Janossy G, Coustan-Smith E, Campana D
Department of Immunology, Royal Free Hospital School of Medicine, London, U.K.
Leukemia. 1989 Mar;3(3):170-81.
Current views about the origin of acute lymphoid leukemia (ALL) emphasize the importance of maturation arrest at a precursor cell level. Recently, the CD22 antigen has been identified in the cytoplasm of normal bone marrow-borne immature B lineage cells, while the CD3 antigen (epsilon chain) has been detected within normal immature thymic blasts. In the first part our study performed on 100 cases of known acute leukemias, the expression of such cytoplasmic molecules, referred to as cCD22 and cCD3, was analyzed together with their appearance in the leukemic cells' membrane (mCD22 and mCD3). The presence of cCD22 in B-lineage ALL and that of cCD3 in T-ALL has indeed fully confirmed the diagnosis reached by other markers, and mCD22 and mCD3 were expressed on only a few cases of B- and T-lineage ALL, also revealing a degree of developmental asynchrony within leukemic blasts. In the subsequent analysis both cCD22 and cCD3 have been included in a standard panel of diagnostic reagents applied on 500 consecutive cases of acute leukemia. Here the aim was to analyze both the diagnostic precision of individual markers and the heterogeneity of various leukemic types in terms of the expression of membrane and intracellular antigens and their cytochemical features (Sudan Black B and esterases). It has been found that cCD22 and cCD3 are exquisitely specific for B-precursor ALL (TdT+, CD19+) and T-ALL (TdT+, CD7+), respectively, while both markers are absent in acute myeloblastic leukemia (AML) and acute myelomonocytic and monocytic leukemia (AMML/AMoL). These observations contrast the findings which demonstrate that 31% of cases among nonlymphoid acute leukemia (including AML and AMML) express CD7 and/or TdT. The study of myeloid antigens detected by CD13, CD33, and CD14 is also informative and complementary, both in diagnosing and subdividing the AML and AMML/AMoL groups. The peculiar main observation of this study is that only with the combined use of these markers in a microplate assay for membrane antigens, followed by double staining for intracellular antigens such as terminal deoxynucleotidyl transferase, cCD3, cCD22, c mu heavy chain, and T cell receptor beta, it is possible to safely establish the lineage affiliation and subgrouping of virtually all acute leukemias. Among these cases are those with aberrant combinations of markers, including 14% of B-lineage ALL (cCD22+,CD19+,TdT+) and a single case T-ALL (cCD3+,CD7+,TdT+), which exhibit CD13 and/or CD33 antigens, cases with mixtures of ALL and AML blasts, and 1.2% of acute leukemias which lack lineage affiliation and can be regarded as acute undifferentiated leukemia.
目前关于急性淋巴细胞白血病(ALL)起源的观点强调在前体细胞水平成熟停滞的重要性。最近,在正常骨髓来源的未成熟B系细胞的细胞质中发现了CD22抗原,而在正常未成熟胸腺母细胞中检测到了CD3抗原(ε链)。在我们对100例已知急性白血病进行的研究的第一部分中,分析了这些细胞质分子(称为cCD22和cCD3)的表达及其在白血病细胞膜上的出现情况(mCD22和mCD3)。B系ALL中cCD22的存在以及T-ALL中cCD3的存在确实完全证实了通过其他标志物得出的诊断,并且mCD22和mCD3仅在少数B系和T系ALL病例中表达,这也揭示了白血病母细胞内一定程度的发育不同步。在随后的分析中,cCD22和cCD3都被纳入了应用于500例连续急性白血病病例的标准诊断试剂组中。这里的目的是根据膜抗原和细胞内抗原的表达及其细胞化学特征(苏丹黑B和酯酶),分析各个标志物的诊断准确性以及各种白血病类型的异质性。已发现cCD22和cCD3分别对B前体ALL(TdT +,CD19 +)和T-ALL(TdT +,CD7 +)具有高度特异性,而这两种标志物在急性髓细胞白血病(AML)以及急性粒单核细胞白血病和单核细胞白血病(AMML/AMoL)中均不存在。这些观察结果与表明31%的非淋巴细胞急性白血病(包括AML和AMML)病例表达CD7和/或TdT的研究结果形成对比。对通过CD13、CD33和CD14检测到的髓系抗原的研究在诊断和细分AML和AMML/AMoL组方面也具有参考价值且相互补充。本研究的独特主要观察结果是,只有在微孔板检测膜抗原时联合使用这些标志物,随后对细胞内抗原如末端脱氧核苷酸转移酶、cCD3、cCD22、cμ重链和T细胞受体β进行双重染色,才有可能安全地确定几乎所有急性白血病的谱系归属和亚组分类。在这些病例中,有标志物异常组合的情况,包括14%的B系ALL(cCD22 +,CD19 +,TdT +)和1例T-ALL(cCD3 +,CD7 +,TdT +),它们表现出CD13和/或CD33抗原,有ALL和AML母细胞混合的病例,以及1.2%缺乏谱系归属可被视为急性未分化白血病的急性白血病病例。
