Sathiyaseelan Thillainayagam, Naiman Brian, Welte Stefan, Machugh Niall, Black Samuel J, Baldwin Cynthia L
Department of Veterinary and Animal Sciences, Program for Molecular and Cellular Biology, University of Massachusetts, Amherst, MA 01003, USA.
Immunology. 2002 Feb;105(2):181-9. doi: 10.1046/j.0019-2805.2001.01356.x.
Bovine gammadelta T cells are stimulated to proliferate by autologous monocytes. This is referred to as the autologous mixed leucocyte reaction (AMLR). It has been shown previously that the stimulatory component is constitutively expressed on the monocyte plasma membrane and is a protein or has a protein moiety. Here we showed that gammadelta T-cell responses to the monocytes requires interaction with the T-cell receptor because Fab1 fragments of a monoclonal antibody (mAb) that reacts with the delta chain of the T-cell receptor blocked proliferation in the AMLR. Monocyte molecules involved in stimulation were also characterized further by biochemical and immunological methods. A mAb, named M5, was generated by immunizing mice with bovine monocytes and shown to block the ability of monocytes to stimulate in the AMLR. Treatment of monocytes or monocyte membranes with high salt, chelating agents or phospholipase C did not affect their ability to stimulate gammadelta T-cell proliferation or reactivity with mAb M5 indicating the ability of monocytes to stimulate does not involve peripheral membrane components or a glycosyl-phosphatidylinsositol (GPI)-anchored components. Hence it was concluded that the stimulation occurred as a result of intergral membrane proteins including that recognized by mAb M5. The ligand for mAb M5 was on all bovine monocytes and to a lower level on granulocytes but not on lymphocytes. MAb M5 also reacted with sheep monocytes but not with human monocytes or murine macrophages, in agreement with a previous reports that sheep monocytes but not human or mouse mononuclear phagocytes have the capacity to stimulate bovine gammadelta T cells in in vitro cultures. The level of expression of the M5 ligand was not altered by gamma-irradiation or culture of monocytes with lipopolysaccharide but it was decreased following culture with interferon-gamma-containing cell culture supernatants.
牛γδ T细胞可被自体单核细胞刺激增殖。这被称为自体混合淋巴细胞反应(AMLR)。先前已经表明,刺激成分在单核细胞质膜上组成性表达,是一种蛋白质或具有蛋白质部分。在这里我们表明,γδ T细胞对单核细胞的反应需要与T细胞受体相互作用,因为与T细胞受体δ链反应的单克隆抗体(mAb)的Fab1片段可阻断AMLR中的增殖。还通过生化和免疫学方法进一步表征了参与刺激的单核细胞分子。通过用牛单核细胞免疫小鼠产生了一种名为M5的单克隆抗体,该抗体可阻断单核细胞在AMLR中刺激的能力。用高盐、螯合剂或磷脂酶C处理单核细胞或单核细胞膜,并不影响它们刺激γδ T细胞增殖的能力或与单克隆抗体M5的反应性,这表明单核细胞的刺激能力不涉及外周膜成分或糖基磷脂酰肌醇(GPI)锚定成分。因此得出结论,刺激是由包括被单克隆抗体M5识别的那些在内的整合膜蛋白引起的。单克隆抗体M5的配体存在于所有牛单核细胞上,在粒细胞上含量较低,但在淋巴细胞上不存在。单克隆抗体M5也与绵羊单核细胞反应,但不与人类单核细胞或鼠巨噬细胞反应,这与先前的报道一致,即绵羊单核细胞而非人类或小鼠单核吞噬细胞在体外培养中有刺激牛γδ T细胞的能力。γ射线照射或用脂多糖培养单核细胞不会改变M5配体的表达水平,但在用含γ干扰素的细胞培养上清液培养后其表达水平会降低。