Global ETD Search

1	Development of a high-throughput genotyping assay for detection of functional polymorphisms involved in homocysteine metabolism and the methylation process implicated in multiple sclerosis Davis, William Henry 12 1900 (has links) Thesis (MMedSc)--Stellenbosch University, 2013. / ENGLISH ABSTRACT: The aetiology of multiple sclerosis (MS) remains largely unknown due to the multifactorial nature of disease susceptibility determined by both environmental and genetic factors. Progress has been made in identifying the genetic component of MS , as well as the possible interactions with the environment. In this study single nucleotide polymorphisms (SNPs) in the FTO (rs9939609, Intron 1 T>A), MTR (rs1805087, 2756 A>G), MTRR (rs1801394, 66 A>G), MTHFR (rs1801133, 677 C>T and rs1801131, 1298 A>C) and COMT (rs4680, 472 G>A) genes involved in the methylation metabolic pathway were studied in the context of MS. The overall objective of this study was to elucidate the mechanism underlying raised homocysteine levels in MS patients. The specific aims were 1) to analytically validate high throughput real-time polymerase chain reaction (RT-PCR) genotyping assays for the 6 selected SNPs against direct sequencing as the gold standard for 2) possible integration into a pathology-supported genetic testing strategy aimed at improved clinical management of MS. The study population included a total of 114 unrelated Caucasian MS patients (98 females and 16 males) and 195 unrelated Caucasian control individuals without a diagnosis of neurological disease (128 females and 67 males). A novel finding of this study was that the risk-associated FTO rs9939609 A-allele was associated with raised homocysteine levels (p=0.003) in patients diagnosed with MS, but not in controls. Furthermore, homocysteine levels correlated significantly with bo dy mass index (BMI) (p=0.046) and total cholesterol levels (p=0.048). Both homocysteine (p=0.011) and BMI (p=0.017) were significantly reduced with increasing intake of folate in the diet, while high saturated/trans fat intake correlated significantly with increased BMI (p<0.001). High physical activity correlated with reduced BMI (p<0.006) in the study population, adjusted for age, gender and disease status. Daily intake of at least five fruit and vegetable portions and the COMT rs4680 (472 G>A) AA genotype had a favourable lowering effect on MS disability as assessed by the expanded disability status scale (EDSS) (p=0.035), while smoking increased MS disability significantly (p<0.001). All SNPs studied were found to be in Hardy-Weinberg equilibrium (HWE), with no significant differences detected between patients and control individuals in genotype distribution or allele frequencies. This study has shown for the first time that the underlying disease process of MS moderates the effect of the FTO rs9939609 polymorphism on homocysteine levels , which is consistent with the role of FTO in demethylation and epigenetic changes. Identification of FTO rs9939609 reinforces the importance of adequate folate intake in the diet that can be assessed accurately with use of the Medical History and Lifestyle Questionnaire applied in this study. Finally, the finding that raised homocysteine levels and BMI are significantly influenced by lifestyle factors such as diet and physical activity in our study cohort , offers a solution to counteract the detrimental effects of genetic risk factors contributing to the development of these established vascular risk factors for MS. Combining this information with FTO rs9939609 and COMT rs4680 genotyping may in future translate into a comprehensive pathology supported genetic testing strategy aimed at improved risk management and quality of life in MS patients. / AFRIKAANSE OPSOMMING: Die etiologie van meervoudige sklerose (MS) is grootliks onbekend as gevolg van die multifaktoriale aard van siekte vatbaarheid wat bepaal word deur beide genetiese en omgewingsfaktore. Vordering is reeds gemaak in die identifisering van die genetiese component van MS, asook moontlike interaksie met die omgewing. In