Shi Han Chen scite author profile

Mountain sickness (MS) occurs among humans visiting or inhabiting high altitude environments. We conducted genetic analyses of the AKT3, ANGPTL4, eNOS3 and VEGFA genes in lowland (Han) and highland (Tibetan) Chinese. Ten single nucleotide polymorphisms (SNPs) were evaluated in Han and Tibetan patients with acute (A) and chronic (C) MS. We compared 74 patients with AMS to 79 Han unaffected with MS, as well as 48 CMS patients to 31 unaffected Tibetans. The ten SNPs studied are AKT3 (rs4590656, rs2291409), ANGPTL4 (rs1044250), eNOS3 (rs1007311, rs1799983) and VEGFA (rs79469752, rs13207351, rs28357093, rs1570360, rs3025039). Direct sequencing was used to identify individual genotypes for these SNPs. Hemoglobin (Hb), hematocrit (Hct), and red blood cell count (RBC) were found to be significantly associated with the AKT3 SNP (rs4590656), Hb was found to be associated with the eNOS3 SNP (rs1007311), and RBC was found to be significantly associated with the VEGFA SNP (rs1570360) in Tibetan patients with CMS. CMS patients were found to diverge significantly for both eNOS3 SNPs as measured by genetic distance (0.042, 0.047) and for the VEGFA SNP (rs28357093) with a genetic distance of 0.078 compared to their Tibetan control group. Heart rate (HR) was found to be significantly associated with the eNOS3 SNP (rs1799983) and arterial oxygen saturation of hemoglobin (SaO2) was found to be significantly associated with the VEGFA SNPs (rs13207351, rs1570360) in Han patients with AMS. The Han and Tibetan control groups were found to diverge significantly for the ANGPTL4 SNP and VEGFA SNP (rs28357093), as measured by genetic distances of 0.049 and 0.073, respectively. Seven of the SNPs from non-coding regions are found in the transcriptional factor response elements and their possible role in gene regulation was evaluated with regard to MS. AMS and CMS were found to be significantly associated with the four genes compared to their Han and Tibetan control groups, respectively, indicating that these nucleotide alterations have a physiological effect for the development of high altitude sickness.

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VEGFA SNPs and transcriptional factor binding sites associated with high altitude sickness in Han and Tibetan Chinese at the Qinghai-Tibetan Plateau

Buroker

Xue

Zhou

et al. 2013

J Physiol Sci

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Mountain sickness (MS) occurs among humans visiting or inhabiting high altitude environments. We conducted genetic analyses of seven single nucleotide polymorphisms (SNPs) in the promoter region of VEGFA gene for lowland (Han) and highland (Tibetan) Chinese. The seven SNPs were evaluated in Han and Tibetan patients with acute (A) and chronic (C) MS. We compared 64 patients with AMS with 64 Han unaffected with MS, as well as 48 CMS patients with 32 unaffected Tibetans. The SNPs studied are rs699947, rs34357231, rs79469752, rs13207351, rs28357093, rs1570360, and rs2010963 which are found in the promoter ranging from -2,578 to -634 bp from the transcriptional start site (TSS), respectively. Direct sequencing was used to identify individual genotypes for these SNPs. Arterial oxygen saturation of hemoglobin (SaO2) was found to be significantly associated with the rs699947, rs34357231, rs13207351, and rs1570360 SNPs in Han patients with AMS, while the rs2010963 SNP was found to approach significance in the AMS study group, but found to be significantly associated in the normal Tibetan study group. The Han and Tibetan control groups were found to diverge significantly for the rs28357093 and rs2010963 SNPs, as measured by genetic distances of 0.073 and 0.054, respectively. All the SNPs are found in transcriptional factor binding sites (TFBS), and their possible role in gene regulation was evaluated with regard to MS. MS was found to be significantly associated with these SNPs compared with their Han and Tibetan control groups, indicating that these nucleotide substitutions result in TFBS changes which apparently have a physiological effect on the development of high altitude sickness.

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Moderate hypothermia (30°C) maintains myocardial integrity and modifies response of cell survival proteins after reperfusion

