Potolicchio I, Festucci A, Hausler P, Sorrentino R
Department of Cell Biology and Development, University La Sapienza, Rome, Italy.
Eur J Immunol. 1999 Jul;29(7):2140-7. doi: 10.1002/(SICI)1521-4141(199907)29:07<2140::AID-IMMU2140>3.0.CO;2-Q.
Metal dust inhalation induces an interstitial lung disease which may progress to pulmonary fibrosis (hard metal disease, HMD). Cobalt is believed to be the pathogenic agent of HMD. A strong genetic association of HMD with some HLA-DP alleles has been reported although the role of these molecules in the occurrence of the fibrotic disorder remains unclear. A possible explanation of these findings is that HLA-DP but not other HLA class II molecules can bind cobalt. This could have as a consequence an HLA-DP-mediated specific activation of the immune system. To test this hypothesis, we have set up an in vitro binding assay using 57Co and purified HLA-DP and -DR molecules. The results indicate that HLA-DP but not HLA-DR molecules bind cobalt. Moreover, the presence of HLA-DP Glu beta69, which is associated with susceptibility to HMD, determines a higher metal uptake. Molecular modelling of HLA-DP2 molecules places the Glu beta69 residue in a position relevant in determining peptide specificity. The possibility that binding of cobalt by HLA-DP molecules can interfere with their antigen presenting functions is discussed.
吸入金属粉尘会引发间质性肺病,这种疾病可能会发展为肺纤维化(硬金属病,HMD)。钴被认为是HMD的致病因子。尽管这些分子在纤维化疾病发生中的作用尚不清楚,但已有报道称HMD与某些HLA - DP等位基因存在很强的遗传关联。对这些发现的一种可能解释是,HLA - DP而非其他HLA - II类分子能够结合钴。这可能导致HLA - DP介导的免疫系统特异性激活。为了验证这一假设,我们建立了一种使用57Co以及纯化的HLA - DP和 - DR分子的体外结合试验。结果表明,HLA - DP而非HLA - DR分子能够结合钴。此外,与HMD易感性相关的HLA - DP Gluβ69的存在决定了更高的金属摄取量。HLA - DP2分子的分子建模将Gluβ69残基置于决定肽特异性的相关位置。文中还讨论了HLA - DP分子结合钴可能干扰其抗原呈递功能的可能性。
