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- Challenges and Chances: A Review of the 1st Stem Cell Community Day
- Summertime, and the Livin’ Is Easy…
- Follow-on-Biologics – More than Simple Generics
- Bacteria Versus Body Cells: A 1:1 Tie
- Behind the Crime Scene: How Biological Traces Can Help to Convict Offenders
- Every 3 Seconds Someone in the World Is Affected by Alzheimer's
- HIV – It’s Still Not Under Control…
- How Many Will Be Convicted This Time?
- Malaria – the Battle is Not Lost
- Physicians on Standby: The Annual Flu Season Can Be Serious
- At the Forefront in Fighting Cancer
- Molecular Motors: Think Small and yet Smaller Again…
- Liquid Biopsy: Novel Methods May Ease Cancer Detection and Therapy
- They Are Invisible, Sneaky and Disgusting – But Today It’s Their Special Day!
- How Many Cells Are in Your Body? Probably More Than You Think!
- What You Need to Know about Antibiotic Resistance – Findings, Facts and Good Intentions
- Why Do Old Men Have Big Ears?
- The Condemned Live Longer: A Potential Paradigm Shift in Genetics
- From Research to Commerce
- Chronobiology – How the Cold Seasons Influence Our Biorhythms
- Taskforce Microbots: Targeted Treatment from Inside the Body
- Eyes on Cancer Therapy
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- 2006年の受賞者:イタリアのパドヴァにあるDulbecco-Telethon Institute、Venetian Institute of Molecular MedicineのLuca Scorrano博士
2006 Award Winner Dr. Luca Scorrano Dulbecco-Telethon Institute Venetian Institute of Molecular Medicine, Padova, Italy
Appointment at time of winning the Award
Group Leader, Venetian Institute of Molecular Medicine
Assistant Telethon Scientist, Dulbecco-Telethon Institute
Abstract
Mitochondria are essential organelles for life and death of the cell. They produce most ATP and integrate apoptotic signals by releasing cytochrome c in the cytosol, where it activates the effector caspases. The release of cytochrome c is accompanied by fragmentation of the mitochondrial network and by profound changes of the inner membrane of the organelle. This latter “cristae remodelling pathway” is required to release the vast majority of cytochrome c.
OPA1, a dynamin related protein of the inner mitochondrial membrane mutated in dominant optic atrophy, seemed a natural candidate to control cristae remodelling. OPA1 drives fusion by cooperating with Mitofusin 1. Separately from this pro-fusion function, OPA1 protects from apoptosis by impinging on the cristae remodelling pathway. Oligomers that contain integral membrane and soluble OPA1, generated by posttranslational modification by PARL, an inner mitochondrial membrane rhomboid protease, are disrupted early during remodelling of the cristae.
The essential role of PARL in this process was confirmed by the analysis of mice lacking PARL, which display multi-organ failure due to excess apoptosis. This is sustained by increased cytochrome c release, which can be normalized by the targeted reintroduction of OPA1 in the intermembrane space of PARL-/- mitochondria.
Thus, the cristae remodelling pathway, controlled by OPA1, is a novel step of the mitochondrial involvement in apoptosis, that can be pharmacologically targeted.
Group Leader, Venetian Institute of Molecular Medicine
Assistant Telethon Scientist, Dulbecco-Telethon Institute
Abstract
Mitochondria are essential organelles for life and death of the cell. They produce most ATP and integrate apoptotic signals by releasing cytochrome c in the cytosol, where it activates the effector caspases. The release of cytochrome c is accompanied by fragmentation of the mitochondrial network and by profound changes of the inner membrane of the organelle. This latter “cristae remodelling pathway” is required to release the vast majority of cytochrome c.
OPA1, a dynamin related protein of the inner mitochondrial membrane mutated in dominant optic atrophy, seemed a natural candidate to control cristae remodelling. OPA1 drives fusion by cooperating with Mitofusin 1. Separately from this pro-fusion function, OPA1 protects from apoptosis by impinging on the cristae remodelling pathway. Oligomers that contain integral membrane and soluble OPA1, generated by posttranslational modification by PARL, an inner mitochondrial membrane rhomboid protease, are disrupted early during remodelling of the cristae.
The essential role of PARL in this process was confirmed by the analysis of mice lacking PARL, which display multi-organ failure due to excess apoptosis. This is sustained by increased cytochrome c release, which can be normalized by the targeted reintroduction of OPA1 in the intermembrane space of PARL-/- mitochondria.
Thus, the cristae remodelling pathway, controlled by OPA1, is a novel step of the mitochondrial involvement in apoptosis, that can be pharmacologically targeted.
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