hierdie studie is enkel nukleotied polimorfismes (SNPs) in die FTO (rs9939609, Intron 1 T > A), MTR (rs1805087, 2756 A> G), MTRR (rs1801394, 66 A> G), MTHFR (rs1801133, 677 C > T en rs1801131, 1298 A> C) en COMT (rs4680, 472 G > A) gene, wat betrokke is in die metilering metaboliese padweg, in die konteks van MS bestudeer. Die oorhoofse doel van hierdie studie was om die onderliggende meganisme betrokke by verhoogde homosisteïen vlakke in MS pasiënte uit te lig. Die spesifieke doelwitte was 1) om die analitiese geldigheid van die hoë deurvoer riëeltyd polymerase kettingreaksie (RT-PCR) genotipering metode soos toegepas vir die 6 geselekteerde SNPs te bevestig teen direkte DNA volgorde bepaling as die goue standaard, vir 2) moontlike integrasie in 'n patologie-gesteunde genetiese toetsing (PSGT) stategie wat gemik is op verbeterde kliniese hantering van MS. Die studiepopulasie bestaan uit 'n totaal van 114 nie-verwante Kaukasiese MS pasiënte (98 vroue en 16 mans) en 195 nie-verwante Kaukasiese kontroles sonder ‘n diagnose van neurologiese siektes (128 vroue en 67 mans). 'n Nuwe bevinding van hierdie studie was dat die risiko-verwante FTO rs9939609 A- alleel geassosieer was met verhoogde homosisteïen vlakke (p = 0,003) in pasiënte gediagnoseer met MS, maar nie in kontroles nie. Homosisteïen vlakke was verder beduidend geassosieer met liggaamsmassa-indeks (BMI) (p=0,046) en totale cholesterol vlakke (p=0.048). Beide homosisteïen (p=0,011) en BMI (p=0,017) het aansienlik verminder met 'n hoër inname van folaat in die dieet, terwyl 'n hoë versadigde/trans vet en koolhidrate inname beduidend gekorreleer het met 'n verhoogde BMI (p <0.001). Hoë fisiese aktiwiteit was gekorreleer met 'n verminderde BMI (p< 0.006) in die gekombineerde groep, aangepas vir die ouderdom, geslag en MS diagnose. Daaglikse inname van ten minste vyf vrugte en groente porsies en die COMT rs4680 (472 G>A) AA genotipe het 'n gunstige uitwerking op vermindering van gestremdheid gehad, soos bepaal deur die uitgebreide gestremdheid status skaal (EDSS) (p=0,035), terwyl rook MS gestremdheid beduidend verhoog het (p <0.001). Alle SNPs bestudeer was in Hardy-Weinberg ewewig (HWE), met geen beduidende verskille waargeneem in genotipe verspreiding of alleelfrekwensies tussen pasiënte en kontroles nie. Hierdie studie het vir die eeste keer aangetoon dat ‘n diagnose van MS die effek van die FTO rs9939609 polimorfisme op homosisteïen vlakke modereer, wat ooreenstem met die rol van FTO in demetilering en epigenetiese veranderinge. Identifikasie van FTO rs9939609 versterk die belangrikheid van genoegsame folaat inname in die dieet wat akkuraat gemeet kon word deur gebruik te maak van die Mediese Geskiedenis en Leefstyl Vraelys soos toegepas in hierdie studie. Ten slotte, die bevinding dat verhoogde homosisteïen vlakke en BMI statisties betekenisvol beïnvloed word deur leefstylfaktore soos dieet en fisiese aktiwiteit in ons studie populasie, verskaf 'n oplossing om die genetiese bydrae tot hierdie gevestigde vaskulêre risikofaktore vir MS teen te werk. Kombinasie van hierdie inligting met FTO rs9939609 en COMT rs4680 genotipering kan moontlik in die toekoms benut word as deel van 'n omvattende patologie- gesteunende genetiese toetsing strategie wat daarop gemik is om die risikobestuur en kwaliteit van lewe te verbeter in MS pasiënte. Multiple sclerosis (MS) Homocysteine -- Metabolism Single nucleotide polymorphisms UCTD
2	Regulation of mouse methylenetetrahydrofolate reductase (Mthfr) and its role in early development Tran, Pamela. January 2002 (has links) No description available. Neural tube -- Abnormalities. Methylenetetrahydrofolate reductase Hyperhomocysteinemia -- etiology. Folic acid deficiency. Mice -- Molecular genetics. Homocysteine -- Metabolism.
3	A mouse model for methylenetetrahydrofolate reductase deficiency and biochemical studies of the recombinant human enzyme / Chen, Zhoutao, 1972- January 2001 (has links) No description available. Mice -- Molecular genetics. Hyperhomocysteinemia -- etiology. Methylenetetrahydrofolate reductase Folic acid deficiency. Homocysteine -- Metabolism.
