Interactions between mitochondria and endoplasmic reticulum in demyelinated axons

In this study, we investigated the three-dimensional ultrastructural changes in membrane juxtapositions between mitochondria and endoplasmic reticulum in axons of a chronic progressive demyelination mouse model caused by extra copies of proteolipid protein (PLP4e). In the optic nerve of PLP4e mice, most axons were ensheathed by myelin by age 1 month, but were demyelinated by age 5 months. At age 1 month, mitochondria in PLP4e mice were slightly larger than those in wild-type mice, while the size and frequency of juxtaposition were similar. At age 5 months, the sizes of mitochondria and size of juxtaposition in PLP4e mice were prominently larger than those in wild-type mice. In degenerating axons under demyelination, the enlargement of mitochondria was diminished, while the density and frequency of juxtaposition were similar to those of non-degenerating axons. These results suggest that interactions between mitochondria and ER are enhanced in chronically demyelinated axons and maintained during axonal degeneration in hereditary myelin diseases.
Source: Medical Molecular Morphology - Category: Molecular Biology Source Type: research