【 摘 要 】

The purpose of our study was to assess mitochondrial biogenesis and distribution in murine primary neurons. Using 5-bromo-2-deoxyuridine (BrdU) incorporation and primary neurons, we studied the mitochondrial biogenesis and mitochondrial distribution in hippocampal neurons from amyloid beta precursor protein (A beta PP) transgenic mice and wild-type (WT) neurons treated with oxidative stressors. rotenone and H2O2. We found that after 20 h of labeling. BrdU incorporation was specific to porin-positive mitochondria. The proportion of mitochondrial area labeled with BrdU was 40.3 +/- 6.3% at 20 h. The number of mitochondria with newly synthesized DNA was higher in A beta PP neuronal cell bodies than in the cell bodies of WT neurons (A beta PP, 45.23 +/- 2.67 BrdU-positive/cell body; WT, 32.92 +/- 2.49 BrdU-positive/cell body; p = 0.005). In neurites, the number of BrdU-positive mitochondria decreased in AOPP cultures compared to WT neurons (A beta PP, 0.105 +/- 0.008 BrdU-positive/mu m neurite; WT, 0.220 +/- 0.036 BrdU-positive/mu m neurite; p = 0.010). Further, BrdU in the cell body increased when neurons were treated with low doses of H2O2 (49.6 +/- 2.7 BrdU-positive/cell body, p = 0.0002 compared to untreated cells), while the neurites showed decreased BrdU staining (0.122 +/- 0.010 BrdU-positive/mu m neurite, p = 0.005 compared to the untreated). BrdU labeling was increased in the cell body under rotenone treatment. Additionally, under rotenone treatment, the content of BrdU labeling decreased in neurites. These findings suggest that A beta and mitochondrial toxins enhance mitochondrial fragmentation in the cell body, and may cause impaired axonal transport of mitochondria leading to synaptic degeneration. (C) 2011 Elsevier B.V. All rights reserved.

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