Browsing by Subject "Essential Tremor"

Filter results by typing the first few letters
Now showing 1 - 2 of 2
  • Thumbnail Image
    ItemOpen Access
    Genetic influences on cortical structure and function
    (2018-07) Demirayak, Pınar
    Structure and function of the human central nervous system is determined by both genetic and environmental in uences. One of the fundamental quests in neuroscience studies is to determine to what degree each of these two factors in uence the development and function of the nervous system and, ultimately, human behavior. However, this is an inherently di cult problem to tackle as it is nearly impossible to tease apart the individual contributions of genes and environment, since they interact heavily throughout an organism's life. Recently, our understanding about the role that speci c genes play in the development of brain structure and function, has been greatly advanced by studies that combine genetic and neuroimaging methods to investigate congenital neurodevelopmental disorders. These studies of patients, that are homozygous for a speci c mutation, allow to single out contributions of individual genes in the neurodevelopmental process and have the potential to reveal gene-based alterations in cortical structure and function that can not be compensated by mechanisms of cortical plasticity or mitigating environmental e ects. In this thesis I pursue this promising approach further and investigate the e ects of three di erent single gene mutations on brain structure and function - namely RAD51, LAMC3 and HTRA2. Each of these genes is highly expressed during neurodevelopment, and each in uences cortical structure and function di erently. Overall, I nd that these genes are all highly associated with abnormal structural and functional connectivity patterns, however, and surprisingly, highly abnormal structure does not necessarily predict highly abnormal behavior.
  • Thumbnail Image
    ItemOpen Access
    Genetics and mechanisms of essential tremor and related disorders
    (2015) Ünal Gülsüner, Hilal
    Neurodegenerative disorders are characterized by progressive nervous system dysfunction, and they remain as one of the most challenging disorders known to humankind. These disorders have devastating effects on patients and currently there are no effective therapeutic approaches. Approved medicines provide only symptomatic relief, and inadequacy of information about the molecular mechanisms underlying these conditions restricts the development of new effective therapies. In this thesis, I presented the genetic analysis of two different neurodegenerative disorders and investigate the molecular mechanisms underlying these two disorders: essential tremor and Troyer syndrome. Essential tremor is one of the most prevalent movement disorders; however, its genetic cause and molecular mechanisms remain unknown because of its clinical heterogeneity, age-dependent penetrance, variable expressivity, and relation to other neurodegenerative disorders. In a six-generation consanguineous Turkish family with both essential tremor and Parkinson’s disease, we identified a rare missense mutation of HTRA2 as the causative allele. Family members homozygous for this allele were more severely affected than those heterozygous for this allele. Troyer syndrome is a very rare autosomal recessive neurodegenerative disorder with only several described cases. Only two reports with truncating mutations have been described. In a consanguineous Turkish kindred with two affected siblings presenting tremor of the hands as well as clinical features similar to that of Troyer syndrome, we identified a novel missense mutation in SPG20. We presented a genotype-phenotype correlation in this family, and the missense SPG20 p.G580R mutation was found to result in a milder form of Troyer syndrome without skeletal abnormalities. Overall, this study provides solutions to complexities of neurodegenerative disorders by suggesting a novel and unifying molecular mechanism underlying essential tremor and Parkinson’s disease. Furthermore, correlation of genotypes and phenotypic differences in patients with Troyer syndrome explains the clinical heterogeneity and variable expressivity of neurodegenerative disorders.