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  • 1. Brunetti, Dario
    et al.
    Torsvik, Janniche
    Dallabona, Cristina
    Teixeira, Pedro
    Stockholms universitet, Naturvetenskapliga fakulteten, Institutionen för biokemi och biofysik.
    Sztromwasser, Pawel
    Fernandez-Vizarra, Erika
    Cerutti, Raffaele
    Reyes, Aurelio
    Preziuso, Carmela
    D'Amati, Giulia
    Baruffini, Enrico
    Goffrini, Paola
    Viscomi, Carlo
    Ferrero, Ileana
    Boman, Helge
    Telstad, Wenche
    Johansson, Stefan
    Glaser, Elzbieta
    Stockholms universitet, Naturvetenskapliga fakulteten, Institutionen för biokemi och biofysik.
    Knappskog, Per M.
    Zeviani, Massimo
    Bindoff, Laurence A.
    Defective PITRM1 mitochondrial peptidase is associated with A amyloidotic neurodegeneration2016Inngår i: EMBO Molecular Medicine, ISSN 1757-4676, E-ISSN 1757-4684, Vol. 8, nr 3, s. 176-190Artikkel i tidsskrift (Fagfellevurdert)
    Abstract [en]

    Mitochondrial dysfunction and altered proteostasis are central features of neurodegenerative diseases. The pitrilysin metallopeptidase 1 (PITRM1) is a mitochondrial matrix enzyme, which digests oligopeptides, including the mitochondrial targeting sequences that are cleaved from proteins imported across the inner mitochondrial membrane and the mitochondrial fraction of amyloid beta (A). We identified two siblings carrying a homozygous PITRM1 missense mutation (c.548G>A, p.Arg183Gln) associated with an autosomal recessive, slowly progressive syndrome characterised by mental retardation, spinocerebellar ataxia, cognitive decline and psychosis. The pathogenicity of the mutation was tested invitro, in mutant fibroblasts and skeletal muscle, and in a yeast model. A Pitrm1(+/-) heterozygous mouse showed progressive ataxia associated with brain degenerative lesions, including accumulation of A-positive amyloid deposits. Our results show that PITRM1 is responsible for significant A degradation and that impairment of its activity results in A accumulation, thus providing a mechanistic demonstration of the mitochondrial involvement in amyloidotic neurodegeneration.

  • 2. Schilperoort, Maaike
    et al.
    van Dam, Andrea D.
    Hoeke, Geerte
    Shabalina, Irina G.
    Stockholms universitet, Naturvetenskapliga fakulteten, Institutionen för molekylär biovetenskap, Wenner-Grens institut.
    Okolo, Anthony
    Hanyaloglu, Aylin C.
    Dib, Lea H.
    Mol, Isabel M.
    Caengprasath, Natarin
    Chan, Yi-Wah
    Damak, Sami
    Reifel Miller, Anne
    Coskun, Tamer
    Shimpukade, Bharat
    Ulven, Trond
    Kooijman, Sander
    Rensen, Patrick C. N.
    Christian, Mark
    The GPR120 agonist TUG-891 promotes metabolic health by stimulating mitochondrial respiration in brown fat2018Inngår i: EMBO Molecular Medicine, ISSN 1757-4676, E-ISSN 1757-4684, Vol. 10, nr 3, artikkel-id e8047Artikkel i tidsskrift (Fagfellevurdert)
    Abstract [en]

    Brown adipose tissue (BAT) activation stimulates energy expenditure in human adults, which makes it an attractive target to combat obesity and related disorders. Recent studies demonstrated a role for G protein-coupled receptor 120 (GPR120) in BAT thermogenesis. Here, we investigated the therapeutic potential of GPR120 agonism and addressed GPR120-mediated signaling in BAT. We found that activation of GPR120 by the selective agonist TUG-891 acutely increases fat oxidation and reduces body weight and fat mass in C57Bl/6J mice. These effects coincided with decreased brown adipocyte lipid content and increased nutrient uptake by BAT, confirming increased BAT activity. Consistent with these observations, GPR120 deficiency reduced expression of genes involved in nutrient handling in BAT. Stimulation of brown adipocytes invitro with TUG-891 acutely induced O-2 consumption, through GPR120-dependent and GPR120-independent mechanisms. TUG-891 not only stimulated GPR120 signaling resulting in intracellular calcium release, mitochondrial depolarization, and mitochondrial fission, but also activated UCP1. Collectively, these data suggest that activation of brown adipocytes with the GPR120 agonist TUG-891 is a promising strategy to increase lipid combustion and reduce obesity.

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