The aim of this project is to determine the morphological criteria of apoptosis in atrial tissues of patients with AF versus SR at transcriptome and genomic size.
Mitral valve regurgitation (MR) is the second most common valvular heart disease encountered in adults. Furthermore, atrial fibrillation (AF) is the most common cardiac arrhythmia seen in clinical practice. Overall, 70% of the patients with severe MR are associated with AF independent from etiopathogenesis of MR. AF is clinically divided into three subgroups; 1) paroxysmal AF, occurs as episodes and ends spontaneously, 2) persistent AF, episodes terminate only with medical or electrical cardioversion, and 3) permanent AF, current medical treatments and electrical cardioversion does not restore a normal sinus rhythm. Despite intensive electrophysiological studies, the molecular mechanisms and pathways of AF are still not fully elucidated. Apoptosis which has distinctive morphological and biochemical characteristics is genetically regulated, active programmed cell death process. It is known that cardiac morphogenesis restore from apoptosis. In addition, apoptosis has an important role in several cardiovascular system pathologies. It has been shown that atrial apoptosis causes numerous arrhythmias including AF. Likewise, in the pilot study which has been performed by our study group, AF is associated with apoptosis by immunohistochemical and DNA fragmentation analysis methods. The aim of this project is to determine the morphological criteria of apoptosis in atrial tissues of patients with AF by using electron microscopy and immunohistochemistry. Moreover, we will investigate the transcriptional profile of AF associated genes by oligonucleotide microarray method. The gene expression profiles of patients with AF and degenerative MR will be compared with the atrial tissue samples from the patients with degenerative MR who preserve normal sinus rhythm which will serve as controls. In summary the apoptotic pathways would be analyzed at transcriptomic and genomic level. Besides, the pathways that may interfere AF pathophysiology would also be evaluated. The expression profiles of the genes primarily verified by quantitative real time RT-PCR will be further confirmed by translation of end-result proteins determined with Western blot technique. Thus, brand-new clues about physiology of fibrillating atrial cells would be achieved. Keywords: Atrial fibrillation, apoptosis, oligonucleotide microarray
Study Type
OBSERVATIONAL
Enrollment
60
Ankara University Medical Faculty, Department of Cardiovascular Surgery,
Ankara, Turkey (Türkiye)
RECRUITINGExpression profiles of genes related to apoptosis
Time frame: 6 months
Expression profiles of pro-apoptotic and anti-apoptotic proteins
Time frame: 6 months
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