Dorota Hoffman-Zacharska1,2, Dariusz Koziorowski3, Owen A Ross4, Micha Milewski1, Jaros Aw Poznanski5, Marta Jurek1, Zbigniew K Wszolek6, Alexandra Soto-Ortolaza4, Jaros Aw S Awek7,8, Piotr Janik9, Zygmunt Jamrozik9, Anna Potulska-Chromik9, Barbara Jasinska-Myga10, Grzegorz Opala10, Anna Krygowska-Wajs11, Krzysztof Czyzewski12, Dennis W Dickson13, Jerzy Bal1, Andrzej Friedman3. 1. Department of Medical Genetics, Institute of Mother and Child, Warsaw, Poland. 2. Institute of Genetics and Biotechnology, Faculty of Biology, University of Warsaw, Poland. 3. Department of Neurology, Faculty of Health Science, Medical University of Warsaw, Poland. 4. Department of Neuroscience, Mayo Clinic Florida, Jacksonville, USA. 5. Department of Biophysics, Institute of Biochemistry and Biophysics, Polish Academy of Sciences, Warsaw, Poland. 6. Department of Neurology, Mayo Clinic Florida, Jacksonville, USA. 7. Department of Neurological and Psychiatric Nursing, Medical University, Gdansk, Poland. 8. Department of Neurology, St. Albert Hospital, Gdansk, Poland. 9. Department of Neurology, Medical University of Warsaw, Poland. 10. Department of Neurology, Medical University of Silesia, Katowice, Poland. 11. Department of Neurology, Collegium Medicum Jagiellonian University, Krakow, Poland. 12. Department of Neurology, Central Hospital of the Ministry of Interior and Administration, Warsaw, Poland. 13. Neuropathology Laboratory, Mayo Clinic Florida, Jacksonville, USA.
Abstract
OBJECTIVE: Mutations in the α-synuclein-encoding gene SNCA are considered as a rare cause of Parkinson's disease (PD). Our objective was to examine the frequency of the SNCA point mutations among PD patients of Polish origin. METHODS: Detection of the known SNCA point mutations A30P (c.88G>C), E46K (c.136G>A) and A53T (c.157A>T) was performed either using the Sequenom MassArray iPLEX platform or by direct sequencing of the SNCA exons 2 and 3. As the two novel substitutions A18T (c.52G>A) and A29S (c.85G>T) were identified, their frequency in a control population of Polish origin was assessed and in silico analysis performed to investigate the potential impact on protein structure and function. RESULTS: We did not observe the previously reported point mutations in the SNCA gene in our 629 PD patients; however, two novel potentially pathogenic substitutions A18T and A29S were identified. Each variant was observed in a single patient presenting with a typical late-onset sporadic PD phenotype. Although neither variant was observed in control subjects and in silico protein analysis predicts a damaging effect for A18T and pA29S substitutions, the lack of family history brings into question the true pathogenicity of these rare variants. CONCLUSIONS: Larger population based studies are needed to determine the pathogenicity of the A18T and A29S substitutions. Our findings highlight the possible role of rare variants contributing to disease risk and may support further screening of the SNCA gene in sporadic PD patients from different populations.
OBJECTIVE: Mutations in the α-synuclein-encoding gene SNCA are considered as a rare cause of Parkinson's disease (PD). Our objective was to examine the frequency of the SNCA point mutations among PDpatients of Polish origin. METHODS: Detection of the known SNCA point mutations A30P (c.88G>C), E46K (c.136G>A) and A53T (c.157A>T) was performed either using the Sequenom MassArray iPLEX platform or by direct sequencing of the SNCA exons 2 and 3. As the two novel substitutions A18T (c.52G>A) and A29S (c.85G>T) were identified, their frequency in a control population of Polish origin was assessed and in silico analysis performed to investigate the potential impact on protein structure and function. RESULTS: We did not observe the previously reported point mutations in the SNCA gene in our 629 PDpatients; however, two novel potentially pathogenic substitutions A18T and A29S were identified. Each variant was observed in a single patient presenting with a typical late-onset sporadic PD phenotype. Although neither variant was observed in control subjects and in silico protein analysis predicts a damaging effect for A18T and pA29S substitutions, the lack of family history brings into question the true pathogenicity of these rare variants. CONCLUSIONS: Larger population based studies are needed to determine the pathogenicity of the A18T and A29S substitutions. Our findings highlight the possible role of rare variants contributing to disease risk and may support further screening of the SNCA gene in sporadic PDpatients from different populations.
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