Most common SLC25A13 mutation in 400 Chinese infants with intrahepatic cholestasis

AIM:To establish the real time fluorescence polymerase chain reaction(RT-PCR) with dual labeled probes for fast detection of SLC25A13 gene mutation 851del4.METHODS:Four hundred infants(< 1 year of age) with unexplained intrahepatic cholestasis from 18 provinces or municipalities in China were enrolled in this study for detecting their SLC25A13 gene mutation 851del4.Suitable primers and fluorescence-labeled probes for detecting SLC25A13 gene mutation 841del4 were designed.Normal and mutant sequences were detected by PCR with two fluorescence-labeled probes.After a single RT-PCR,results were obtained by analyzing the take-off curves.Twenty-four positive and 14 negative samples were retested by direct sequencing.RESULTS:Eight homozygous and 30 heterozygous mutations were detected in 46 mutant alleles with a 851del4 mutation rate of 5.8%(46/800).Twenty-six and 20 mutant alleles were observed respectively,in 474 and 242 alleles from the intermediate and southern areas of China.No mutant allele was detected in 84 alleles from northern China.Twenty-four positive samples including 4 homozygous and 20 heterozygous mutations,and 14 negative samples were retested by direct sequencing,which confirmed that the accuracy of RTPCR was 100%.CONCLUSION:RT-PCR can detect the mutation 851del4 in infants with intrahepatic cholestasis with an accuracy of 100%.

Screening of SLC25A13 mutation in the Thai population

AIM: To determine the prevalence of SLC25A13 mutations in the Thai population.METHODS: A total of 1537 subjects representing the Thai population were screened for a novel pathologic allele p.Met1? (c.2T > C) and six previously known common SLC25A13 mutations: [I] (c.851_854delGTAT), [II] (g.IVS11 + 1G > A), [III] (c.1638_1660dup), [IV] (p.S225X), [V] (IVS13 + 1G > A), and [XIX] (g.IVS16ins3kb) using a newly developed TaqMan and established HybProbe assay, respectively. Sanger sequencing was employed for specimens showing an aberrant peak to confirm the targeted mutation as well as the unknown aberrant peaks detected. Frequencies of the mutations identified were compared in each region. Carrier frequency and disease prevalence of citrin deficiency caused by SCL25A13 mutations were estimated.RESULTS: p.Met1? was identified in the heterozygous state in 85 individuals, giving a carrier frequency of 1/18, which suggests possible selective advantage of this variant. The question of p.Met1? homozygote lethality remains unanswered which may serve as an explanation as to why this homozygote has yet to be identified in patients/controls even with high allele frequency. The p.Met1? mutation has rarely been studied in populations other than Thai and Chinese; therefore, may have been overlooked. Development of the TaqMan assay in the present study would allow a simple, rapid, and cost-effective method for mass screening. Heterozygous mutations: [XIX] and [I] were identified in 17 individuals, giving a carrier rate of 1/90 and a calculated homozygote rate of 1/33000. Two novel variants, g.IVS11 + 17C > G and c.1311C > T, of unknown clinical significance were identified at low frequency.CONCLUSION: This study highlighted the current underestimation of citrin deficiency and suggests the possible selective advantage of the p.Met1? allele.