Department of Chemistry and Biochemistry, University of Denver, Denver, Colorado.
Department of Biological Sciences, University of Denver, Denver, Colorado.
Proteins. 2020 Jan;88(1):166-174. doi: 10.1002/prot.25782. Epub 2019 Jul 23.
Lactoferrin (LF) is a multifunctional protein that plays important physiological roles as one of the most concentrated proteins in many human and other mammalian fluids and tissues. In particular, LF provides antibacterial properties to human milk, saliva, and tear fluid. LF also protects against stress-induced lipid peroxidation at inflammation sites through its iron-binding ability. Previous studies have shown that LF can be efficiently nitrated via biologically relevant mediators such as peroxynitrite (ONOO ), which are also present at high intracellular concentrations during inflammation and nitrosative stress. Here, we examine changes in antibacterial properties and structure of LF following ONOO treatment. The reaction induces nitration of tyrosine and tryptophan residues, which are commonly used as biomarker molecules for several diseases. Treatment with ONOO at a 10/1 M ratio of ONOO to tyrosine inhibited all antibacterial activity exhibited by native LF. Secondary structural changes in LF were assessed using circular dichroism spectroscopy. Nitration products with and without the addition of Fe show significant reduction in alpha-helical properties, suggesting partial protein unfolding. Iron-binding capacity of LF was also reduced after treatment with ONOO , suggesting a decreased ability of LF to protect against cellular damage. LC-MS/MS spectrometry was used to identify LF peptide fragments nitrated by ONOO , including tyrosine residue Y92 located in the iron-binding region. These results suggest that posttranslational modification of LF by ONOO could be an important pathway to exacerbate infection, for example, in inflamed tissues and to reduce the ability of LF to act as an immune responder and decrease oxidative damage.
乳铁蛋白(LF)是一种多功能蛋白,作为许多人和其他哺乳动物体液和组织中最浓缩的蛋白质之一,发挥着重要的生理作用。特别是,LF 为人乳、唾液和泪液提供了抗菌特性。LF 还通过其结合铁的能力,保护炎症部位免受应激诱导的脂质过氧化。先前的研究表明,LF 可以通过生物相关介质如过氧亚硝酸盐(ONOO )有效地硝化,ONOO 在炎症和硝化应激期间也存在于高细胞内浓度。在这里,我们研究了 ONOO 处理后 LF 的抗菌特性和结构变化。该反应诱导酪氨酸和色氨酸残基的硝化,这些残基通常被用作几种疾病的生物标志物分子。用 10/1 M 的 ONOO 与酪氨酸摩尔比处理,抑制了天然 LF 表现出的所有抗菌活性。使用圆二色性光谱评估 LF 的二级结构变化。添加或不添加 Fe 的硝化产物显示出 alpha-螺旋特性的显著降低,表明部分蛋白质展开。LF 的铁结合能力在 ONOO 处理后也降低,表明 LF 保护细胞免受损伤的能力降低。LC-MS/MS 光谱用于鉴定被 ONOO 硝化的 LF 肽片段,包括位于铁结合区域的酪氨酸残基 Y92。这些结果表明,ONOO 对 LF 的翻译后修饰可能是加重感染的重要途径,例如在炎症组织中,并降低 LF 作为免疫反应者的能力并减少氧化损伤。
