Gene therapy for rare haematological and neurometabolic paediatric diseases

Vera Gallo , Alessandro Aiuti
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Abstract

Nowadays, gene therapy hast the potential to cure an increasingly greater number of monogenic inherited disorders with absent or limited treatment options, and radically change their natural history. Hematopoietic stem cells (HSCs) represent one of the preferred targets for gene therapy, as genetic modification of multipotent cells ensures a permanent correction of the progeny. Gene-corrected HSCs and their progeny can also be used as cell vehicles to deliver molecules into the circulation and tissues, including the central nervous system or the skeleton. Major successes of this approach have been achieved in the field of monogenic blood disorders and neurometabolic diseases and several medicinal products have recently reached the stage of marketing approval by the EMA based on safety and efficacy data collected over more than 10 years of clinical trials. Gene therapy for these severe pathologies offers undeniable advantages over the sole alternative therapy of allogeneic transplantation because it can be applied to every patient, even when no matched HLA donor is available, reducing mortality and complications related to allogeneic transplantation, such as graft-versus-host disease, graft rejection, organ toxicity, and infections. Additionally, in neurometabolic diseases, gene therapy allows supra-physiological expression of the transgene, consequently producing supra-normal levels of the missing enzyme, providing a greater clinical benefit compared to allogeneic transplantation. Despite these remarkable achievements, several challenges remain for HSPC gene therapy regarding access to treatment and its sustainability for the future.

罕见血液病和神经代谢性儿科疾病的基因疗法
如今,基因疗法有可能治愈越来越多的单基因遗传性疾病,这些疾病没有治疗方案或治疗方案有限,基因疗法还能从根本上改变这些疾病的自然病史。造血干细胞(HSCs)是基因疗法的首选目标之一,因为对多能细胞进行基因修饰可确保后代得到永久性矫正。经过基因修饰的造血干细胞及其后代还可用作细胞载体,将分子送入血液循环和组织,包括中枢神经系统或骨骼。这种方法在单基因血液病和神经代谢性疾病领域取得了重大成功,根据十多年临床试验收集的安全性和有效性数据,几种药物产品最近已获得欧洲医学管理局(EMA)的上市批准。与同种异体移植这种唯一的替代疗法相比,基因疗法在治疗这些严重疾病方面具有不可否认的优势,因为它可以应用于每一位患者,即使在没有匹配的 HLA 供体的情况下也是如此,从而降低了死亡率,减少了与同种异体移植相关的并发症,如移植物抗宿主病、移植物排斥、器官毒性和感染。此外,对于神经代谢性疾病,基因疗法可使转基因超生理表达,从而产生超正常水平的缺失酶,与异体移植相比,临床获益更大。尽管取得了这些令人瞩目的成就,但 HSPC 基因疗法在治疗的可及性和未来的可持续性方面仍面临一些挑战。
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Global pediatrics
Global pediatrics Perinatology, Pediatrics and Child Health
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