HLA Ⅱ类 DPBI 和 DRB1 多态性与铍毒性的遗传易感性相关。

HLA class II DPB1 and DRB1 polymorphisms associated with genetic susceptibility to beryllium toxicity.

机构信息

Michigan State University, 117 West Fee Hall, East Lansing, MI 48824, USA.

出版信息

Occup Environ Med. 2011 Jul;68(7):487-93. doi: 10.1136/oem.2010.055046. Epub 2010 Dec 23.

DOI:10.1136/oem.2010.055046

PMID:21186201

Abstract

OBJECTIVES

Chronic beryllium disease (CBD) is a hypersensitivity granulomatous pulmonary disease caused by exposure to the metal beryllium (Be²⁺). Our objective was to extend current knowledge of the genetics of beryllium disease by examining all HLA-DPB1 and HLA-DPR1 gene polymorphisms and the interactions between them.

METHODS

DNA-based typing of HLA-DPB1 and HLA-DRB1 loci at the allele level was performed on 65 CBD, 44 beryllium sensitised (BeS) but without CBD and 288 non-affected, beryllium exposed controls.

RESULTS

The DPβE69 residue regardless of zygosity, but particularly if present on non-*0201 alleles, was of primary importance for the development of CBD and BeS, while other negatively charged residues DPβDE55, 56 and DPβDE84, 85 incrementally increased, although not independently, the risk. The DPβE69 positive alleles with charge -7 or -9 were associated with both CBD and BeS. The polymorphic residues DPβE69, DPβDE55, 56 and DPβDE84, 85 were responsible for the -9 charge and the first two residues for the -7 charge.

CONCLUSIONS

In the absence of DPβE69, DRβE71 is a risk factor for CBD and BeS. DPβE69 and DRβE71 are adjacent to other amino acids that are also negatively charged, suggesting that the positively charged Be²⁺ modifies the local environment of the epitopes in a way that promotes interactions between peptides and T cells and results in CBD. Finally, the protective effect of the DPB1*0201 positive haplotype may involve particular polymorphisms outside of the DPB1 gene.

摘要

目的

慢性铍病（CBD）是一种由金属铍（Be²⁺）暴露引起的超敏性肉芽肿性肺病。我们的目的是通过检查所有 HLA-DPB1 和 HLA-DPR1 基因多态性及其相互作用，扩展铍病遗传的现有知识。

方法

对 65 例 CBD、44 例铍敏感（BeS）但无 CBD 和 288 例未受影响、铍暴露对照者的 HLA-DPB1 和 HLA-DRB1 基因座的基于 DNA 的分型在等位基因水平上进行。

结果

DPβE69 残基无论杂合性如何，但特别是如果存在于非*0201 等位基因上，对 CBD 和 BeS 的发展至关重要，而其他带负电荷的残基 DPβDE55、56 和 DPβDE84、85 则逐渐增加，尽管不是独立的，增加了风险。带电荷-7 或-9 的 DPβE69 阳性等位基因与 CBD 和 BeS 均相关。多态性残基 DPβE69、DPβDE55、56 和 DPβDE84、85 负责-9 电荷，前两个残基负责-7 电荷。

结论

在没有 DPβE69 的情况下，DRβE71 是 CBD 和 BeS 的危险因素。DPβE69 和 DRβE71 与其他带负电荷的氨基酸相邻，这表明带正电荷的 Be²⁺以一种促进肽和 T 细胞相互作用的方式改变了表位的局部环境，从而导致 CBD。最后，DPB1*0201 阳性单倍型的保护作用可能涉及 DPB1 基因以外的特定多态性。

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HLA Ⅱ类 DPBI 和 DRB1 多态性与铍毒性的遗传易感性相关。

HLA class II DPB1 and DRB1 polymorphisms associated with genetic susceptibility to beryllium toxicity.

机构信息

出版信息

OBJECTIVES

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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