Difference between revisions of "Kopitar-Jerala 2018 MiP2018"
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|editor=[[Plangger M]], [[Kandolf G]], | |editor=[[Plangger M]], [[Kandolf G]], | ||
}} | }} | ||
{{Labeling}} | {{Labeling | ||
|area=mt-Medicine | |||
|diseases=Alzheimer's, Neurodegenerative | |||
|organism=Mouse | |||
|tissues=Nervous system | |||
|topics=mt-Membrane potential | |||
}} | |||
== Affiliations == | == Affiliations == | ||
Trstenjak âPrebanda M(1), Biasizzo M(1), Maher K(1), ZavrĆĄnik J(1), Brault V(2), Turk B(1), HĂ©rault Y(2) and Kopitar-Jerala N(1) | Trstenjak âPrebanda M(1), Biasizzo M(1), Maher K(1), ZavrĆĄnik J(1), Brault V(2), Turk B(1), HĂ©rault Y(2) and Kopitar-Jerala N(1) | ||
::::#Dept Biochemistry, Molecular Structural Biology, JoĆŸef Stefan Inst, Ljubljana, Slovenia  | ::::#Dept Biochemistry, Molecular Structural Biology, JoĆŸef Stefan Inst, Ljubljana, Slovenia. - [email protected] | ||
::::#Inst de Génétique Biologie Moléculaire et Cellulaire (IGBMC), Univ de Strasbourg, France | ::::#Inst de Génétique Biologie Moléculaire et Cellulaire (IGBMC), Univ de Strasbourg, France | ||
== References == | == References == | ||
#Mathews PM, Levy E (2016) Cystatin C in aging and in Alzheimer's disease. Ageing Res Rev 32:p. 38-50 | ::::#Mathews PM, Levy E (2016) Cystatin C in aging and in Alzheimer's disease. Ageing Res Rev 32:p. 38-50 | ||
#Kopitar-Jerala N (2015) The Role of Stefin B in Neuro-inflammation. Front Cell Neurosci 9(458) | ::::#Kopitar-Jerala N (2015) The Role of Stefin B in Neuro-inflammation. Front Cell Neurosci 9(458) | ||
#Maher K, JeriÄ Kokelj B, Butinar M, Mikhaylov G, ManÄek-Keber M, Stoka V, Vasiljeva O, Turk B, Grigoryev SA, Kopitar-Jerala N (2014) A role for stefin B (cystatin B) in inflammation and endotoxemia. J Biol Chem 289(46): p. 31736-50 | ::::#Maher K, JeriÄ Kokelj B, Butinar M, Mikhaylov G, ManÄek-Keber M, Stoka V, Vasiljeva O, Turk B, Grigoryev SA, Kopitar-Jerala N (2014) A role for stefin B (cystatin B) in inflammation and endotoxemia. J Biol Chem 289(46): p. 31736-50 | ||
#Okuneva O, Li Z, Körber I, Tegelberg S, Joensuu T, Tian L, Lehesjoki AE (2016) Brain inflammation is accompanied by peripheral inflammation in Cstb (-/-) mice, a model for progressive myoclonus epilepsy. J Neuroinflammation 13(1): p. 016-0764. | ::::#Okuneva O, Li Z, Körber I, Tegelberg S, Joensuu T, Tian L, Lehesjoki AE (2016) Brain inflammation is accompanied by peripheral inflammation in Cstb (-/-) mice, a model for progressive myoclonus epilepsy. J Neuroinflammation 13(1): p. 016-0764. |
Revision as of 08:28, 6 August 2018
Cystatins, metabolism and neuro inflammation. |
Link: MiP2018
Trstenjak âPrebanda M, Biasizzo M, Maher K, Zavrsnik J, Brault V, Turk B, Herault Y, Kopitar-Jerala N (2018)
Event: MiP2018
Accumulating evidence support that neuroinflammation is a common feature across neurodegenerative disorders, including Alzheimerâs disease (AD), frontotemporal dementia (FTD), Parkinsonâs disease (PD) and amyotrophic lateral sclerosis (ALS), and play a complex role in their pathophysiology. Cystatins are reversible and tight-binding inhibitors of endolysosomal cysteine cathepsins. Cystatin C is expressed in a variety of tissues and its expression and localization was associated with various neurodegenerative pathologies like AD [1]. Mutations in the gene encoding stefin B are present in patients with a form of progressive myoclonus epilepsy of Unverricht-Lundborg type (EPM1) and several recent studies reported the role of neuroinflammation in the pathology of the disease [2-4].
We demonstrated that stefin B-deficient mice, as well as cystatin C deficient mice , were significantly more sensitive to the lethal lipopolysaccharide (LPS)-induced sepsis due to increased caspase-11 expression [3]. Upon LPS stimulation, stefin B was targeted into the mitochondria, and the lack of stefin B resulted in the increased destabilization of mitochondrial membrane potential and mitochondrial ROS generation. Moreover, we reported decreased IL-10 expression in stefin B deficient macrophages and increased interleukin 10 ( IL-10) expression in stefin B trisomic macrophages. Recently, we determined impaired autophagy in cells and tissue from stefin B deficient mice. It was reported that IL-10 inhibited LPS-induced glycolysis and promoted oxidative phosphorylation. Furthermore, IL-10 suppressed mammalian target of rapamycin (mTOR) activity. In stefin B deficient macrophages we determined increased mTOR activation and decreased mitophagy.
We conclude that the dysregulation of autophagy in stefin B deficient mice is responsible for the increased inflammatory response and neuroinflammation.
âą Bioblast editor: Plangger M, Kandolf G
Labels: MiParea: mt-Medicine Pathology: Alzheimer's, Neurodegenerative
Organism: Mouse Tissue;cell: Nervous system
Regulation: mt-Membrane potential
Affiliations
Trstenjak âPrebanda M(1), Biasizzo M(1), Maher K(1), ZavrĆĄnik J(1), Brault V(2), Turk B(1), HĂ©rault Y(2) and Kopitar-Jerala N(1)
- Dept Biochemistry, Molecular Structural Biology, JoĆŸef Stefan Inst, Ljubljana, Slovenia. - [email protected]
- Inst de Génétique Biologie Moléculaire et Cellulaire (IGBMC), Univ de Strasbourg, France
References
- Mathews PM, Levy E (2016) Cystatin C in aging and in Alzheimer's disease. Ageing Res Rev 32:p. 38-50
- Kopitar-Jerala N (2015) The Role of Stefin B in Neuro-inflammation. Front Cell Neurosci 9(458)
- Maher K, JeriÄ Kokelj B, Butinar M, Mikhaylov G, ManÄek-Keber M, Stoka V, Vasiljeva O, Turk B, Grigoryev SA, Kopitar-Jerala N (2014) A role for stefin B (cystatin B) in inflammation and endotoxemia. J Biol Chem 289(46): p. 31736-50
- Okuneva O, Li Z, Körber I, Tegelberg S, Joensuu T, Tian L, Lehesjoki AE (2016) Brain inflammation is accompanied by peripheral inflammation in Cstb (-/-) mice, a model for progressive myoclonus epilepsy. J Neuroinflammation 13(1): p. 016-0764.