Paulo Sousa

Diffusion tensor magnetic resonance imaging (DT-MRI) was applied for in vivo quantification of myelin loss and regeneration. A transgenic mouse line (Oligo-TTK) expressing a truncated form of the herpes simplex virus 1 thymidine kinase gene (hsv1-tk) in oligodendrocytes was studied along with two induced phenotypes of myelin pathology. Myelin loss and axonal abnormalities differentially affect values of DT-MRI parameters in the brain of transgenic mice. Changes in the anisotropy of the white matter were assessed by calculating and mapping the radial (D⊥) and axial (D∥) water diffusion to axonal tracts and fractional anisotropy (FA). A significant increase in D⊥ attributed to the lack of myelin was observed in all selected brain white matter tracts in dysmyelinated mice. Lower D∥ values were consistent with the histological observation of axonal modifications, including reduced axonal caliber and overexpression of neurofilaments and III β-tubulin. We show clearly that myelination and axonal changes play a role in the degree of diffusion anisotropy, because FA was significantly decreased in dysmyelinated brain. Importantly, myelin reparation during brain postnatal development induced a decrease in the magnitude of D⊥ and an increase in FA compared with the same brain before recovery. The progressive increase in D∥ values was attributed to the gain in normal axonal morphology. This regeneration was confirmed by the detection of enlarged oligodendrocyte population, newly formed myelin sheaths around additional axons, and a gradual increase in axonal caliber. © 2006 Wiley-Liss, Inc.