Molecular mechanisms of natural resistance to mycobacterial infections.

Circulatory shock Pub Date : 1994-11-01
D Radzioch, I Kramnik, E Skamene
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Abstract

Natural resistance to infection with intracellular parasites is controlled by a dominant gene on mouse chromosome 1, called Bcg. Bcg affects the capacity of macrophages to destroy ingested intracellular parasites early during infection. Reactive nitrogen intermediates (RNI) have been implicated in the interferon-gamma (IFN-gamma)-induced antimicrobial action of macrophages against a wide variety of pathogens. To determine whether Bcg (Nramp) is involved in the production of RNI, these studies have taken advantage of the recent cloning of the Bcg candidate gene, designated Nramp. The expression of Bcg has been down-regulated in the B10R (Bcgr) macrophage cell line using a ribozyme hybrid to site-specifically cleave the Nramp mRNA. Following activation with IFN-gamma, the secretory activity [nitric oxide (NO) and tumor necrosis factor-alpha (TNF-alpha)] and surface marker expression (la antigen) of these Bcg(Nramp) ribozyme-transfected macrophages were markedly lower than in activated control mock-transfected macrophages (B10R-CTL). However, there was no difference in NO production of B10R-Bcg(Nramp)Rb and B10R-CTL macrophages if the treatment with IFN-gamma occurred in the presence of lipopolysaccharide (LPS). These studies support the hypothesis that the Bcg(Nramp) gene is involved in the regulation of early signaling that occurs in macrophages activated with IFN-gamma. Furthermore, it seems that IFN-gamma, but not LPS-induced activation is affected by the inhibition of Bcg(Nramp) gene expression. Definitive evidence will be provided by transfection experiments that will show whether the Bcgr allele of Bcg(Nramp) can restore NO production of the Bcgs macrophage.

自然抵抗分枝杆菌感染的分子机制。
对细胞内寄生虫感染的自然抵抗力是由小鼠1号染色体上的一个显性基因控制的,叫做卡介苗。卡介苗影响巨噬细胞在感染早期破坏摄入的细胞内寄生虫的能力。活性氮中间体(RNI)与干扰素- γ (ifn - γ)诱导的巨噬细胞抗多种病原体的抗菌作用有关。为了确定卡介苗(Nramp)是否参与RNI的产生,这些研究利用了最近克隆的卡介苗候选基因Nramp。在B10R (Bcgr)巨噬细胞系中,通过核酶杂交位点特异性切割Nramp mRNA,可以下调Bcg的表达。ifn - γ激活后,这些Bcg(Nramp)核酶转染的巨噬细胞的分泌活性[一氧化氮(NO)和肿瘤坏死因子- α (tnf - α)]和表面标记物(la抗原)的表达明显低于激活对照模拟转染的巨噬细胞(B10R-CTL)。然而,如果在脂多糖(LPS)存在的情况下使用ifn - γ治疗,则B10R-Bcg(Nramp)Rb和B10R-CTL巨噬细胞的no生成没有差异。这些研究支持了Bcg(Nramp)基因参与ifn - γ激活巨噬细胞早期信号传导调控的假设。此外,似乎ifn - γ受到Bcg(Nramp)基因表达抑制的影响,而非lps诱导的活化。转染实验将提供明确的证据,以证明Bcg的Bcgr等位基因(Nramp)是否可以恢复Bcgs巨噬细胞的NO生成。
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