Depressed mitochondrial function and electron transport Complex II-mediated H2O2 production in the cortex of type 1 diabetic rodents

Abnormalities in mitochondrial function under diabetic conditions can lead to deficits in function of cortical neurons and their support cells exhibiting a pivotal role in the pathogenesis of several neurodegenerative disorders, including Alzheimer's disease. We aimed to assess mitochondrial re...

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Bibliographic Details
Published in:Molecular and cellular neuroscience 2018-07, Vol.90, p.49-59
Main Authors: Roy Chowdhury, Subir, Djordjevic, Jelena, Thomson, Ella, Smith, Darrell R., Albensi, Benedict C., Fernyhough, Paul
Format: Article
Language:English
Subjects:
Cortex
Diabetes
H2O2
Mitochondrial complexes
Mitochondrial membrane potential
Neuropathy
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Summary:Abnormalities in mitochondrial function under diabetic conditions can lead to deficits in function of cortical neurons and their support cells exhibiting a pivotal role in the pathogenesis of several neurodegenerative disorders, including Alzheimer's disease. We aimed to assess mitochondrial respiration rates and membrane potential or H2O2 generation simultaneously and expression of proteins involved in mitochondrial dynamics, ROS scavenging and AMPK/SIRT/PGC-1α pathway activity in cortex under diabetic conditions. Cortical mitochondria from streptozotocin (STZ)-induced type 1 diabetic rats or mice, and aged-matched controls were used for simultaneous measurements of mitochondrial respiration rates and mitochondrial membrane potential (mtMP) or H2O2 using OROBOROS oxygraph. Measurements of enzymatic activities of respiratory complexes were performed using spectophotometry. Protein levels in cortical mitochondria and homogenates were determined by Western blotting. Mitochondrial coupled respiration rates and FCCP-induced uncoupled respiration rates were significantly decreased in mitochondria of cortex of STZ-diabetic rats compared to controls. The mtMP in the presence of ADP was significantly depolarized and succinate-dependent respiration rates and H2O2 were significantly diminished in cortical mitochondria of diabetic animals compared to controls, accompanied with reduced expression of CuZn- and Mn-superoxide dismutase. The enzymatic activities of Complex I, II, and IV and protein levels of certain components of Complex I and II, mitofusin 2 (Mfn2), dynamin-related protein 1 (DRP1), P-AMPK, SIRT2 and PGC-1α were significantly diminished in diabetic cortex. Deficits in mitochondrial function, dynamics, and antioxidant capabilities putatively mediated through sub-optimal AMPK/SIRT/PGC-1α signaling, are involved in the development of early sub-clinical neurodegeneration in the cortex under diabetic conditions. •OCR and mtMP with glutamate, pyruvate, malate and succinate were decreased in 5-month old STZ-diabetic rat cortical mitochondria compared to controls.•Succinate-dependent OCR and H2O2 and CuZn- and Mn-SOD were decreased in cortical mitochondria from diabetic rats and mice.•Complex I, II, and IV activity and protein levels of Complex I and II, Mfn2, DRP1, P- AMPK, SIRT-2, and PGC-1α were decreased in rat diabetic cortex.•Deficits in mitochondrial function, dynamics, and antioxidant through AMPK/SIRT/PGC-1α pathway may trigger neurodegenerative disease
ISSN:1044-7431
1095-9327
DOI:10.1016/j.mcn.2018.05.006