Slawecki M L, Dodt G, Steinberg S, Moser A B, Moser H W, Gould S J
Kennedy Krieger Institute, Baltimore, MD 21205, USA.
J Cell Sci. 1995 May;108 ( Pt 5):1817-29. doi: 10.1242/jcs.108.5.1817.
Zellweger syndrome, neonatal adrenoleukodystrophy, infantile Refsum's disease, and classical rhizomelic chondrodysplasia punctata are lethal genetic disorders caused by defects in peroxisome biogenesis. We report here a characterization of the peroxisomal matrix protein import capabilities of fibroblasts from 62 of these peroxisome biogenesis disorder patients representing all ten known complementation groups. Using an immunofluorescence microscopy assay, we identified three distinct peroxisomal protein import defects among these patients. Type-1 cells have a specific inability to import proteins containing the PTS1 peroxisomal targeting signal, type-2 cells have a specific defect in import of proteins containing the PTS2 signal, and type-3 cells exhibit a loss of, or reduction in, the import of both PTS1 and PTS2 proteins. Considering that the common cellular phenotype of Zellweger syndrome, neonatal adrenoleukodystrophy and infantile Refsum's disease has been proposed to be a complete defect in peroxisomal matrix protein import, the observation that 85% (40/47) of the type-3 cell lines imported a low but detectable amount of both PTS1 and PTS2 proteins was surprising. Furthermore, different cell lines with the type-3 defect exhibited a broad spectrum of different phenotypes; some showed a complete absence of matrix protein import while others contained 50-100 matrix protein-containing peroxisomes per cell. We also noted certain relationships between the import phenotypes and clinical diagnoses: both type-1 cell lines were from neonatal adrenoleukodystrophy patients, all 13 type-2 cell lines were from classical rhizomelic chondrodysplasia punctata patients, and the type-3 import defect was found in the vast majority of Zellweger syndrome (22/22), neonatal adrenoleukodytrophy (17/19), and infantile Refsum's disease (7/7) patients. Our finding that all type-1 cell lines were from the second complementation group (CG2), all 13 type-2 cell lines were from CG11, and that cells from the eight remaining complementation groups only exhibit the type-3 defect indicates that mutations in particular genes give rise to the different types of peroxisomal protein import defects. This hypothesis is further supported by correlations between certain complementation groups and particular type-3 subphenotypes: all patient cell lines belonging to CG3 and CG10 showed a complete absence of peroxisomal matrix protein import while those from CG6, CG7, and CG8 imported some peroxisomal matrix proteins. However, the fact that cell lines from within particular complementation groups (CG1, CG4) could have different matrix protein import characteristics suggests that allelic heterogeneity also plays an important role in generating different import phenotypes in certain patients.(ABSTRACT TRUNCATED AT 400 WORDS)
泽尔韦格综合征、新生儿肾上腺脑白质营养不良、婴儿型雷夫叙姆病和经典型肢根型点状软骨发育不良是由过氧化物酶体生物发生缺陷引起的致死性遗传疾病。我们在此报告了对来自62例这些过氧化物酶体生物发生障碍患者的成纤维细胞过氧化物酶体基质蛋白导入能力的特征分析,这些患者代表了所有十个已知的互补组。通过免疫荧光显微镜检测,我们在这些患者中鉴定出三种不同的过氧化物酶体蛋白导入缺陷。1型细胞特别无法导入含有PTS1过氧化物酶体靶向信号的蛋白,2型细胞在导入含有PTS2信号的蛋白方面存在特定缺陷,3型细胞则表现出PTS1和PTS2蛋白导入的缺失或减少。鉴于泽尔韦格综合征、新生儿肾上腺脑白质营养不良和婴儿型雷夫叙姆病的常见细胞表型被认为是过氧化物酶体基质蛋白导入的完全缺陷,85%(40/47)的3型细胞系能导入少量但可检测到的PTS1和PTS2蛋白这一观察结果令人惊讶。此外,具有3型缺陷的不同细胞系表现出广泛的不同表型;一些细胞系完全没有基质蛋白导入,而另一些细胞系每个细胞含有50 - 100个含基质蛋白的过氧化物酶体。我们还注意到导入表型与临床诊断之间的某些关系:两个1型细胞系均来自新生儿肾上腺脑白质营养不良患者,所有13个2型细胞系均来自经典型肢根型点状软骨发育不良患者,并且在绝大多数泽尔韦格综合征(22/22)、新生儿肾上腺脑白质营养不良(17/19)和婴儿型雷夫叙姆病(7/7)患者中发现了3型导入缺陷。我们发现所有1型细胞系均来自第二互补组(CG2),所有13个2型细胞系均来自CG11,并且其余八个互补组的细胞仅表现出3型缺陷,这表明特定基因的突变会导致不同类型的过氧化物酶体蛋白导入缺陷。这一假设得到了某些互补组与特定3型亚表型之间相关性的进一步支持:属于CG3和CG10的所有患者细胞系均完全没有过氧化物酶体基质蛋白导入,而来自CG6、CG7和CG8的细胞系则导入了一些过氧化物酶体基质蛋白。然而,特定互补组(CG1、CG4)内的细胞系可能具有不同的基质蛋白导入特征这一事实表明,等位基因异质性在某些患者中产生不同的导入表型方面也起着重要作用。(摘要截断于400字)
