Mutation analysis of SLC5A2 gene and determination of the renal threshold for glucose excretion in Chinese patients with familial renal glucosuria / 中华肾脏病杂志

Objective To analyze and identify the mutations in SGLT2 gene of nine Chinese families with FRG, and determine the renal threshold for glucose excretion (RTG), so as to explore the association of genotype and RTG. Methods All coding regions of SGLT2 gene, including intron exon boundaries, were analyzed using PCR followed by direct sequence analysis. Quantitative test for 24?hour urine glucose and RTG were measured among 9 probands (21 patients) and their family members from 9 pedigrees (total 25 subjects). The differences in renal glucose thresholds between patients with different genotypes (heterozygotes and compound heterozygotes; c.886(-10_-31) del heterozygotes and other heterozygotes) were compared. Results Twelve mutations were identified by SGLT2 gene analysis, including 10 novel ones that were not included in HGMD:c.331T>C, p.W111R;c.374T>C, p.M125T; c.394C>T, p.R132C; c.612G>C, p.Q204H; c.829C>T, p.P277S; c.880G>A, p.D294N;c.1129G>A, p.G377S; c.1194C>A, p.F398L; c.1540C>T, p.P514S; c.1573C>T, p.H525Y. In thisstudy, the mutation c.886(-10_-31)del that is specific to Chinese population accounted for about 28％of the total alleles (5/18). The RTG values of patients with compound heterozygous mutations were much lower than those with simple heterozygous mutations [(1.28 ±0.10) vs (5.14±0.77) mmol/L; P<0.001];and c.886(-10_-31)del heterozygotes had significant lower RTG values than others [(4.43 ± 0.37) vs (5.70 ± 0.51) mmol/L, P<0.001]. Conclusions Ten novel mutations which may be related to FRG are found in this study, and c.886(-10-31)del may be a hot?spot mutation in Chinese patients. Compound heterozygotes had much lower RTG values than simple heterozygotes.

Analysis on the mutation of SLC5A2 gene in Chinese patients with familial renal glucosuria and investigation on the association of genotype and phenotype / 中华肾脏病杂志

Objective To describe and analyze the clinical characters of patients with FRG from 7 Chinese families.Then analyze and identify their mutations in SGLT2 gene,and explore the association of genotype and phenotype.Methods Quantitative test for 24-hour urine glucose and other laboratory tests were carried out among 7 probands (14 patients in all) and their family members from 7 pedigrees (totaling 23 subjects).All coding regions,including intron-exon boundaries,were analyzed using PCR followed by direct sequence analysis.Results Five novel mutations in SLC5A2 gene were identified in this investigation,including four missense mutations (A Serine to Glycine at position 335 (c.1003A＞G,p.S335G),a Glutamine to Arginine at position 448 (c.1343A ＞ G,p.Q448R),an alanine to proline at position 474 (p.A474P,c.1420G ＞ C) and a glycine to aspartic acid at position 580 (c.1739G ＞ A,p.G580D) and a deletion in intron 7 (c.886(-10_-31)del).By the minigene studies using the pSPL3 plasmids,we confirmed the deletion c.886(-10_-31)del as a splicing mutation.In this study,the mutation c.886(-10_-31)del accounted for about 43％ of the total alleles (12/28).These patients with compound heterozygous or homozygous mutations manifested middle degree or severe glycosuria (Quantitative test for 24-hour urine glucose:10.56-50.68 g/1.73 m2),however those with heterozygous variants presented with mild to moderate glycosuria (Quantitative test for 24-hour urine glucose ≤ 2.45 g/1.73 m2).This fits co-dominant inheritance pattern.Conclusions Five novel mutations which may be related to FRG are found in this study,and c.886(-10-31) del may be a high frequency mutation in Chinese patients.