Xue¹,

Emil²,

Buroker³

et al. 2007

American Journal of Physiology-Heart and Circulatory Physiology

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Hypothermia preserves myocardial function, promotes signaling for cell survival, and inhibits apoptotic pathways during 45-min reperfusion. We tested the hypothesis that signaling at the transcriptional level is followed by corresponding proteomic response and maintenance of structural integrity after 3-h reperfusion. Isolated hearts were Langendorff perfused and exposed to mild (I group; n = 6, 34 degrees C) or moderate (H group; n = 6, 30 degrees C) hypothermia during 120-min total ischemia with cardioplegic arrest and 180-min 37 degrees C reperfusion. Moderate hypothermia suppressed anaerobic metabolism during ischemia and significantly diminished left ventricular end-diastolic pressure at the end of ischemia from 52.7 +/- 3.3 (I group) to 1.8 +/- 0.9 (H group) mmHg. Unlike the I group, which showed poor cardiac function and high left ventricular pressure, the H group showed preservation of myocardial function, coronary flow, and oxygen consumption. Compared with normal control hearts without ischemia (n = 5), histological staining in the I group showed marked disarray and fragmentation of collagen network (score 4-5), while the H group showed preserved collagen integrity (score 0-1). The apoptosis-linked tumor suppressor protein p53 was expressed throughout the I group only (score 4-5). The H group produced elevated expression for hypoxia-inducible factor 1alpha and heme oxygenase 1, but minimally affected vascular endothelial growth factor expression. The H group also elevated expression for survival proteins peroxisomal proliferator-activated receptor-beta and Akt-1. These results show in a constant left ventricular volume model that moderate hypothermia (30 degrees C) decreases myocardial energy utilization during ischemia and subsequently promotes expression of proteins involved in cell survival, while inhibiting induction of p53 protein. These data also show that 34 degrees C proffers less protection and loss of myocardial integrity.

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The identification of a (CGG) 6 AGG insertion within the CGG repeat of the FMR1 gene in Asians

et al. 1997

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We have evaluated the structure of the CGG repeat within the FMR1 gene of an Asian population and found the most common size of the repeat to be 29 and 30 with a minor population of 36 repeats. We have isolated and sequenced DNA containing the 36 repeats and found the basis sequence to be (CGG)9AGG(CGG)9AGG-(CGG)6AGG(CGG)9; with a (CGG)6)AGG insertion, designated as 9A9A6A9. Of 144 Asian chromosomes, 11 (8%) had sequences with this insertion. Six different variations of the basic sequence were observed in the population: 9A9A6A2A9, 9A9A6A11, 9A9A16, 9A9A15, 8A9A6A6A9, and 11A6A6A9. All but one of the chromosomes with the insertion had the haplotype of DXS548/ FRAXAC1: 194/D suggesting that the sequences with the 6A insertion arose from a single ancestral allele. We have not observed the insertion in the FMR1 gene of Caucasians or Native Americans. The (CGG)6AGG insertion may be unique to Asians.

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Signaling and expression for mitochondrial membrane proteins during left ventricular remodeling and contractile failure after myocardial infarction

Xue

Zhang

Liu

et al. 2000

Journal of the American College of Cardiology

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Maintained signaling for major mitochondrial membrane proteins occurs in association with successful remodeling and adaptation after infarction. Reduced expression of these proteins relates to limited ATP synthesis capacity and high energy phosphate kinetic abnormalities previously demonstrated in CHF. These findings imply that mitochondrial processes participate in myocardial remodeling after infarction.

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Genetic associations with mountain sickness in Han and Tibetan residents at the Qinghai-Tibetan Plateau

Buroker

Xue

Zhou

et al. 2010

Clinica Chimica Acta

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CG dinucleotide transitions in the factor IX gene account for about half of the point mutations in hemophilia B patients: a Seattle series

et al. 1991

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Hemophilia B is due to multiple molecular defects in the factor IX gene. Over 80% of mutations are single base substitutions. By amplification and direct sequencing, 51 single base substitutions were found in the transcribed sequence of the factor IX genes of patients from 50 distinct families with hemophilia B. These include 30 mutations in 29 families not previously reported by us; of these, 12 are novel, i.e., not previously published in other series. Of the 51 substitutions in our overall series 23 (45%) occurred as C-to-T or G-to-A transitions at 11 sites within CG dinucleotides. It is estimated that CG transitions occur from one to two orders of magnitude more frequently than mutations in nucleotides that are not within a CG pair. More than one family had identical defects for 6 of the CG mutations. At 4 of these sites, most patients had different haplotypes compatible with distinct mutations. Non-CG-type mutations occurred throughout the coding regions with only one mutation in more than one family. The latter included 7 families with a 397 Ile-to-Thr defect that all share a rare haplotype, suggesting a common ancestor.

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Shi Han Chen

EPAS1 and EGLN1 associations with high altitude sickness in Han and Tibetan Chinese at the Qinghai–Tibetan Plateau

AKT3, ANGPTL4, eNOS3, and VEGFA associations with high altitude sickness in Han and Tibetan Chinese at the Qinghai-Tibetan Plateau

VEGFA SNPs and transcriptional factor binding sites associated with high altitude sickness in Han and Tibetan Chinese at the Qinghai-Tibetan Plateau

Moderate hypothermia (30°C) maintains myocardial integrity and modifies response of cell survival proteins after reperfusion

The identification of a (CGG) 6 AGG insertion within the CGG repeat of the FMR1 gene in Asians

Signaling and expression for mitochondrial membrane proteins during left ventricular remodeling and contractile failure after myocardial infarction

Genetic associations with mountain sickness in Han and Tibetan residents at the Qinghai-Tibetan Plateau

CG dinucleotide transitions in the factor IX gene account for about half of the point mutations in hemophilia B patients: a Seattle series

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