4	Regulation of mouse methylenetetrahydrofolate reductase (Mthfr) and its role in early development Tran, Pamela. January 2002 (has links) Methylenetetrahydrofolate reductase (MTHFR) synthesizes 5-methyltetrahydrofolate, a methyl donor for conversion of homocysteine to methionine. A common thermolabile variant causes mild MTHFR deficiency, induces mild hyperhomocysteinemia when plasma folate levels are low and increases risk for neural tube defects (NTD) and pregnancy loss. To increase our understanding of Mthfr regulation, the 5' and 3' regions of the mouse cDNA and gene were characterized. These studies revealed two major promoters, an internal coding exon in the 5'UTR, alternative transcriptional and translational start sites and alternative splicing and polyadenylation. These data suggest that Mthfr regulation is likely to be complex. To investigate the role of Mthfr in NTD, several approaches were taken. First, folate and MTHFR co-factor, flavin adenine dinucleotide, were shown to stabilize normal and thermolabile MTHFR during heat inactivation, suggesting that folate might prevent hyperhomocysteinemia in individuals with thermolabile enzyme through protein stabilization. Next, in situ hybridization of neurulating mouse embryos showed that Mthfr is expressed in the forebrain, hindbrain, branchial arches, blood vessels, gut, and importantly, in the ventral part of the neural tube. Mthfr+/- mice were then used as a model of mild deficiency to address the effects of maternal and embryonic Mthfr deficiency on development. When combined with inadequate dietary folate, Mthfr +/- pregnant females showed a two-fold higher rate of pregnancy loss than Mthfr+/+ pregnant females. As well, a percentage of day 10.5 embryos from only the Mthfr+/- pregnant females were underdeveloped by 2 days. These effects were not apparent when dietary folate was sufficient, consistent with a genetic-nutritional interactive effect. Finally, folate metabolism was investigated in an NTD model, the curly-tail (ct) mouse, since the ct defect and Mthfr were mapped in close proximity. However, Mthfr sequence in ct mice was simila Methylenetetrahydrofolate reductase Folic acid deficiency. Neural tube -- Abnormalities. Homocysteine -- Metabolism. Mice -- Molecular genetics. Hyperhomocysteinemia -- etiology.
5	A mouse model for methylenetetrahydrofolate reductase deficiency and biochemical studies of the recombinant human enzyme / Chen, Zhoutao, 1972- January 2001 (has links) Hyperhomocysteinemia is a risk factor for cardiovascular disease and stroke. Nutritional and/or genetic disruptions in homocysteine metabolism can cause hyperhomocysteinemia. Mild methylenetetrahydrofolate reductase (MTHFR) deficiency due to the 677C → T mutation in the MTHFR gene is the most common genetic cause of hyperhomocysteinemia. The 677C → T variant is associated with an increased risk for neural tube defects, pregnancy complications, schizophrenia and Down syndrome, and with a decreased risk for colon cancer and leukemia. This variant is also a potential risk factor for vascular disease. Severe MTHFR deficiency results in homocystinuria, an inborn error of metabolism with neurological and vascular complications. We have generated mice with a knockout of the Mthfr gene. The Mthfr-deficient mice exhibit hyperhomocysteinemia and decreased methylation capacity. The Mthfr+/- mice appear normal, whereas the Mthfr-/- mice are smaller and have reduced survival. Abnormal external granule neuron development associated with increased cell death in the cerebellum was observed in the Mthfr-/- mice. / Evidence for cardiovascular pathology was obtained in several ways. Impaired aortic relaxation response to acetylcholine was seen in the Mthfr +/- mice fed a high methionine diet. Both Mthfr+/- and Mthfr-/- mice fed a low folate high methionine diet developed myocardial fibrosis in the left ventricle. Abnormal lipid deposition in the proximal portion of the aorta was observed in older Mthfr+/- and Mthfr-/- mice. After crossing Mthfr -deficient mice with apoE-null mice, we demonstrated that MTHFR deficiency promoted atherogenesis and its progression in the apoE-null mice. / Gene expression in brain of Mthfr-deficient mice was investigated via microarray analysis. Five genes with altered expression in the brain of Mthfr-/- mouse were validated by RT-PCR. In biochemical studies of human MTHFR, both FAD and folate were shown to stabilize the purified recombinant wild type and mutant MTHFRs from the baculovirus expression system against heat inactivation. The effect of folate appeared to be secondary to that of FAD, and S-adenosylmethionine (SAM) inhibited purified wild type and mutant MTHFRs with similar efficiency. / This dissertation will significantly contribute to our understanding of the role of MTHFR in human disease. Methylenetetrahydrofolate reductase Folic acid deficiency. Homocysteine -- Metabolism. Mice -- Molecular genetics. Hyperhomocysteinemia -- etiology.
6	Genetic, evolutionary and genomic analysis of homocysteine and folate pathway regulation Kitami, Toshimori. January 2006 (has links) Thesis (Ph. D.)--Case Western Reserve University, 2006. / [School of Medicine] Department of Genetics. Includes bibliographical references. Available online via OhioLINK's ETD Center.
