Masters Degrees (Chemical Pathology)
Permanent URI for this collection
Browse
Browsing Masters Degrees (Chemical Pathology) by browse.metadata.advisor "Geiger, D."
Now showing 1 - 2 of 2
Results Per Page
Sort Options
- ItemAnalysis of single nucleotide polymorphisms with opposite effects on serum iron parameters in South African patients with multiple sclerosis(Stellenbosch : Stellenbosch University, 2014-04) Moremi, Kelebogile Elizabeth; Van Rensburg, S. J.; Kotze, Maritha J.; Geiger, D.; Stellenbosch University. Faculty of Medicine and Health Sciences. Dept. of Pathology, Chemical Pathology.ENGLISH ABSTRACT: There is growing interest in how genetic and environmental risk factors interact to confer risk for dysregulated iron homeostasis, which is considered a possible pathogenic mechanism in multiple sclerosis (MS). While iron deficiency has been associated with greater disability and disease progression, cerebral accumulation and overload of insoluble iron has also been reported in MS patients. Variation in the matriptase-2 (TMPRSS6) gene has recently been described that may lead to reduced iron levels, which raised the question of whether it may be involved in dysfunctional iron regulation as a pathogenic mechanism in MS. The aims of the study were as follows: 1)) comparison of the allele frequencies and genotype distribution for TMPRSS6 A736V (rs855791, c.2207C>T) and HFE C282Y (rs1800562, c.845G>A) between patients diagnosed with MS and unaffected controls; 2) determination of the effects of clinical characteristics, relevant lifestyle factors and genotype on serum iron parameters in MS patients compared to population matched controls; and 3) determination of clinical outcome in relation to age of onset and degree of disability in MS patients. The study population included 121 Caucasian MS patients and 286 population-matched controls. Serum iron, transferrin, ferritin and transferrin saturation levels were available from previous studies and lifestyle factors were subsequently documented in a subgroup of 68 MS patients and 143 controls using the study questionnaire. Genotyping of TMPRSS6 A736V and HFE C282Y were performed using allele-specific TaqMan technology. The genotype distribution and allele frequencies of TMPRSS6 A736V and HFE C282Y did not differ between MS patients and controls. MS patients homozygous for the iron-lowering minor T-allele of TMPRSS6 A736V had significantly lower serum iron levels (p=0.03) and transferrin saturation levels (p=0.03) compared to CC homozygotes. In MS patients the iron-loading minor A-allele of HFE C282Y was also associated with a paradoxical decrease in serum ferritin (p<0.01) compared to GG homozygotes. When considering the combined effect of the minor alleles of TMPRSS6 A736V and HFE C282Y with opposite effects on iron levels, we found a significant reduction in serum ferritin levels (p<0.05), independent of age, sex, body mass index (BMI) or dietary red meat intake in MS patients. A similar effect was not observed in the population- and age-matched controls. Higher dietary red meat intake correlated significantly with increased ferritin only in controls (p=0.01 vs. 0.21 for MS patients). In the presence of the minor allele of HFE C282Y, the TMPRSS6 A736V CT and TT genotypes were associated with a significantly earlier age of onset of MS when the post hoc test was applied (p=0.04). All the study aims were successfully accomplished. Our results support the possibility of an epistatic effect between TMPRSS6 A736V and HFE C282Y associated with reduced ferritin levels in MS patients. Pathology-supported genetic testing (PSGT) applied in this study as a new concept for analysis of complex diseases with a genetic component, is well placed to optimise clinical management in patients with MS.
- ItemThe development and application of a polymerase chain reaction (PCR) based assay to determine the impact of genetic variation in South African patients diagnosed with depression(Stellenbosch : Stellenbosch University, 2014-04) Delport, Darnielle; Schoeman, R.; Kotze, Maritha J.; Geiger, D.; Stellenbosch University. Faculty of Medicine and Health Sciences. Dept. of Pathology, Division of Chemical Pathology.ENGLISH ABSTRACT: Major Depressive Disorder (MDD) is a severe debilitating medical condition that may lead to suicide. Due to a poor understanding of the biological mechanisms underlying the disease process therapeutic decisions are usually taken using a ‘trial and error’ approach. This is not ideal since many treatments do not work as expected for all individuals. Studies have shown that only half of MDD patients receive the appropriate treatment, whereas many patients have adverse response to anti-depressants. These may include weight gain and raised homocysteine levels that may further compromise the health status of MDD patients and may partly explain the link with cardiovascular disease. The objective of the study was to identify genetic risk factors interacting with environmental factors implicated in MDD that may be of relevance to the South African population. Polymorphisms in the MTHFR (677 C>T, rs1801133 and 1298 A>C, rs1801131), COMT (472G>A, rs4680), CYP2D6 (6937G>A, rs3892097), ASMT (24436 G>A, rs4446909) and SLC6A4 (43 bp ins/del, rs4795541) genes were genotyped in 86 MDD patients and 97 population-matched controls. The specific aims were 1) to analytically validate high throughput real-time polymerase chain reaction (RT-PCR) genotyping assays for the 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 MDD. A total of 183 unrelated Caucasians participated in the study, including 69 females and 17 males with MDD and 57 female and 40 male controls without a personal and family medical history of overlapping stress/anxiety and depressive disorders. All study participants were genotyped for the six selected SNPs considered clinically useful based on international data. The allelic distribution of the SNPs, single or combined into a genotype risk score after counting their minor alleles, did not differ between MDD patients and controls. Homocysteine levels were determined and correlated with body mass index (BMI) and other variables known to influence these phenotypes. The folate score assessed with use of the study questionnaire was significantly lower in the patient group compared with controls (p=0.003) and correlated significantly with BMI, particularly in females (p=0.009). BMI was on average 8% higher in the MDD patients compared with controls (p=0.015) after adjustment for age and sex. The MTHFR rs1801133 677 T-allele was associated with a 14% increase in BMI in MDD patients but not controls (p=0.032), which in turn was associated with significantly increased homocysteine levels (p<0.05). The aims of the study were successfully achieved. Identification of the MTHFR rs1801133 677 T-allele reinforces the importance of adequate folate intake in the diet due to increased risk of obesity and depression found to be associated with low dietary intake. Evidence of shared genetic vulnerability for many chronic diseases and drug response mediated by the MTHFR 677 T-allele support the clinical relevance of this low-penetrance mutation.