In vivo imaging reveals rapid morphological reactions of astrocytes towards focal lesions in an ALS mouse model

Pathophysiology of the motoneuron disease amyotrophic lateral sclerosis (ALS) is non-cell-autonomous. In mouse models of familiar ALS, neurotoxicity is derived not only from mutant motor neurons but also from mutant neighbouring glial cells. In vivo imaging by two-photon laser-scanning microscopy was used to study rapid morphological reactions of astroglial cells towards laser-induced axonal transection in ALS-linked transgenic SOD1G93A mice. In the affected lateral spinal cord, mutated astroglial cells extended branches towards injured axons within a time frame of minutes to hours post lesion while in control animals astrocytes lack any rapid morphological alteration within the studied time frame. This suggests that astrocytes partially contribute to the rapid response of non-neuronal cells to acute axonal lesions in ALS mice.

► In contrast to control astroglia, SOD1G93A astrocytes show rapid morphological reaction.
► In lateral spinal cord, SOD1G93A astrocytes extend branches towards injured axons.
► Astrocytes seem to contribute to acute response of non-neuronal cells in SOD1G93A.