Jeevan Amminikutty, Yoshimura Teizo, Lee Kyeong Eun, McMurray David N
Department of Medical Microbiology and Immunology, Texas A&M University System Health Science Center, College Station, Texas 77843, USA.
Infect Immun. 2003 Jan;71(1):354-64. doi: 10.1128/IAI.71.1.354-364.2003.
To determine whether Mycobacterium bovis BCG vaccination would alter gamma interferon (IFN-gamma) mRNA expression in guinea pig cells exposed to Mycobacterium tuberculosis, we cloned a cDNA encoding guinea pig IFN-gamma from a spleen cell cDNA library. The cDNA is composed of 1,110 bp, with an open reading frame encoding a 166-amino-acid protein which shows 56 and 41% amino acid sequence homology to human and mouse IFN-gamma, respectively. Spleen or lymph node cells from naïve and BCG-vaccinated guinea pigs were stimulated with purified protein derivative (PPD) or M. tuberculosis H37Ra or H37Rv, and the total RNA was subjected to Northern blot analysis with a (32)P-labeled probe derived from the cDNA clone. Compared to the IFN-gamma mRNA expression in cells of naïve animals, that in spleen and lymph node cells exposed to various stimuli was enhanced after BCG vaccination. However, there was a significant reduction in IFN-gamma mRNA levels when cells were stimulated with a multiplicity of infection of greater than 1 virulent M. tuberculosis bacterium per 10 cells. The enhanced IFN-gamma mRNA response in BCG-vaccinated animals was associated with an increase in the proportions of CD4(+) T cells in the spleens, as determined by fluorescence-activated cell sorter analysis. Furthermore, the nonadherent population in the spleens enriched either by panning with anti-guinea pig immunoglobulin G-coated plates or by purification on nylon wool columns produced more IFN-gamma mRNA than whole spleen cells following stimulation with concanavalin A or PPD. This indicates that T cells are principally responsible for the upregulation of IFN-gamma mRNA expression following BCG vaccination. The mechanism by which virulent mycobacteria suppress IFN-gamma mRNA accumulation is currently under investigation.
为了确定卡介苗接种是否会改变暴露于结核分枝杆菌的豚鼠细胞中γ干扰素(IFN-γ)mRNA的表达,我们从脾细胞cDNA文库中克隆了编码豚鼠IFN-γ的cDNA。该cDNA由1110个碱基对组成,其开放阅读框编码一个166个氨基酸的蛋白质,该蛋白质与人类和小鼠IFN-γ的氨基酸序列同源性分别为56%和41%。用纯化蛋白衍生物(PPD)或结核分枝杆菌H37Ra或H37Rv刺激未接种和接种卡介苗的豚鼠的脾细胞或淋巴结细胞,并用源自该cDNA克隆的(32)P标记探针进行Northern印迹分析。与未接种动物细胞中的IFN-γmRNA表达相比,接种卡介苗后,暴露于各种刺激的脾细胞和淋巴结细胞中的IFN-γmRNA表达增强。然而,当每10个细胞被大于1个有毒力的结核分枝杆菌感染复数刺激时,IFN-γmRNA水平显著降低。通过荧光激活细胞分选分析确定,接种卡介苗动物中增强的IFN-γmRNA反应与脾脏中CD4(+)T细胞比例的增加有关。此外,在用抗豚鼠免疫球蛋白G包被的平板淘选或在尼龙毛柱上纯化富集的脾脏中非黏附群体,在用伴刀豆球蛋白A或PPD刺激后,产生的IFN-γmRNA比全脾细胞更多。这表明T细胞是卡介苗接种后IFN-γmRNA表达上调的主要原因。有毒力的分枝杆菌抑制IFN-γmRNA积累的机制目前正在研究中。