Kanya Suphapeetiporn

Carbamazepine and phenytoin induced Stevens‐Johnson syndrome is associated with HLA‐B*1502 allele in Thai population

Purpose:  Previous studies found a strong association between HLA‐B*1502 and carbamazepine (CBZ)‐induced Stevens‐Johnson syndrome (SJS) in Han Chinese, but not in Caucasian populations. Even in Han Chinese, the HLA‐B*1502 was not associated with CBZ‐induced maculopapular eruptions (MPE). This study seeks to identify whether HLA‐B*1502 is associated with CBZ‐ or phenytoin (PHT)‐induced SJS or MPE in a Thai population.

Meta-analysis Followed by Replication Identifies Loci in or near CDKN1B, TET3, CD80, DRAM1, and ARID5B as Associated with Systemic Lupus Erythematosus in Asians

Systemic lupus erythematosus (SLE) is a prototype autoimmune disease with a strong genetic involvement and ethnic differences. Susceptibility genes identified so far only explain a small portion of the genetic heritability of SLE, suggesting that many more loci are yet to be uncovered for this disease. In this study, we performed a meta-analysis of genome-wide association studies on SLE in Chinese Han populations and followed up the findings by replication in four additional Asian cohorts with a total of 5,365 cases and 10,054 corresponding controls. We identified genetic variants in or near CDKN1B, TET3, CD80, DRAM1, and ARID5B as associated with the disease. These findings point to potential roles of cell-cycle regulation, autophagy, and DNA demethylation in SLE pathogenesis. For the region involving TET3 and that involving CDKN1B, multiple independent SNPs were identified, highlighting a phenomenon that might partially explain the missing heritability of complex diseases.

ELF1 is associated with systemic lupus erythematosus in Asian populations

Systemic lupus erythematosus (SLE) is an autoimmune disease with a strong genetic involvement. The susceptibility genes identified so far can only explain a small proportion of disease heritability. Through a genome-wide association in a Hong Kong Chinese cohort and subsequent replication in two other Asian populations, with a total of 3164 patients and 4482 matched controls, we identified association of ELF1 (E74-like factor 1) with SLE (rs7329174, OR = 1.26, joint P= 1.47 × 10(-8)). ELF1 belongs to the ETS family of transcription factors and is known to be involved in T cell development and function. Database analysis revealed transcripts making use of three alternative exon1s for this gene. Near equivalent expression levels of distinct transcripts initiated from alternative exon1s were detected in peripheral blood mononuclear cells from both SLE patients and healthy controls. Although a direct association of rs7329174 with the three forms of transcripts for this gene was not detected, these findings support an important role of ELF1 in SLE susceptibility and suggest a potentially tight regulation for the expression of this gene.

TBX22 mutations are a frequent cause of non‐syndromic cleft palate in the Thai population

Mutations in the TBX22 gene underlie an X‐linked malformation syndrome with cleft palate (CP) and ankyloglossia. Its mutations also result in non‐syndromic CP in some populations. To investigate whether mutations in TBX22 play a part in the formation of non‐syndromic CP in the Thai population, we performed mutation analysis covering all the coding regions of the TBX22 gene in 53 unrelated Thai patients with non‐syndromic CP. We identified four potentially pathogenic mutations, 359G→A (R120Q), 452G→T (R151L), 1166C→A (P389Q), and 1252delG in four different patients. All mutations were not detected in at least 112 unaffected ethnic‐matched control chromosomes and had never been previously reported. R120Q and R151L, found in two sporadic cases, were located in the DNA binding T‐box domain. P389Q and 1252delG, found in two familial cases, were at the carboxy‐terminal region, which has never been described. Our study indicates that TBX22 mutations are responsible for a significant proportion of Thai non‐syndromic CP cases confirming its importance as a frequent cause of non‐syndromic CP across different populations.

Three novel mutations in the PORCN gene underlying focal dermal hypoplasia.

Focal dermal hypoplasia (FDH) is an X‐linked dominant disorder characterized by patchy dermal hypoplasia with digital, ocular and dental abnormalities. Very recently, mutations in the PORCN gene were demonstrated to cause FDH. Here, we described three unrelated Thai girls who were sporadic cases of FDH. One of them had unilateral athelia, which has never been described in FDH. Mutation analysis by polymerase chain reaction sequencing the entire coding regions of PORCN successfully revealed three potentially pathogenic mutations, c.373+1G>A, c.737_738insA and c.1094G>A (p.R365Q). One was found in each of three patients. In addition, another sequence variant c.682C>T (p.R228C) with an inconclusive role was found in one patient and her unaffected mother. The two missense mutations were not detected in at least 100 ethnic‐matched control chromosomes, and all four mutations had never been previously described. X chromosome inactivation studies showed random patterns in all of them. This study demonstrates that PORCN is the gene responsible for FDH across different populations and extends the total number of confirmed mutations to 26.

