Displaying all 7 publications

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  1. Ho WF, Koo SH, Yee JY, Lee JD
    Drug Metab. Pharmacokinet., 2008;23(5):385-91.
    PMID: 18974617
    MRP2 is a drug transporter that is responsible for the gastrointestinal absorption and biliary excretion of a wide variety of endogenous and xenobiotic compounds, including many clinically used drugs. This study aims to identify genetic variations of ABCC2 gene in three distinct ethnic groups of the Singaporean population (n = 288). The coding region of the gene encoding the transporter protein was screened for genetic variations in the study population by denaturing high-performance liquid chromatography and DNA sequencing. Twenty-two genetic variations of ABCC2, including 8 novel ones, were found: 1 in the 5' untranslated region, 10 in the coding exons (8 nonsynonymous and 2 synonymous variations), and 11 in the introns. Three novel nonsynonymous variations: 2686G > A (Glu896Lys), 4240C > T (His1414Tyr) and 4568A > C (Gln1523Pro) were detected in single heterozygous Malay, Chinese, and Indian subjects, respectively. Among the novel nonsynonymous variations, 4240C > T and 4568A > C were predicted to be functionally significant. These data would provide fundamental and useful information for pharmacogenetic studies on drugs that are substrates of MRP2 in Asians.
  2. Ho WF, Koo SH, Yee JY, Lee EJ
    Drug Metab. Pharmacokinet., 2008;23(6):476-82.
    PMID: 19122343
    OATP1B1 is a liver-specific transporter that mediates the uptake of various endogenous and exogenous compounds including many clinically used drugs from blood into hepatocytes. This study aims to identify genetic variations of SLCO1B1 gene in three distinct ethnic groups of the Singaporean population (n=288). The coding region of the gene encoding the transporter protein was screened for genetic variations in the study population by denaturing high-performance liquid chromatography and DNA sequencing. Twenty-five genetic variations of SLCO1B1, including 10 novel ones, were found: 13 in the coding exons (9 nonsynonymous and 4 synonymous variations), 6 in the introns, and 6 in the 3' untranslated region. Four novel nonsynonymous variations: 633A>G (Ile211Met), 875C>T (Ala292Val), 1837T>C (Cys613Arg), and 1877T>A (Leu626Stop) were detected as heterozygotes. Among the novel nonsynonymous variations, 633A>G, 1837T>C, and 1877T>A were predicted to be functionally significant. These data would provide fundamental and useful information for pharmacogenetic studies on drugs that are substrates of OATP1B1 in Asians.
  3. Koo SH, Ho WF, Lee EJ
    Br J Clin Pharmacol, 2006 Mar;61(3):301-8.
    PMID: 16487223
    To determine the genetic variability of long QT syndrome (LQTS)-associated genes (KCNQ1, HERG, KCNE1 and KCNE2) among three distinct ethnic groups in the Singapore population.
  4. Li L, Tan CM, Koo SH, Chong KT, Lee EJ
    Pharmacogenet Genomics, 2007 Sep;17(9):783-6.
    PMID: 17700367
    The human concentrative nucleoside transporter (hCNT2), also known as SLC28A2, plays an important role in the cellular uptake across intestinal membrane of some naturally occurring nucleosides and nucleoside analogs. This study aims to determine the genetic variability of hCNT2 (SLC28A2) in three major Asian ethnic groups residing in Singapore: Chinese, Malay and Indian, and functionally characterize the variants of hCNT2. Healthy participants (n=96) from each group were screened for genetic variations in the exons of hCNT2 (SLC28A2) using denaturing high performance liquid chromatography and sequencing analyses. A total of 23 polymorphisms were identified in the exonic and flanking intronic regions, and ethnic differences in single nucleotide polymorphism frequencies were evident. Five novel nonsynonymous variants (L12R, R142H, E172D, E385K, M612T) were constructed by mutagenesis and functionally characterized in U-251 cells. Expression of these variants in U-251 cells revealed that all except E385K can uptake various substrates of hCNT2: inosine, ribavirin and uridine.
  5. Chong KT, Ho WF, Koo SH, Thompson P, Lee EJ
    Br J Clin Pharmacol, 2007 Mar;63(3):328-32.
    PMID: 16981896
    To determine and compare the distribution of the FcgammaRIIIa 176 F/V polymorphism across three ethnically distinct populations (Chinese, Asian Indians and Malays) in Singapore.
  6. Koo SH, Deng J, Ang DSW, Hsiang JC, Lee LS, Aazmi S, et al.
    Singapore Med J, 2019 Oct;60(10):512-521.
    PMID: 30488079 DOI: 10.11622/smedj.2018152
    INTRODUCTION: The objectives of this study were to examine the effects of ethnicity, gender and a proton pump inhibitor (PPI), omeprazole, on the human gut microbiome. PPIs are commonly used for the treatment of acid-related disorders. We hypothesised that PPI therapy might perturb microbial communities and alter the gut microbiome.

