McKillop William M, Rupar C Anthony, Auray-Blais Christiane, Fraser Graeme, Fowler Daniel H, Berger Alexandra, Foley Ronan, Keating Armand, West Michael L, Medin Jeffrey A
M.A.G.I.C. (Metabolics and Genetics in Canada) Clinic, Calgary, Alberta, Canada.
Department of Laboratory Medicine and Pathobiology, University of Toronto, Toronto, Ontario, Canada.
Clin Transl Med. 2025 Jan;15(1):e70073. doi: 10.1002/ctm2.70073.
Fabry disease is an X-linked lysosomal storage disorder due to a deficiency of α-galactosidase A (α-gal A) activity. Our goal was to correct the enzyme deficiency in Fabry patients by transferring the cDNA for α-gal A into their CD34+ hematopoietic stem/progenitor cells (HSPCs). Overexpression of α-gal A leads to secretion of the hydrolase; which can be taken up and used by uncorrected bystander cells. Gene-augmented HSPCs can circulate and thus provide sustained systemic correction. Interim results from this 'first-in-the-world' Canadian FACTs (Fabry Disease Clinical Research and Therapeutics) trial were published in 2021. Herein we report 5-year 'End-of-Study' results.
Five males with classical Fabry disease were treated. Their HSPCs were mobilized, enriched, and transduced with a recombinant lentivirus engineering expression of α-gal A. Autologous transduced cells were infused after conditioning with a nonmyeloablative, reduced dose, melphalan regimen. Safety monitoring was performed. α-Gal A activity was measured in plasma and peripheral blood (PB) leucocytes. Globotriaosylceramide (Gb3) and lyso-Gb3 levels in urine and plasma were assessed by mass spectrometry. qPCR assays measured vector copy number in PB leucocytes. Antibody titers were measured by ELISA. Body weight, blood pressure, urinary protein levels, eGFR, troponin levels, and LVMI were tracked.
Four out of 5 patients went home the same day as their infusions; one was kept overnight for observation. Circulating α-gal A activity was observed at Day 6-8 in each patient following infusion and has remained durable for 5+ years. LV marking of peripheral blood cells has remained durable and polyclonal. All 5 patients were eligible to come off biweekly enzyme therapy; 3 patients did so. Plasma lyso-Gb3 was significantly lower in 4 of 5 patients. There was no sustained elevation of anti-α-gal A antibodies. Patient weight was stable in 4 of the 5 patients. All blood pressures were in the normal range. Kidney symptoms were stabilized in all patients.
This treatment was well tolerated as only two SAEs occurred (during the treatment phase) and only two AEs were reported since 2021. We demonstrate that this therapeutic approach has merit, is durable, and should be explored in a larger clinical trial.
This was the first gene therapy clinical trial to be completed for Fabry disease. There were no adverse events of any grade attributable to the cellular gene therapy intervention or host conditioning throughout the follow-up interval of 5 years. After reduced-intensity melphalan treatment, all patients engrafted their autologous modified α-gal A expressing cells. All patients synthesized and secreted α-gal A throughout the course of the study. Expression of α-gal A resulted in a decrease in plasma lyso-Gb3 in four of five patients and stabilization of kidney symptoms in all patients.
法布里病是一种X连锁溶酶体贮积症,因α-半乳糖苷酶A(α-gal A)活性缺乏所致。我们的目标是通过将α-gal A的cDNA导入法布里病患者的CD34+造血干/祖细胞(HSPCs)来纠正酶缺乏。α-gal A的过表达导致水解酶的分泌,未纠正的旁观者细胞可以摄取并利用该水解酶。基因增强的HSPCs可以循环,从而实现持续的全身纠正。这项“世界首例”加拿大法布里病临床研究与治疗(FACTs)试验的中期结果于2021年发表。在此,我们报告5年的“研究结束”结果。
对5名患有经典型法布里病的男性进行治疗。动员、富集他们的HSPCs,并用表达α-gal A的重组慢病毒进行转导。在用非清髓性、低剂量美法仑方案预处理后,输注自体转导细胞。进行安全性监测。检测血浆和外周血(PB)白细胞中的α-gal A活性。通过质谱法评估尿液和血浆中的球三糖神经酰胺(Gb3)和溶血-Gb3水平。qPCR分析检测PB白细胞中的载体拷贝数。通过ELISA检测抗体滴度。跟踪体重、血压、尿蛋白水平、估算肾小球滤过率(eGFR)、肌钙蛋白水平和左心室质量指数(LVMI)。
5名患者中有4名在输注当天出院;1名患者留院观察一晚。输注后第6 - 8天,每名患者均观察到循环α-gal A活性,且持续了5年以上。外周血细胞的LV标记持续存在且为多克隆性。所有5名患者均符合停止每两周一次酶替代治疗的条件;3名患者已停止治疗。5名患者中有4名的血浆溶血-Gb3显著降低。抗α-gal A抗体未出现持续升高。5名患者中有4名体重稳定。所有血压均在正常范围内。所有患者的肾脏症状均得到稳定。
该治疗耐受性良好,因为仅发生了两例严重不良事件(在治疗阶段),自2021年以来仅报告了两例不良事件。我们证明这种治疗方法具有价值、效果持久,应在更大规模的临床试验中进行探索。
这是首个完成的法布里病基因治疗临床试验。在5年的随访期间,没有任何归因于细胞基因治疗干预或宿主预处理的任何级别的不良事件。在接受低强度美法仑治疗后,所有患者均植入了自体表达修饰α-gal A的细胞。在整个研究过程中,所有患者均合成并分泌α-gal A。α-gal A的表达导致5名患者中有4名的血浆溶血-Gb降低,所有患者的肾脏症状均得到稳定。
