Literature DB >> 31877117

Exenatide induces frataxin expression and improves mitochondrial function in Friedreich ataxia.

Mariana Igoillo-Esteve1, Ana F Oliveira1, Cristina Cosentino1, Federica Fantuzzi1,2, Céline Demarez1, Sanna Toivonen1, Amélie Hu3, Satyan Chintawar3, Miguel Lopes1, Nathalie Pachera1, Ying Cai1, Baroj Abdulkarim1, Myriam Rai3, Lorella Marselli4, Piero Marchetti2, Mohammad Tariq4, Jean-Christophe Jonas5, Marina Boscolo6, Massimo Pandolfo3, Décio L Eizirik1,7, Miriam Cnop1,6.   

Abstract

Friedreich ataxia is an autosomal recessive neurodegenerative disease associated with a high diabetes prevalence. No treatment is available to prevent or delay disease progression. Friedreich ataxia is caused by intronic GAA trinucleotide repeat expansions in the frataxin-encoding FXN gene that reduce frataxin expression, impair iron-sulfur cluster biogenesis, cause oxidative stress, and result in mitochondrial dysfunction and apoptosis. Here we examined the metabolic, neuroprotective, and frataxin-inducing effects of glucagon-like peptide-1 (GLP-1) analogs in in vivo and in vitro models and in patients with Friedreich ataxia. The GLP-1 analog exenatide improved glucose homeostasis of frataxin-deficient mice through enhanced insulin content and secretion in pancreatic β cells. Exenatide induced frataxin and iron-sulfur cluster-containing proteins in β cells and brain and was protective to sensory neurons in dorsal root ganglia. GLP-1 analogs also induced frataxin expression, reduced oxidative stress, and improved mitochondrial function in Friedreich ataxia patients' induced pluripotent stem cell-derived β cells and sensory neurons. The frataxin-inducing effect of exenatide was confirmed in a pilot trial in Friedreich ataxia patients, showing modest frataxin induction in platelets over a 5-week treatment course. Taken together, GLP-1 analogs improve mitochondrial function in frataxin-deficient cells and induce frataxin expression. Our findings identify incretin receptors as a therapeutic target in Friedreich ataxia.

Entities:  

Keywords:  Diabetes; Endocrinology; Mitochondria; Neurodegeneration; Neuroscience

Mesh:

Substances:

Year:  2020        PMID: 31877117      PMCID: PMC7098728          DOI: 10.1172/jci.insight.134221

Source DB:  PubMed          Journal:  JCI Insight        ISSN: 2379-3708


  80 in total

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7.  Mitochondrial damage and senescence phenotype of cells derived from a novel frataxin G127V point mutation mouse model of Friedreich's ataxia.

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