Abstract
Stroke induces the recruitment of neuronal precursors from the subventricular zone (SVZ) into the ischemic striatum. In injured areas, de-routed neuroblasts use blood vessels as a physical scaffold to their migration, in a process that resembles the constitutive migration seen in the rostral migratory stream (RMS). The molecular mechanism underlying injury-induced vasculature-mediated migration of neuroblasts in the post-stroke striatum remains, however, elusive. Using adult mice we now demonstrate that endothelial cells in the ischemic striatum produce brain-derived neurotrophic factor (BDNF), a neurotrophin that promotes the vasculature-mediated migration of neuronal precursors in the RMS, and that recruited neuroblasts maintain expression of p75NTR, a low-affinity receptor for BDNF. Reactive astrocytes, which are widespread throughout the damaged area, ensheath blood vessels and express TrkB, a high-affinity receptor for BDNF. Despite the absence of BDNF mRNA, we observed strong BDNF immunolabeling in astrocytes, suggesting that these glial cells trap extracellular BDNF. Importantly, this pattern of expression is reminiscent of the adult RMS, where TrkB-expressing astrocytes bind and sequester vasculature-derived BDNF, leading to the entry of migrating cells into the stationary phase. Real-time imaging of cell migration in acute brain slices revealed a direct role for BDNF in promoting the migration of neuroblasts to ischemic areas. We also demonstrated that cells migrating in the ischemic striatum display higher exploratory behavior and longer stationary periods than cells migrating in the RMS. Our findings suggest that the mechanisms involved in the injury-induced vasculature-mediated migration of neuroblasts recapitulate, at least partially, those observed during constitutive migration in the RMS.
Highlights
Adult stem cells in the subventricular zone (SVZ) of the lateral ventricle produce neuronal precursors that migrate toward the olfactory bulb (OB) via the rostral migratory stream (RMS)
Small numbers of Dcx+ neuronal precursors had migrated to the striatum of the ipsilateral hemisphere within 1 week of middle cerebral artery occlusion (MCAo) while many more labeled cells that had migrated longer distances from the SVZ were observed 2 weeks following the injury (Fig. 1A, right)
Co-immunolabeling for Dcx and platelet endothelial cell adhesion molecule (PECAM) revealed that the de-routed neuroblasts preferentially localized in the vicinity of striatal blood vessels (Fig. 1E,G)
Summary
Adult stem cells in the subventricular zone (SVZ) of the lateral ventricle produce neuronal precursors that migrate toward the olfactory bulb (OB) via the rostral migratory stream (RMS). Studies on post-stroke neurogenesis have revealed that recruited neuroblasts closely associate with blood vessels [4,5,6] and appear to travel along them [7,8] These data suggest that neuronal precursors require vasculature support for migration in post-stroke areas similar to the constitutive vasculature-mediated migration of neuroblasts in the RMS and OB [9,10,11]. Stroke triggers the expression of BDNF in affected areas [12,13,14], and intravenous [15] or intraventricular [16] BDNF administration in animals subjected to phototrombotic ischemia leads to an increased number of SVZ-derived cells in injured tissues It is, unclear whether BDNF directly affects the migration of neuroblasts in ischemic areas, and what the cellular sources of this trophic factor are. Since BDNF is a secreted protein that can be sequestered by other cell types, a detailed analysis of BDNF mRNA expression in post-stroke areas is required to determine its cellular source
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