Steiniger B, Falk P, Van der Meide P H
Center of Anatomy, Hannover Medical School, FRG.
Eur J Immunol. 1988 May;18(5):661-9. doi: 10.1002/eji.1830180502.
The effects of recombinant rat interferon-gamma on class II major histocompatibility complex antigen expression in vivo were studied by immunohistology in LEW rats after continuous intravenous infusion for three days. Interferon-gamma administration led to a systemic induction of class II molecules in previously negative parenchymal and stromal cells. The induction patterns observed were highly reproducible, but not closely dose dependent within a 25-fold dose difference tested. However, the effect of interferon infusion differed profoundly in individual cell types, and appeared to be related to the differentiation stage of each cell population. Thus, epithelial cells like duct epithelia, urothelium or basal ear skin keratinocytes as well as endothelia in big vessels were strongly and easily induced for class II antigen expression. Parenchymal cells like cardiomyocytes and hepatocytes showed intermediate reactivity, while capillary endothelia, neurons in the brain, straight proximal kidney tubules or endocrine pancreatic islet cells did not express class II antigens. The induced expression was rapidly lost from most cells within one or two days after interferon withdrawal; the only exception occurred in keratinocytes. Long-term alterations were, however, still found 14 days after infusion. Interstitial class II-positive dendritic-shaped cells were increased in the organs and hepatic Kupffer cells carried class II antigens. On conventional histology all organs appeared perfectly normal at this date. After three days of interferon, cells of an immature myelomonocytic phenotype occluded medium-sized and small veins in all organs and occurred in granuloma-like lesions in the liver. Although these cells quickly disappeared after interferon withdrawal they might have been at least partially responsible for single deaths on day three. Our study provides a basis for testing the immunological in vivo function of parenchymal class II antigen expression and its differentiation-specific regulation.
通过免疫组织学方法,对连续静脉输注重组大鼠干扰素-γ三天后的LEW大鼠体内Ⅱ类主要组织相容性复合体抗原表达的影响进行了研究。给予干扰素-γ导致先前阴性的实质细胞和基质细胞全身性诱导Ⅱ类分子表达。观察到的诱导模式具有高度可重复性,但在所测试的25倍剂量差异范围内并非严格剂量依赖性。然而,干扰素输注的效果在不同细胞类型中差异很大,并且似乎与每个细胞群体的分化阶段有关。因此,导管上皮、尿路上皮或耳基底皮肤角质形成细胞等上皮细胞以及大血管内皮细胞很容易被强烈诱导表达Ⅱ类抗原。心肌细胞和肝细胞等实质细胞表现出中等反应性,而毛细血管内皮细胞、脑神经元、近端直肾小管或内分泌胰腺胰岛细胞不表达Ⅱ类抗原。在停用干扰素后的一到两天内,大多数细胞诱导表达迅速消失;唯一的例外是角质形成细胞。然而,在输注后14天仍发现有长期变化。器官中间质Ⅱ类阳性树突状细胞增多,肝库普弗细胞携带Ⅱ类抗原。在常规组织学检查中,此时所有器官看起来完全正常。给予干扰素三天后,未成熟髓单核细胞表型的细胞阻塞了所有器官的中小静脉,并出现在肝脏的肉芽肿样病变中。尽管这些细胞在停用干扰素后很快消失,但它们可能至少部分导致了第三天的个别死亡。我们的研究为测试实质细胞Ⅱ类抗原表达的体内免疫功能及其分化特异性调节提供了基础。