Scaradavou A, Carrier C, Mollen N, Stevens C, Rubinstein P
Laboratories of Immunogenetics and Epidemiology, Lindsley F. Kimball Research Institute, New York Blood Center, New York 10021, USA.
Blood. 1996 Aug 15;88(4):1494-500.
A critical issue regarding the broader utilization of placental/ umbilical cord blood (PCB) in unrelated bone marrow restoration is the possibility of contamination with maternal lymphocytes capable of immunological reactivity against the eventual recipient. On transplantation, such maternal cells might lead to graft-versus-host disease (GVHD) even if the intended donor's neonatal lymphocytes were unresponsive. We measured the proportion of PCB samples that were contaminated with maternal cells. Placental-maternal sample pairs were selected so that the mother was heterozygous for the DR53 haplotype, whereas the placental sample was DR53-negative. The PCB samples were investigated for the presence of the noninherited maternal gene DRB4, exclusive to the DR53 haplotypes. Locus-specific polymerase chain reaction amplification with DRB4 sequence-specific primers was followed by either gel electrophoresis or blotting and hybridization to an internal sequence DRB4 probe. Polymerase chain reaction products from DNA mixtures containing as low as 0.5 ng of a DRB4-positive DNA control in 1.0 microgram of a DRB4-negative DNA sample (1:2 x 10(3) dilution) showed a visible DRB4 band in agarose gels stained with ethidium bromide. Locus-specific hybridization increased the detection sensitivity to 1:10(5) (0.01 ng of the DRB4-positive DNA control). Control mixtures of known amounts of DRB4-positive and -negative DNA were included in all experiments. Comparison of the thickness of DRB4 bands after electrophoresis and the intensity of the DRB4-specific hybridization signals to the concentration controls allowed a rough estimation of the amount of maternal DNA in the placental blood specimens. A total of 213 PCB samples were tested. By gel electrophoresis, DRB4-specific bands were observed to be as strong or stronger in 23 (10.8%) samples as those in the 1:2 x 10(3) control, and 153 (17.8%) samples were negative in this test. The remaining 37 (17.3%) samples disclosed weaker DRB4 bands, suggesting the presence of maternal genetic material. By hybridization, 81 (38%) samples were positive and 132 were negative for the noninherited maternal gene. Review of the clinical characteristics of the mothers (demographics and labor and delivery information), the newborns (birth weight, sex, and gestational age), and PCB collections (placental weight, white blood cell count, and collected volume) failed to show any significant differences between the units testing positive or negative for the noninherited maternal gene. Thus, transplantable PCB units carry a high probability of having maternal DNA in detectable amounts. Whether this DNA comes from potentially graft-versus-host disease-inducing maternal lymphocytes or whether the putatively transplacentally-acquired maternal cells are immunologically dysfunctional, as in most infants with severe combined immunodeficiency disease, remains to be shown.
在无关供者骨髓移植中更广泛地利用胎盘/脐带血(PCB)的一个关键问题是,其有可能被具有针对最终受者免疫反应性的母体淋巴细胞污染。移植时,即使预期供者的新生儿淋巴细胞无反应,这些母体细胞也可能导致移植物抗宿主病(GVHD)。我们测定了被母体细胞污染的PCB样本的比例。选择胎盘-母体样本对,使母亲为DR53单倍型杂合子,而胎盘样本为DR53阴性。对PCB样本进行检测,以确定是否存在仅属于DR53单倍型的非遗传母体基因DRB4。用DRB4序列特异性引物进行基因座特异性聚合酶链反应扩增,随后进行凝胶电泳或印迹,并与内部序列DRB4探针杂交。在1.0微克DRB4阴性DNA样本(1:2×10³稀释)中,含有低至0.5纳克DRB4阳性DNA对照的DNA混合物的聚合酶链反应产物,在溴化乙锭染色的琼脂糖凝胶中显示出可见的DRB4条带。基因座特异性杂交将检测灵敏度提高到1:10⁵(0.01纳克DRB4阳性DNA对照)。所有实验均包含已知量的DRB4阳性和阴性DNA的对照混合物。通过比较电泳后DRB4条带的厚度以及DRB4特异性杂交信号的强度与浓度对照,可大致估计胎盘血标本中母体DNA的量。共检测了213个PCB样本。通过凝胶电泳,在23个(10.8%)样本中观察到DRB4特异性条带与1:2×10³对照中的条带一样强或更强,153个(17.8%)样本在此测试中为阴性。其余37个(17.3%)样本显示DRB4条带较弱,表明存在母体遗传物质。通过杂交,81个(38%)样本对非遗传母体基因为阳性,132个为阴性。对母亲的临床特征(人口统计学以及分娩和产程信息)、新生儿(出生体重、性别和胎龄)以及PCB采集情况(胎盘重量、白细胞计数和采集量)进行回顾,未发现非遗传母体基因检测呈阳性或阴性的样本组之间存在任何显著差异。因此,可用于移植的PCB单位很有可能含有可检测量的母体DNA。这些DNA是否来自可能引发移植物抗宿主病的母体淋巴细胞,或者推测经胎盘获得的母体细胞是否像大多数重症联合免疫缺陷病婴儿那样免疫功能失调,仍有待证实。
