Proteins structure change of COL4A4 gene point mutation and its association with phenotype in thin basement membrane nephropathy
10.3760/cma.j.issn.1001-7097.2010.01.002
- VernacularTitle:薄基底膜肾病基因点突变后蛋白空间二级结构的改变及与表型的关系
- Author:
Qiuyuan FANG
;
Yunfeng WANG
;
Youkang ZHANG
;
Suxia WANG
;
Dingfang BU
- Publication Type:Journal Article
- Keywords:
Nephritis,hereditary;
Point mutation;
Protein structure,secondary;
Collagen;
Phenotype
- From:
Chinese Journal of Nephrology
2010;26(1):3-8
- CountryChina
- Language:Chinese
-
Abstract:
Objective To detect the proteins structure encoded by COL4A4 gene with different missense mutations of thin basement membrane nephropathy (TBMN) and to analyze the effect of gene mutation on the secondary structure of α4 (Ⅳ) chain and its association with phenotype. Methods A COL4A4-linked TBMN patient with FSGS by a missense mutation (g. 1214G>A resulting in p. G405E) diagnosed by clinical manifestations, family history and renal biopsy examination, as well as two controls (one healthy, one pure TBMN carrying a g. 1550G>A mutation resulting in p. G448S) were enrolled in this study. The fragments of cDNA with the two mutations and that of corresponding cDNA from the healthy control were expressed in E. coll. The secondary structures of recombinant polypeptides were analyzed by circular dichroism (CD) spectroscopy. Results CD spectra of healthy control exhibited a negative peak near 208 nm whereas that of TBMN patient with FSGS exhibited a negative peak near 220 nm. Furthermore, the magnitude of the negative peak of this patient decreased as compared with that of healthy control. CD spectra of pure TBMN control was slightly changed with the negative peak remaining near 208 run and the magnitude slightly decreased as compared with that of healthy control. In addition, the secondary structure of pelypeptide from healthy control was composed of about 1/4 α-helix and 1/4 β-sheet, whereas that from the patient presented about 1/3 α-helix without any β-sheet. The secondary structure of polypeptide from pure TBMN control was almost the same as the healthy control, except a shght reduction of α-helix and a slight increase of β-sheet. Conclusions Although the glycine substitutions exists in the nearby domain of α4 (Ⅳ)chain, the TBMN patient complicating FSGS with severe phenotype and g. 1214G>A mutation and the pure TBMN control with the mild phenotype and g. 1550G>A mutation are revealed with different secondary structures of α4 (Ⅳ)chain. Moreover, the secondary structure change of α4 (Ⅳ) chain is consistent with their corresponding phenotype severity.
