Masters Degrees (Molecular Biology and Human Genetics)
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Browsing Masters Degrees (Molecular Biology and Human Genetics) by Subject "Aminoglycoside -- Therapy"
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- ItemInvestigation of the genetic aetiology of aminoglycoside-induced hearing loss in South African populations(Stellenbosch : University of Stellenbosch, 2009-12) Human, Hannique; Bardien, Soraya; De Jong, Greetje; University of Stellenbosch. Faculty of Health Sciences. Dept. of Biomedical Sciences. Molecular Biology and Human Genetics.ENGLISH ABSTRACT: South Africa is currently facing a major multidrug-resistant tuberculosis (MDR-TB) epidemic and has one of the highest incidences in the world. Aminoglycoside antibiotics are commonly used in this country as a treatment against MDR-TB. A well known side-effect of aminoglycosides is permanent hearing loss and this is thought to have a significant genetic component. To date, at least six mutations in the mitochondrial genome are known to confer susceptibility to aminoglycosideinduced hearing loss. It is imperative that we investigate the frequency of these mutations in our populations and determine whether certain sub-groups are at increased risk. The aim of the present study was therefore to investigate the genetic aetiology of aminoglycoside-induced hearing loss in the South African population. A multiplex method using the ABI Prism® SNaPshotTM Multiplex system was optimised to screen for six mutations in the MT-RNR1: A1555G, C1494T, T1095C, 961delT+C(n), A827G and T1291C. A total of 115 MDR-TB patients from the Brooklyn Chest Hospital in Cape Town who were receiving high doses of either streptomycin, kanamycin or capreomycin were recruited for this study. Furthermore, 439 control samples, comprising of 93 Afrikaner, 104 Caucasian, 112 Black and 130 Mixed Ancestry individuals were recruited and screened for the presence of the six mutations. Identification of novel variants in the MT-RNR1 and the entire mitochondrial genome was performed using High Resolution Melt analysis (HRM) and whole mitochondrial DNA sequencing, respectively. A total of 97 family members from a South African family known to harbour the A1555G mutation were recruited and genotyped using SNaPshot analysis. In addition, mitochondrial functioning in the presence of different streptomycin drug concentrations, in transformed lymphoblasts of an individual harbouring the A1555G, was assessed by means of the MTT colorimetric assay. Detection of heteroplasmic mutations was performed using PCRRestriction Fragment Length Polymorphism (RFLP) analysis and UN-SCAN-IT software. We successfully developed a robust and cost-effective method that detects the presence of all six mutations simultaneously. The method worked equally well on both blood (from adults) and buccal swabs (from children). The C1494T, T1095C and T1291C mutations were not detected in any of the MDR-TB or control groups. Alarmingly, the A1555G mutation was detected in 0.9% of the Black control samples and in 1.1% of the Afrikaner controls (in one sample in the heteroplasmic state 25%). The A827G mutation was present at a frequency of 0.9% in the MDR-TB patients and in 1.1% of the Afrikaner controls. The 961delT + insC(n) mutation was found in relatively high frequencies in both the MDR-TB patients (3.5%) and control groups (1.1% of the Afrikaner, 1.5% of the Mixed Ancestry and 7.1% of the Black samples). Similarly, the T961G mutation was III detected at high frequencies in the Caucasian (2.9%) and Afrikaner (3.2%) controls. Screening for novel variants in MT-RNR1 in MDR-TB patients experiencing ototoxicity revealed two novel variants (G719A and T1040C). However, G719A and T1040C are not likely to be pathogenic since they were detected in ethnic-matched controls: Mixed Ancestry (20.7%) and Black (1.8%) controls. Furthermore, a total of 50 novel variants were identified within the mitochondrial genome of eight MDR-TB patients with ototoxicity. Only five of the 50 variants (one in the MT-TH, ND3, COX3 and two in the CYTB gene) were shown to reside at positions that are evolutionarily conserved across five species from human to frog, and the four variants in the protein coding genes resulted in missense changes. A total of 76 of the 97 family members recruited were found to be A1555Gpositive (on mitochondrial haplogroup L0d) and are therefore at risk of developing irreversible hearing loss. Genes and variants known to act as genetic modifiers: tRNASer(UCN), homozygous A10S in TRMU and 35delG in GJB2 were not present in this family. For the MTT assay, decreased mitochondrial functioning of cells harbouring the A1555G mutation in the presence of streptomycin were (compared to wild type) observed but this was not statistically significant (p-value: 0.615- 0.999). The high frequency of the A1555G mutation (0.9%) in the Black population in South Africa is of concern given the high incidence of MDR-TB in this particular ethnic group. However, future studies with larger numbers of samples are warranted to determine the true frequencies of the aminoglycoside deafness mutations in the general South African population. Our data suggests that the 961delT + insC(n) and T961G variants are common non-pathogenic polymorphisms due to the high frequencies observed in controls (>1%). The identification of the first novel variants within protein coding genes that could possibly be associated with aminoglycoside-induced hearing loss holds great possibilities with regards to the identification of a second gene involved in drug induced hearing loss. Future studies where the possible effect of these variants on the normal functioning of these genes could be assessed would contribute greatly to this field of research. All 76 A1555Gpositive members of the family were given genetic reports and counseled about their risk and that of their children for developing hearing loss due to aminoglycoside use. The development of a rapid and cost-effective genetic method facilitates the identification of individuals at high risk of developing hearing loss prior to the start of aminoglycoside therapy. This is of critical important in a low-resource country like South Africa where, despite their adverse sideeffects, aminoglycosides will be continue to be used routinely and are accompanied with very limited or no audiological monitoring. Future studies and greater public awareness is therefore needed to address this serious problem.