Germline and Somatic DICER1 Mutations in a Pituitary Blastoma Causing Infantile-Onset Cushing's Disease

CONTEXT Pituitary blastoma causing Cushings syndrome in infancy is very rare, and its molecular pathomechanism is not well understood. OBJECTIVE Our objective was to identify genetic changes of a pituitary blastoma causing infantile-onset Cushings syndrome in a Thai girl without a family history of cancers. METHODS Genomic DNA from both leukocytes and tumor tissues was used for whole-exome sequencing (WES) and Sanger sequencing of DICER1. The cDNA reverse-transcribed from RNA extracted from both leukocytes and tumor tissues was used for Sanger sequencing, quantitative real-time PCR (qRT-PCR), and pyrosequencing of DICER1. RESULTS WES of leukocytes identified a novel heterozygous c.3046delA (p.S1016VfsX1065) mutation in the DICER1 gene. WES of the tumor tissues detected the same frameshift germline mutation and another novel somatic missense c.5438A→T (p.E1813V) mutation. Both mutations were validated by Sanger sequencing. Quantitative real-time PCR revealed that the DICER1 mRNA levels of the tumor tissues were 54% compared with those of her leukocytes. Pyrosequencing showed that the deletion allele constituted 12% and 0% of the DICER1 cDNA of the probands leukocytes and tumor tissues, respectively. CONCLUSION Our study extends the phenotypic and mutational spectrum of DICER1 mutations to include infantile-onset Cushings disease and 2 novel mutations. Loss of function of both DICER1 alleles appears to be crucial to initiate tumor development.

MBTPS2 mutations cause defective regulated intramembrane proteolysis in X-linked osteogenesis imperfecta

Osteogenesis imperfecta (OI) is a collagen-related bone dysplasia. We identified an X-linked recessive form of OI caused by defects in MBTPS2, which encodes site-2 metalloprotease (S2P). MBTPS2 missense mutations in two independent kindreds with moderate/severe OI cause substitutions at highly conserved S2P residues. Mutant S2P has normal stability, but impaired functioning in regulated intramembrane proteolysis (RIP) of OASIS, ATF6 and SREBP transcription factors, consistent with decreased proband secretion of type I collagen. Further, hydroxylation of the collagen lysine residue (K87) critical for crosslinking is reduced in proband bone tissue, consistent with decreased lysyl hydroxylase 1 in proband osteoblasts. Reduced collagen crosslinks presumptively undermine bone strength. Also, proband osteoblasts have broadly defective differentiation. These mutations provide evidence that RIP plays a fundamental role in normal bone development.

NUDT15 c.415C>T increases risk of 6-mercaptopurine induced myelosuppression during maintenance therapy in children with acute lymphoblastic leukemia.

Acute lymphoblastic leukemia (ALL) is the most common hematologic malignancy in children[1][1]. Prolongation of therapy by incorporating a maintenance phase, containing 6-mercaptopurine (6-MP) as the backbone, has improved treatment outcomes in pediatric ALL[2][2]–[4][3]. However, 6-MP can cause

PDGFRa mutations in humans with isolated cleft palate

Isolated cleft palate (CP) is common in humans and has complex genetic etiologies. Many genes have been found to contribute to CP, but the full spectrum of genes remains unknown. PCR-sequencing of the entire coding regions and the 3′ untranslated region (UTR) of the platelet-derived growth factor receptor alpha (PDGFRa) and the microRNA (miR), miR-140 identified seven novel single base-pair substitutions in the PDGFRa in 9/102 patients with CP (8.8%), compared with 5/500 ethnic-matched unaffected controls (1%) (the two-tailed P-value<0.0001). Of these seven, four were missense mutations in the coding regions and three in the 3′UTR. Frequencies of four changes (three in coding, one in 3′UTR) were statistically different from those of controls (P-value<0.05). The c.*34G>A was identified in 1/102 cases and 0/500 controls. This position is conserved in primates and located 10 bp away from a predicted binding site for the miR-140. Luciferase assay revealed that, in the presence of miR-140, the c.*34G>A significantly repressed luciferase activity compared with that of the wild type, suggesting functional significance of this variant. This is the first study providing evidence supporting a role of PDGFRa in human CP.

A newly identified locus for benign adult familial myoclonic epilepsy on chromosome 3q26.32-3q28

Benign Adult Familial Myoclonic Epilepsy (BAFME) is an autosomal dominant disorder characterized by adult-onset cortical tremor or action myoclonus predominantly in the upper limbs, and generalized seizures. We investigated a Thai BAFME family. Clinical and electrophysiological studies revealed that 13 were affected with BAFME. There were a total of 24 individuals studied. Genetic analysis by genome-wide linkage study (GWLS) was performed using 400 microsatellite markers and excluded linkage of the previous BAFME loci, 8q23.3-q24.1, and 2p11.1-q12.2. GWLS showed that the disease-associated region in our Thai family was linked to a newly identified locus on chromosome 3q26.32-3q28. This locus represents the fourth chromosomal region for BAFME.