Masuda Kozo, Hiraki Akio, Fujii Nobuharu, Watanabe Toshiyuki, Tanaka Motoyuki, Matsue Kosei, Ogama Yoichiro, Ouchida Mamoru, Shimizu Kenji, Ikeda Kazuma, Tanimoto Mitsune
Department of Medicine, Okayama University Graduate School of Medicine and Dentistry, Okayama, Japan.
Cancer Sci. 2007 Jan;98(1):102-8. doi: 10.1111/j.1349-7006.2006.00356.x.
Loss or down-regulation of human leukocyte antigen (HLA) class I expression has been demonstrated in a variety of solid tumors. To date, such altered HLA expression has not been studied extensively in freshly isolated leukemic blasts. If it occurs, leukemic cells could escape T-cell surveillance as a consequence. Genotypes of nine leukemic cell lines were determined using a polymerase chain reaction for HLA classes I and II. Cells were also examined for HLA beta2-microglobulin, and allele-specific HLA protein expression using flow cytometry. Next, 44 samples of freshly isolated leukemic blasts from 43 patients with malignant hematological diseases were examined for allele-specific HLA expression using flow cytometry. Microsatellite analysis was performed to determine heterozygosity in the HLA region on chromosome 6. Genotype analysis for HLA class I together with microsatellite analysis demonstrated loss of HLA haplotype in HL-60 cells. No loss of HLA haplotype was observed in 44 samples of freshly isolated leukemic blasts. As reported previously, flow cytometric analysis rarely demonstrated loss or down-regulation of HLA expression at initial diagnosis (3/39; 7.7%); however, this was evident in two of five cases in relapse (40.0%), which contrasts with previous reports. In one patient with acute leukemia, HLA-A2 cell surface expression was present at initial diagnosis, lost at relapse, and completely restored after 48 h of culture in the presence of interferon-gamma. These results suggest loss of allele-specific HLA expression may be involved in the pathogenesis of relapse in patients with leukemia. The findings should be valuable in designing new strategies for clinical immunotherapy.
人类白细胞抗原(HLA)I类表达的缺失或下调已在多种实体瘤中得到证实。迄今为止,这种HLA表达改变在新鲜分离的白血病原始细胞中尚未得到广泛研究。如果发生这种情况,白血病细胞可能因此逃避T细胞监视。使用聚合酶链反应对9种白血病细胞系的HLA I类和II类基因型进行了测定。还使用流式细胞术检测细胞的HLA β2-微球蛋白以及等位基因特异性HLA蛋白表达。接下来,使用流式细胞术对43例恶性血液病患者的44份新鲜分离的白血病原始细胞样本进行等位基因特异性HLA表达检测。进行微卫星分析以确定6号染色体上HLA区域的杂合性。HLA I类基因型分析以及微卫星分析显示HL-60细胞中HLA单倍型缺失。在44份新鲜分离的白血病原始细胞样本中未观察到HLA单倍型缺失。如先前报道,流式细胞术分析在初始诊断时很少显示HLA表达缺失或下调(3/39;7.7%);然而,在复发的5例病例中有2例出现这种情况(40.0%),这与先前报道形成对比。在1例急性白血病患者中,HLA-A2细胞表面表达在初始诊断时存在,复发时消失,在干扰素-γ存在的情况下培养48小时后完全恢复。这些结果表明等位基因特异性HLA表达缺失可能参与白血病患者复发的发病机制。这些发现对于设计临床免疫治疗新策略具有重要价值。
