Meng-Shin Shiao scite author profile

Adverse drug reactions (ADRs) remain a common and major problem in healthcare. Severe cutaneous adverse drug reactions (SCARs), such as Stevens–Johnson syndrome (SJS)/toxic epidermal necrolysis (TEN) with mortality rate ranges from 10% to more than 30%, can be life threatening. A number of recent studies demonstrated that ADRs possess strong genetic predisposition. ADRs induced by several drugs have been shown to have significant associations with specific alleles of human leukocyte antigen (HLA) genes. For example, hypersensitivity to abacavir, a drug used for treating of human immunodeficiency virus (HIV) infection, has been proposed to be associated with allele 57:01 of HLA-B gene (terms HLA-B∗57:01). The incidences of abacavir hypersensitivity are much higher in Caucasians compared to other populations due to various allele frequencies in different ethnic populations. The antithyroid drug- (ATDs- ) induced agranulocytosis are strongly associated with two alleles: HLA-B∗38:02 and HLA-DRB1∗08:03. In addition, HLA-B∗15:02 allele was reported to be related to carbamazepine-induced SJS/TEN, and HLA-B∗57:01 in abacavir hypersensitivity and flucloxacillin induced drug-induced liver injury (DILI). In this review, we summarized the alleles of HLA genes which have been proposed to have association with ADRs caused by different drugs.

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Deregulated Sex Chromosome Gene Expression with Male Germ Cell-Specific Loss of Dicer1

Greenlee

Shiao

Snyder

et al. 2012

PLoS ONE

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MicroRNAs (miRNAs) are a class of endogenous, non-coding RNAs that mediate post-transcriptional gene silencing by inhibiting mRNA translation and promoting mRNA decay. DICER1, an RNase III endonuclease encoded by Dicer1, is required for processing short 21–22 nucleotide miRNAs from longer double-stranded RNA precursors. Here, we investigate the loss of Dicer1 in mouse postnatal male germ cells to determine how disruptions in the miRNA biogenesis pathway may contribute to infertility. Reduced levels of Dicer1 transcripts and DICER1 were confirmed in germ cell knock-out (GCKO) testes by postnatal day 18 (P18). Compared to wild-type (WT) at 8 weeks, GCKO males had no change in body weight; yet showed significant reductions in testis mass and sperm number. Histology and fertility tests confirmed spermatogenic failure in GCKO males. Array analyses at P18 showed that in comparison to WT testes, 75% of miRNA genes and 37% of protein coding genes were differentially expressed in GCKO testes. Among these, 96% of miRNA genes were significantly down-regulated, while 4% miRNA genes were overexpressed. Interestingly, we observed preferential overexpression of genes encoded on the sex chromosomes in GCKO testes, including more than 80% of previously identified targets of meiotic sex chromosome inactivation (MSCI). Compared to WT, GCKO mice showed higher percentages of germ cells at early meiotic stages (leptotene and zygotene) but lower percentages at later stages (pachytene, diplotene and metaphase I) providing evidence that deletion of Dicer1 leads to disruptions in meiotic progression. Therefore, deleting Dicer1 in early postnatal germ cells resulted in deregulation of transcripts encoded by genes on the sex chromosomes, impaired meiotic progression and led to spermatogenic failure and infertility.

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Adaptive Evolution of the Insulin Two-Gene System in Mouse

Shiao

Liao

Long

et al. 2008

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Insulin genes in mouse and rat compose a two-gene system in which Ins1 was retroposed from the partially processed mRNA of Ins2. When Ins1 originated and how it was retained in genomes still remain interesting problems. In this study, we used genomic approaches to detect insulin gene copy number variation in rodent species and investigated evolutionary forces acting on both Ins1 and Ins2. We characterized the phylogenetic distribution of the new insulin gene (Ins1) by Southern analyses and confirmed by sequencing insulin genes in the rodent genomes. The results demonstrate that Ins1 originated right before the mouse-rat split ($20 MYA), and both Ins1 and Ins2 are under strong functional constraints in these murine species. Interestingly, by examining a range of nucleotide polymorphisms, we detected positive selection acting on both Ins2 and Ins1 gene regions in the Mus musculus domesticus populations. Furthermore, three amino acid sites were also identified as having evolved under positive selection in two insulin peptides: two are in the signal peptide and one is in the Cpeptide. Our data suggest an adaptive divergence in the mouse insulin two-gene system, which may result from the response to environmental change caused by the rise of agricultural civilization, as proposed by the thrifty-genotype hypothesis.

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Expression Divergence of Chemosensory Genes betweenDrosophila sechelliaand Its Sibling Species and Its Implications for Host Shift

et al. 2015

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Drosophila sechellia relies exclusively on the fruits of Morinda citrifolia, which are toxic to most insects, including its sibling species Drosophila melanogaster and Drosophila simulans. Although several odorant binding protein (Obp) genes and olfactory receptor (Or) genes have been suggested to be associated with the D. sechellia host shift, a broad view of how chemosensory genes have contributed to this shift is still lacking. We therefore studied the transcriptomes of antennae, the main organ responsible for detecting food resource and oviposition, of D. sechellia and its two sibling species. We wanted to know whether gene expression, particularly chemosensory genes, has diverged between D. sechellia and its two sibling species. Using a very stringent definition of differential gene expression, we found a higher percentage of chemosensory genes differentially expressed in the D. sechellia lineage (7.8%) than in the D. simulans lineage (5.4%); for upregulated chemosensory genes, the percentages were 8.8% in D. sechellia and 5.2% in D. simulans. Interestingly, Obp50a exhibited the highest upregulation, an approximately 100-fold increase, and Or85c—previously reported to be a larva-specific gene—showed approximately 20-fold upregulation in D. sechellia. Furthermore, Ir84a (ionotropic receptor 84a), which has been proposed to be associated with male courtship behavior, was significantly upregulated in D. sechellia. We also found expression divergence in most of the chemosensory gene families between D. sechellia and the two sibling species. Our observations suggest that the host shift of D. sechellia was associated with the enrichment of differentially expressed, particularly upregulated, chemosensory genes.

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Meng-Shin Shiao

HLA Association with Drug-Induced Adverse Reactions

Deregulated Sex Chromosome Gene Expression with Male Germ Cell-Specific Loss of Dicer1

Adaptive Evolution of the Insulin Two-Gene System in Mouse

Expression Divergence of Chemosensory Genes betweenDrosophila sechelliaand Its Sibling Species and Its Implications for Host Shift

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