Arnaout M A, Spits H, Terhorst C, Pitt J, Todd R F
J Clin Invest. 1984 Oct;74(4):1291-300. doi: 10.1172/JCI111539.
Mo1, a phagocyte surface glycoprotein heterodimer, is involved in a number of phagocyte adhesion functions such as binding and ingestion of serum-opsonized particles, zymosan-induced degranulation, and superoxide generation. Deficiency of this antigen in humans has been associated with increased susceptibility to recurrent bacterial infections. The beta subunit of Mo1 is shared by another surface glycoprotein named LFA-1, which is involved in lymphocyte proliferation, cytolytic T cell, and natural killing activities. Two unrelated patients with Mo1 deficiency were found to be deficient in LFA-1 as well as in the common beta subunit. Investigation of lymphocyte functions in these two patients revealed normal mixed leukocyte culture-generated cytolytic T cell and natural killing activities and significantly reduced proliferative response to phytohemagglutinin. LFA-1-deficient cells also proliferated in response to soluble antigen and different alloantigens. These responses were partially blocked by anti-LFA-1 antibody. Whereas LFA-1 was undetectable by immunofluorescence and immunoprecipitation on the patients' resting T cells, significantly reduced (approximately 5% of normal) but detectable amounts of the heterodimeric LFA-1 antigen were found on mitogen and alloantigen-activated T cells. On granulocytes, Mo1 surface expression was also dependent on the state of cellular activation. The amount of surface Mo1 present on resting normal granulocytes increased by 3-10-fold following exposure to stimuli that induced degranulation, suggesting the presence of a major intracellular pool for this antigen. Analysis of subcellular fractions from granulocytes showed that intracellular Mo1 is located primarily in the specific granule fraction. Activated granulocytes had little or no increase in their surface expression of LFA-1 antigen. Deficient granulocytes had significantly increased numbers of Mo1 antigen expressed on the surface following stimulation with calcium ionophore (1 microM). However, the amount expressed continued to be significantly reduced compared with normal cells. Quantitation of surface Mo1 on granulocytes exposed to calcium ionophore (1 microM) showed that both parents in one family but only the mother in the other family had significantly reduced levels of Mo1, suggesting heterogeneity in the inheritance of this disorder. Whereas LFA-1 deficiency on lymphocytes was associated with normal alloantigen-induced cytolytic T cell and natural killing activities in these two patients, functions which were in part dependent on small amounts of detectable LFA-1 antigen, the Mo1 deficiency state led to significant defects in phagocyte adhesion functions. Hence, the clinical symptoms associated with this combined deficiency state reflect a more profound phagocyte than lymphocyte disorder.
Mo1是一种吞噬细胞表面糖蛋白异二聚体,参与多种吞噬细胞黏附功能,如结合和摄取血清调理颗粒、酵母聚糖诱导的脱颗粒以及超氧化物的产生。人类中这种抗原的缺乏与复发性细菌感染易感性增加有关。Mo1的β亚基与另一种名为淋巴细胞功能相关抗原-1(LFA-1)的表面糖蛋白共享,LFA-1参与淋巴细胞增殖、细胞毒性T细胞和自然杀伤活性。发现两名无亲缘关系的Mo1缺乏患者同时缺乏LFA-1以及共同的β亚基。对这两名患者的淋巴细胞功能进行研究发现,混合白细胞培养产生的细胞毒性T细胞和自然杀伤活性正常,而对植物血凝素的增殖反应显著降低。缺乏LFA-1的细胞也能对可溶性抗原和不同的同种异体抗原产生增殖反应。这些反应被抗LFA-1抗体部分阻断。在患者的静息T细胞上,通过免疫荧光和免疫沉淀法检测不到LFA-1,而在有丝分裂原和同种异体抗原激活的T细胞上,发现了显著减少(约为正常水平的5%)但仍可检测到的异二聚体LFA-1抗原。在粒细胞上,Mo1的表面表达也取决于细胞的激活状态。静息正常粒细胞表面存在的Mo1量在暴露于诱导脱颗粒的刺激后增加了3至10倍,这表明该抗原存在一个主要的细胞内池。对粒细胞亚细胞组分的分析表明,细胞内Mo1主要位于特异性颗粒组分中。激活的粒细胞LFA-1抗原的表面表达几乎没有增加或没有增加。缺乏LFA-1的粒细胞在用钙离子载体(1微摩尔)刺激后,表面表达的Mo1抗原数量显著增加。然而,与正常细胞相比,其表达量仍然显著降低。对暴露于钙离子载体(1微摩尔)的粒细胞表面Mo1进行定量分析表明,一个家族的父母双方但另一个家族只有母亲的Mo1水平显著降低,这表明这种疾病的遗传存在异质性。在这两名患者中,淋巴细胞上LFA-1的缺乏与正常的同种异体抗原诱导的细胞毒性T细胞和自然杀伤活性有关,这些功能部分依赖于少量可检测到的LFA-1抗原,而Mo1缺乏状态导致吞噬细胞黏附功能出现显著缺陷。因此,与这种联合缺乏状态相关的临床症状反映出吞噬细胞紊乱比淋巴细胞紊乱更为严重。
