In utero hematopoietic stem cell transplants for inherited diseases.

M J Cowan, M Golbus
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Abstract

Purpose: The treatment of choice for many inherited diseases is bone marrow transplantation (BMT). Limitations to using marrow transplants for inherited diseases include (a) the toxicity associated with high doses of chemotherapy necessary to obtain engraftment; (b) the complications associated with graft-versus-host disease (GVHD); (c) the fact that only 20-25% of children will have a human leukocyte antigen (HLA)-matched donor; and (d) the concern that, at least for some inherited diseases, significant organ damage, especially to the nervous system, has occurred by the time the child is diagnosed and evaluated for possible BMT. In utero transplantation of hematopoietic stem cells (HSCs) offers the possibility of overcoming many of these limitations.

Patients and methods: One of the biggest hurdles to a successful transplant is the ability of the recipient to reject the donor marrow. Except in patients with severe combined immunodeficiency disease (SCID), overcoming this hurdle requires high doses of chemotherapy. Early in gestation, the fetus is significantly immunoincompetent. Before 14-15 weeks of gestation, the human fetus appears to be similar to a child with SCID in its inability to reject allogeneic cells. Potential sources for HSCs are HLA-matched sibling marrow, fetal liver, parental bone marrow, and cord blood.

Results: With fetal liver, only cells from fetuses < 10-12 weeks are acceptable because of the high risk of GVHD. With parental marrow, the cells must be T cell depleted in order to minimize the risk for GVHD. Problems in using fetal liver include the inability to obtain sufficient numbers of cells and inadequate supplies of donor tissue. The source and supply of parental bone marrow is almost unlimited, but, because of the need for T-cell depletion, bone marrow from a parent may have a lower engraftment rate in the child.

Conclusions: Studies in fetal murine and Rhesus models using fetal liver or T cell-depleted bone marrow from adult animals suggest that engraftment can be successfully obtained, providing the transplant is performed sufficiently early in gestation. To date, at least a dozen in utero human transplants have been attempted worldwide in fetuses diagnosed with a variety of inherited diseases. Because of the small number of transplanted fetuses and the variety of diseases and differing transplant conditions, it is difficult to draw any firm conclusions regarding ultimate efficacy of the procedure and its risk. However, it does appear that the age of gestation of the recipient, the dose of cells infused, and possibly the route of administration of the HSCs will be critical factors in determining success rates for this approach. The successful application of in utero transplantation would allow treatment of a variety of inherited diseases early in gestation while eliminating many of the risks associated with conventional BMT.

子宫内造血干细胞移植治疗遗传性疾病。
目的:骨髓移植是许多遗传性疾病的首选治疗方法。使用骨髓移植治疗遗传性疾病的限制包括:(a)获得骨髓移植所需的高剂量化疗的毒性;(b)移植物抗宿主病(GVHD)相关并发症;(c)只有20-25%的儿童会有与人类白细胞抗原(HLA)匹配的供体;(d)人们担心,至少对于某些遗传性疾病来说,在儿童被诊断和评估可能的BMT时,已经发生了严重的器官损伤,尤其是神经系统损伤。在子宫内移植造血干细胞(hsc)提供了克服许多这些限制的可能性。患者和方法:移植成功的最大障碍之一是接受者对供体骨髓的排斥能力。除了患有严重联合免疫缺陷疾病(SCID)的患者外,克服这一障碍需要高剂量的化疗。在妊娠早期,胎儿有明显的免疫功能不全。在妊娠14-15周之前,人类胎儿似乎与患有SCID的儿童相似,无法排斥异体细胞。造血干细胞的潜在来源是hla匹配的兄弟姐妹骨髓、胎儿肝脏、父母骨髓和脐带血。结果:由于GVHD的高风险,只有小于10-12周的胎儿肝细胞是可接受的。对于亲代骨髓,细胞必须是T细胞耗尽,以尽量减少患GVHD的风险。使用胎儿肝脏的问题包括无法获得足够数量的细胞和供体组织供应不足。父母骨髓的来源和供应几乎是无限的,但是,由于需要消耗t细胞,来自父母的骨髓在孩子体内的移植率可能较低。结论:在胚胎小鼠和恒河猴模型中使用成年动物的胎儿肝脏或T细胞耗尽的骨髓进行的研究表明,如果在妊娠早期进行移植,可以成功地获得移植。迄今为止,全世界至少有12例被诊断患有各种遗传性疾病的胎儿在子宫内进行了人体移植手术。由于移植胎儿数量少,疾病种类多,移植条件不同,因此很难得出关于该手术的最终疗效及其风险的确切结论。然而,似乎受体的妊娠年龄、输注细胞的剂量以及可能的造血干细胞给药途径将是决定该方法成功率的关键因素。子宫移植的成功应用将允许在妊娠早期治疗各种遗传性疾病,同时消除与传统BMT相关的许多风险。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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