%0 Journal Article
%T Role of Pathology and Immunohistochemistry in the New Era Of Molecular Therapy
%A Atif Ali Ahmed
%J The Open Conference Proceedings Journal
%D 2010
%I Bentham Open
%R 10.2174/2210289201001010168]
%X Cells are minimum units reflecting epigenetic information, which is considered to map the history of a parallelprocessing recurrent network of biochemical reactions, their behaviors cannot be explained by considering only conventional DNA information-processing events. We have developed methods and systems of analyzing epigenetic information in cells, as well as that of genetic information, to expand our understanding of how living systems are determined. The role of epigenetic information on cells, which complements their genetic information, was inferred by comparing predictions from genetic information with cell behaviour observed under conditions chosen to reveal adaptation processes and community effects. A system of analyzing epigenetic information was developed starting from the twin complementary viewpoints of cell regulation as an 'algebraic' system (emphasis on temporal aspects) and as a 'geometric' system (emphasis on spatial aspects). The knowlege acquired from this study may lead to the use of cells that fully control practical applications like cell-based drug screening and the regeneration of organs. As one of the practical application, we have developed the on-chip cardiotoxity measurement system for monitoring the risk of the lethal ventricular arrhythmia Torsade de pointes (TdP), which is the most common reason for the withdrawal or restricted use of many cardiovascular and non-cardiovascular drugs. The lack of an in vitro model to detect pro-arrhythmic effects on human heart cells hinders the development of new drugs. We also exploited the recently established human induced pluripotent stem (hiPS) cells driven to differentiate into functional cardiomyocytes. The hiPS-derived cardiomyocytes (hiPS-CMs) were analyzed using our on-chip cardiotoxity measurement system. The application of ion channel inhibitors resulted in dose-dependent changes to the field potential waveform, and these changes were identical to those induced in the native cardiomyocytes. This study shows that hiPS-CMs represent a promising in vitro model for cardiac electrophysiologic studies and drug screening.
%U http://www.benthamscience.com/open/toprocj/articles/V001/168TOPROCJ.htm