Mitochondrial diseases: an update

Published on March 31, 2020   33 min

Other Talks in the Series: Periodic Reports: Advances in Clinical Interventions and Research Platforms

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Welcome to the Henry Stewart Talks. My name is Ayesha Saleem and I'm an assistant professor in the Faculty of Kinesiology and Recreation Management at the University of Manitoba and a principal investigator at the Children's Hospital Research Institute of Manitoba. The title of today's talk is Mitochondrial Diseases: An Update.
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This is the outline for the talk today. First I will give some background information on mitochondria and its structural components. Then I will delve into the epidemiology of mitochondrial disease. I will follow that up by looking at adult-onset and then childhood-onset mitochondrial diseases that are characterized primarily by defects in mitochondrial and nuclear DNA respectively. Finally, I will explore the symptoms and therapeutic options for mitochondrial diseases and finish the talk by discussing a subset of non-communicable diseases that are linked to dysfunctional mitochondria.
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About 2 billion years ago, a single fusion event between a prokaryotic and a eukaryotic cell may have ultimately led to the presence of mitochondria within our cells today. Mitochondria are tiny organelles found in almost all eukaryotic cells, and are necessary for cell form and function. Known as the powerhouse of the cell, mitochondria are responsible for creating more than 90% of cellular energy or ATP through oxidative phosphorylation. In addition to their main role in energy production and metabolism, mitochondria are the site for synthesis of iron-sulfur clusters, steroid biosynthesis and are involved in initiating apoptosis or programmed cell death, production and removal of reactive oxygen species, oxidation of fatty acids and regulation of calcium signaling. Shown is a schematic of a mitochondrion. Mitochondria are made of a double phospholipid layer, an outer mitochondrial membrane, and an inner mitochondrial membrane that falls upon itself and creates cristae, thereby maximizing surface area for chemical reactions. The space between the two membranes is called the inter-membrane space and the space enclosed by the inner mitochondrial membrane is known as the matrix. Mitochondria are unique in that they are the only sub-cellular organelles to have their own DNA that can be found inside the matrix in close proximity to the electron transport chain. The textbook depictions of mitochondria usually resort to a kidney bean-shaped structure. In reality, mitochondria often exist in the form of a reticular interconnected network, as shown in the electron micrograph. The dark structure is of the mitochondria found inside a skeletal muscle fiber. You can clearly appreciate the beautiful organization of cristae within each mitochondrion that gives the mitochondria their characteristic wrinkled appearance. The number of mitochondria per cell

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