    METHODS: Healthy subjects of Chinese (n = 12), Malay (n = 12) and Indian (n = 10) ancestry, aged 21-37 years, were enrolled. They provided a baseline stool sample (Day 1) and were then given a course of omeprazole at therapeutic dose (20 mg daily) for seven days. Stool samples were collected again on Day 7 and 14 (one week after stopping omeprazole). Microbial DNA was extracted from the stool samples, followed by polymerase chain reaction, library construction, 16S rRNA sequencing using Illumina MiSeq, and statistical and bioinformatics analyses.

    RESULTS: The findings showed an increase in species richness (p = 0.018) after omeprazole consumption on Day 7, which reverted to baseline on Day 14. There were significant increases in the relative abundance of Streptococcus vestibularis (p = 0.0001) and Veillonella dispar (p = 0.0001) on Day 7, which diminished on Day 14. Faecalibacterium prausnitzii, Sutterella stercoricanis and Bacteroides denticanum were characteristic of Chinese, Malays and Indians, respectively. Lactobacillaceae and Bacteroides xylanisolvens were the signature taxa of male and female subjects, respectively.

    CONCLUSION: The study demonstrated alterations in the gut microbiome following omeprazole treatment. This may explain the underlying pathology of increased risk of Clostridium difficile infections associated with omeprazole therapy.

  7. Wong LP, Ong RT, Poh WT, Liu X, Chen P, Li R, et al.
    Am J Hum Genet, 2013 Jan 10;92(1):52-66.
    PMID: 23290073 DOI: 10.1016/j.ajhg.2012.12.005
    Whole-genome sequencing across multiple samples in a population provides an unprecedented opportunity for comprehensively characterizing the polymorphic variants in the population. Although the 1000 Genomes Project (1KGP) has offered brief insights into the value of population-level sequencing, the low coverage has compromised the ability to confidently detect rare and low-frequency variants. In addition, the composition of populations in the 1KGP is not complete, despite the fact that the study design has been extended to more than 2,500 samples from more than 20 population groups. The Malays are one of the Austronesian groups predominantly present in Southeast Asia and Oceania, and the Singapore Sequencing Malay Project (SSMP) aims to perform deep whole-genome sequencing of 100 healthy Malays. By sequencing at a minimum of 30× coverage, we have illustrated the higher sensitivity at detecting low-frequency and rare variants and the ability to investigate the presence of hotspots of functional mutations. Compared to the low-pass sequencing in the 1KGP, the deeper coverage allows more functional variants to be identified for each person. A comparison of the fidelity of genotype imputation of Malays indicated that a population-specific reference panel, such as the SSMP, outperforms a cosmopolitan panel with larger number of individuals for common SNPs. For lower-frequency (<5%) markers, a larger number of individuals might have to be whole-genome sequenced so that the accuracy currently afforded by the 1KGP can be achieved. The SSMP data are expected to be the benchmark for evaluating the value of deep population-level sequencing versus low-pass sequencing, especially in populations that are poorly represented in population-genetics studies.
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