7	Genetic and nutritional folate deficiency : implications for homocystinuria and intestinal neoplasia Sibani, Sahar. January 2000 (has links) Folate deficiency, a prevalent vitamin deficiency in America, can stem from environmental and/or genetic causes. The most common inborn error of folate metabolism is deficiency of methylenetetrahydrofolate reductase (MTHFR), which catalyzes the reduction of 5,10-methylenetetrahydrofolate to 5-methyltetrahydrofolate. Severe MTHFR deficiency results in hyperhomocysteinemia and homocystinuria; patients present with developmental delay, and various neurological and vascular disorders. This thesis describes three mutations identified in the MTHFR locus in patients with severe deficiency: 1025T→C (M→T), 1027T→G (W→G), and 1768G→A (E→K). Genotype-phenotype correlations are described, along with biochemical characterization of three mutations (983A→G (N→S), 1025T→C, 1027T→G). All three mutations exert their effect by decreasing Vmax without changing the enzyme's affinity for its substrate, 5-methyltetrahydrofolate. The 983A→G variant also conferred decreased affinity for FAD, a cofactor. / The more common and mild deficiency observed in the general healthy population is probably due in part to insufficient dietary intake of folate. Folate deficiency has been associated with increased risk for colon cancer. In a pilot study presented here, the impact of altered folate intake on tumor multiplicity in the Min mouse, a model for multiple intestinal neoplasia, was assessed. Folate deficient diets did not produce a consistent change in tumor numbers. However, a linear correlation between S-adenosylmethionine and S-adenosylhomocysteine content of preneoplastic tissue and tumor multiplicity was identified. / This thesis contributes to our understanding of the impact of genetic- and/or dietary-induced folate deficiency on cellular and organismal functions. Folic acid deficiency. Homocysteine -- Metabolism. Methylenetetrahydrofolate reductase Homocystinuria -- etiology.
8	A Comparative study between the prevalence of MTHFR A1298C SNP and homocysteine metabolism in an elderly black South African population Dippenaar, Luzanne 08 1900 (has links) M. Tech (Department of Biotechnology, Faculty of Applied and Computer Sciences) Vaal University of Technology. / Background: Cardiovascular diseases are one of the most common causes of death worldwide. This is not only a problem in developed countries, it is of major concern for public health in developing countries as well. Increased homocysteine is an independent risk factor for cardiovascular diseases. Nutritional deficiencies of folate, vitamin B6 and vitamin B12 are associated with hyperhomocysteinemia. MTHFR A1298C, a single nucleotide polymorphism, is similarly linked with higher concentrations of homocysteine. The aim of this study was to determine the prevalence of MTHFR A1298C in a black elderly population, along with folate, vitamin B6 and vitamin B12 and to evaluate the effect on homocysteine levels. Methodology: The research design was an observational cross-sectional study and was ethically approved. A total of 84 elderly who attend a day-care centre (also met inclusion criteria) were purposively selected. DNA was extracted and frozen on the day of blood collection. The MTHFR A1298C genotype was determined with real time PCR. Homocysteine, folate, vitamin B6 and vitamin B12 serum levels were detected with commercial assay kits. Results: Homocysteine was found to be elevated with a median of 17.78 µmol/L (interquartile range 13.98-21.03 µmol/L). Serum folate, vitamin B6 and vitamin B12 medians were in the normal range. Although, 5.95% and 22.62% of the population were deficient and possibly deficient for vitamin B12, respectively. MTHFR A1298C frequency was as follow: 89.29% (AA), 9.52% (AC) and 1.19% (CC), with no significant correlation (p>0.05) with homocysteine. Vitamin B12 correlated significantly with homocysteine levels. Conclusion: Vitamin B12 deficiency had an effect on homocysteine levels. Overall, nutritional deficiencies are not responsible for the hyperhomocysteinemia in this population. In conclusion from this study showed MTHFR A1298C frequency in black South Africans does not contribute to homocysteine as a risk factor for cardiovascular disease. Keywords: Cardiovascular disease, elderly, folate, homocysteine, MTHFR A1298C, vitamin B6, vitamin B12. Homocysteine -- Pathophysiology. Homocysteine -- Metabolism -- Disorders. Older people -- Diseases -- Treatment.
9	Genetic and nutritional folate deficiency : implications for homocystinuria and intestinal neoplasia Sibani, Sahar. January 2000 (has links) No description available. Homocystinuria -- etiology. Folic acid deficiency. Homocysteine -- Metabolism. Methylenetetrahydrofolate reductase

Search results