Kawano Y, Takaue Y, Watanabe A, Takeda O, Arai K, Itoh E, Ohno Y, Teshima T, Harada M, Watanabe T, Okamoto Y, Abe T, Kajiume T, Matsushita T, Ikeda K, Endo M, Kuroda Y, Asano S, Tanosaki R, Yamaguchi K, Law P, McMannis J D
Department of Pediatrics, University of Tokushima, Tokushima; National Cancer Center Hospital, Tokyo; the Department of Pediatrics, University of Akita, Japan.
Blood. 1998 Nov 1;92(9):3123-30.
This was a phase I, multi-center study of 13 pediatric patients (median age, 11 years) to evaluate toxicity, hematopoietic recovery, and graft-versus-host disease (GVHD) after allogeneic transplantation of enriched blood CD34(+) cells obtained from genotypically haploidentical but partially HLA-mismatched related donors (8 parents and 5 siblings). With regard to rejection, donor HLA disparity was 1 (5), 2 (6), or 3 loci (2). With regard to GVHD, recipient HLA disparity was 0 (1), 1 (3), 2 (8), or 3 (1). The patients suffered from acute myelogenous leukemia (6), chronic myelogenous leukemia (4), acute lymphoblastic leukemia (2), or hemolytic anemia plus immunodeficiency disorder (1). To reduce the risk of graft failure through the infusion of a large amount of stem cells, peripheral blood cells (PBC) were mobilized by recombinant granulocyte colony-stimulating factor (G-CSF; lenograstim, 10 microgram/kg/d for 5 days) and collected by 2 to 5 aphereses. To both enhance engraftment and reduce GVHD, CD34(+) cells were enriched using immunomagnetic procedures with the Baxter ISOLEX 300 system (Baxter Healthcare Corp, Irvine, CA) and cryopreserved. After variable cytoreductive regimens, a median of 7.7 (range, 2.2 to 14) x 10(6)/kg of CD34(+) cells and 1.03 (0.05 to 2.09) x 10(5)/kg CD3(+) cells were infused. Using Center-specific posttransplant supportive care and immunosuppressive GVHD prophylaxis, two patients experienced early death; one from veno-occlusive disease at day 17 and one from sepsis at day 18. Nine of 11 patients showed signs of engraftment; however, subsequent rejection was seen in 4 patients, 2 of whom had autologous recovery. Eight patients were evaluated in the early phase of marrow recovery. The median number of days to achieve an absolute granulocyte count of 0.5 x 10(9)/L was 14 (range, 9 to 20) and that to achieve a platelet count of 20 x 10(9)/L was 17.5 (range, 12 to 23). Donor chimerism persisted in five patients until death or current survival. All of the surviving patients with functioning-donor-type hematopoiesis were given total body irradiation. De novo acute GVHD (grades II and IV) was observed in two of the eight evaluated patients. Scheduled donor lymphocyte infusion (DLI), using the CD34(-) fraction, was administered to four patients, free of de novo acute GVHD, beginning between 28 to 43 days after transplant. Three of these patients developed acute GVHD (grades I, II, and IV). Cytomegalovirus infection was a major infectious complication but was successfully managed with gamma-globulin and gancyclovir treatment with or without additional DLI. Five patients are currently surviving, free of disease, with a follow-up ranging from 476 to 937 days. Each survivor has functioning hematopoiesis, three of donor origin and two of autologous origin. In conclusion, our results show that enriched blood CD34(+) cells from a mismatched haploidentical donor are a feasible alternative source of stem cells, but do not appear to ensure engraftment. Because none of the patients who were administered DLI survived, the therapeutic efficacy and safety of periodic DLI, as an integrated part of such transplants, needs to be clarified in further studies.
这是一项I期多中心研究,纳入了13例儿科患者(中位年龄11岁),旨在评估从基因型单倍体相同但部分HLA不匹配的相关供者(8例父母和5例兄弟姐妹)获得的富集血液CD34(+)细胞进行异基因移植后的毒性、造血恢复及移植物抗宿主病(GVHD)情况。关于排斥反应,供者HLA错配为1个位点(5例)、2个位点(6例)或3个位点(2例)。关于GVHD,受者HLA错配为0个位点(1例)、1个位点(3例)、2个位点(8例)或3个位点(1例)。患者所患疾病为急性髓系白血病(6例)、慢性髓系白血病(4例)、急性淋巴细胞白血病(2例)或溶血性贫血加免疫缺陷病(1例)。为降低因大量输注干细胞导致移植失败的风险,通过重组粒细胞集落刺激因子(G-CSF;来格司亭,10μg/kg/d,共5天)动员外周血细胞(PBC),并通过2至5次单采进行采集。为增强植入并减少GVHD,使用百特ISOLEX 300系统(百特医疗保健公司,加利福尼亚州欧文市)的免疫磁选程序富集CD34(+)细胞并进行冷冻保存。在采用不同的细胞减灭方案后,中位输注7.7(范围2.2至14)×10(6)/kg的CD34(+)细胞和1.03(0.05至2.09)×10(5)/kg的CD3(+)细胞。采用各中心特定的移植后支持治疗及免疫抑制性GVHD预防措施,2例患者早期死亡;1例于第17天死于静脉闭塞性疾病,另1例于第18天死于败血症。11例患者中有9例显示出植入迹象;然而,4例患者出现了后续排斥反应,其中2例实现了自体恢复。8例患者在骨髓恢复早期接受了评估。达到绝对粒细胞计数0.5×10(9)/L的中位天数为14天(范围9至20天),达到血小板计数20×10(9)/L的中位天数为17.5天(范围12至23天)。5例患者的供者嵌合体持续存在直至死亡或目前仍存活。所有存活且具有供者型功能性造血的患者均接受了全身照射。在8例接受评估的患者中,2例观察到新发急性GVHD(II级和IV级)。4例未发生新发急性GVHD的患者在移植后28至43天开始,使用CD34(-)组分进行了计划性供者淋巴细胞输注(DLI)。其中3例患者发生了急性GVHD(I级、II级和IV级)。巨细胞病毒感染是主要的感染并发症,但通过γ-球蛋白和更昔洛韦治疗,无论是否加用额外的DLI,均成功得到控制。5例患者目前存活且无疾病,随访时间为476至937天。每位存活者均具有功能性造血,其中3例为供者来源,2例为自体来源。总之,我们的结果表明,来自不匹配单倍体相同供者的富集血液CD34(+)细胞是一种可行的干细胞替代来源,但似乎不能确保植入。由于接受DLI的患者无一存活,作为此类移植一部分的定期DLI的治疗效果和安全性需要在进一步研究中加以阐明。
