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User talk:Beno Marija/My sandbox2012 MiPschool Concept

From Bioblast

MiPsummer Concept

Mitochondrial research has undergone three distinct phases over the last 50 years.
  1. Explosive growth’ in the 1960’s, when the central role of mitochondria in energy transduction was elucidated;
  2. Stasis’ from 1970 to 2000;
  3. Renaissance’ since 2000, due to a diverse series of discoveries revealing central roles for mitochondria in cell death, disease pathology, and cellular function, as well as molecular bioenergetics.
This renaissance has brought a whole new generation of researchers and PhD students into mitochondrial biology from many different fields and backgrounds. However, this diversity of backgrounds results in early-stage researchers who have insufficient training in the basics and context of their field:
  • Medical and genetic researchers who have no knowledge of how mitochondria function,
  • Cell biologists who have no knowledge of basic bioenergetic concepts,
  • Molecular biologists who don’t know what their molecules do and their roles in pathology,
  • Researchers everywhere who do not know how to measure mitochondrial function and dysfunction.


The aim of the FEBS Workshop "MiPsummer 2012" is to initiate and extend a network of teachers in mitochondrial physiology, and train early stage researchers in both the basics and cutting edge science of mitochondria. The Workshop will reflect the new diversity and dynamism of mitochondrial research, and bring together experts working on mitochondria in different fields, covering aspects from basic science to clinical orientation, from the molecular level to the patient. There will be an emphasis on understanding of the basic concepts and new methodological developments in measuring mitochondrial function and dysfunction.


Topics will include:
  • Introduction to mitochondria: basic concepts.
  • Mitochondrial bioenergetics: respiratory electron transfer system, ATP synthesis, carriers, protonmotive force.
  • Mitochondrial biogenesis: mtDNA, nucleoids, biogenesis, exercise/ training.
  • Mitochondria at the extremes: hypoxia, altitude, exercise, metabolic depression.
  • Mitochondrial pathology: ROS, mtDNA mutations, proton leak and cell death.
  • Mitochondria in cancer and cardiovascular disease.
  • Mitochondria in aging and neurodegeneration.
  • Mitochondrial methods: Visualisation, morphology, quantitation.


The population is aging rapidly, and age-related disease and healthy aging are one of the greatest challenges facing the world in the 21st century. To take just one example: 25% of UK citizens currently get dementia before they die, which costs the UK economy €27 billion per year, but because of the ageing population we can expect almost 50% of the population to get dementia before they die by 2050, unless we reduce age-related prevalence of dementia. Over the last 10-20 years, it has been found that mitochondria are central to cell death, ageing and age-related diseases. However, the molecular mechanisms are still unclear, so that few therapies and applications have yet emerged from this understanding. Mitochondria are an intracellular organelle, descended from bacteria, but found in virtually every cell in our body, and producing virtually all of our energy. However, mitochondrial function declines with age, and may contribute to the aging processes and age-related diseases. For example:
  • Changes in mitochondria have a role in cancer development and progression.
  • Mitochondrial dysfunction mediates heart infarction, heart failure and stroke.
  • Mitochondrial changes mediate the vascular pathology of diabetes, and mitochondrial insufficiency may initiate type II diabetes.
  • Mitochondrial dysfunction has been deeply implicated in neurodegenerative diseases.


If we are to convert this outline understanding of the roles of mitochondria in ageing and age-related disease into useable knowledge and therapies we urgently need to train more early-stage researchers in this multi-disciplinary area.
The FEBS Workshop is organized as a Summer School on Mitochondrial Biochemistry, Physiology & Pathology in cooperation by


  • The Mitochondrial Physiology Society www.mitophysiology.org: MiPs is an international society run by and for mitochondrial researchers, facilitating mitochondrial research by organising MiPsummer Schools for early stage researchers and conferences for more senior researchers. The Society has extensive experience of organising Summer Schools (e.g. 2007 & 2008 Schröcken, Austria; 2009 Baton Rouge, USA; 2010 Druskininkai. Lithuania) of the type proposed here, and will be involved in the planning, organisation and administration of MiPsummer 2012.
  • The University of Cambridge www.cam.ac.uk is one the oldest and best Universities in the world, located in a small and beautiful city with extensive conference facilities, and crucially the local availability of distinguished researchers working on mitochondria.
  • The Medical Research Council’s MRC Mitochondrial Biology Unit in Cambridge www.mrc-mbu.cam.ac.uk, headed by Sir John Walker, is one of premier institutes in the world working on mitochondria and has a large number of mitochondrial researchers with extensive research facilities. The Unit will be involved in organising the MiPsummer School, and students will visit the Unit for lectures and practical demonstrations.


The MiPsummer School is a lecture course with a practical emphasis. There will be demonstrations of some important methods and techniques, including respirometry and measurement of mitochondrial membrane potential. There will also be a tour of laboratories at the MRC Mitochondrial Biology Unit, followed by the chance for students to quiz practitioners. Some of the local lecturers will give one lecture and only be present at the course for one day, while most of the non-local lecturers will give two talks, one basic and one based on current research, and will be around for most of the course, acting as tutors. As with all MiPsummer Schools there will be an emphasis on interaction between students and lecturers. Students will have to present a poster in a poster session, and at least half will give a short talk based on their poster. There will be extensive question and answer sessions to discuss student understanding and research problems.