Structural organization of the perivascular astrocyte endfeet and their relationship with the endothelial glucose transporter: a confocal microscopy study

K Kacem, P Lacombe, J Seylaz, G Bonvento - Glia, 1998 - Wiley Online Library
K Kacem, P Lacombe, J Seylaz, G Bonvento
Glia, 1998Wiley Online Library
Despite the increasing evidence for a prominent role played by the perivascular endfeet of
astrocytes in the functional metabolic coupling between astrocytes and neurons, a clear
picture of their spatial organization is still lacking. To examine the three‐dimensional
structure of the astrocyte endfeet and their relationships with the endothelial cells, coronal
rat brain sections immunolabeled for the two astroglial markers [glial fibrillary acidic protein
(GFAP)/S‐100β] and the endothelial glucose transporter (GLUT1) were analyzed under the …
Abstract
Despite the increasing evidence for a prominent role played by the perivascular endfeet of astrocytes in the functional metabolic coupling between astrocytes and neurons, a clear picture of their spatial organization is still lacking. To examine the three‐dimensional structure of the astrocyte endfeet and their relationships with the endothelial cells, coronal rat brain sections immunolabeled for the two astroglial markers [glial fibrillary acidic protein (GFAP)/S‐100β] and the endothelial glucose transporter (GLUT1) were analyzed under the confocal microscope. Double immunolabeling of GFAP and S‐100β showed numerous well‐defined astrocytes sending one or more endfeet to the vasculature. Examination of GFAP immunolabeling at higher magnification showed that these endfeet consist of well‐defined rosette‐like structures lying on the vessel wall.
Double immunostaining of GFAP and GLUT1 showed that the endothelial cells were the main targets of these repeated geometrical units formed by the astrocyte endfeet. When three‐dimensional images were reconstructed, obvious privileged anatomical relationships were observed between endfeet and individual endothelial cells. These anatomical data provide strong support for the involvement of astrocytes in cerebral metabolic coupling. The finger‐like appearance of astrocyte endfeet could allow direct metabolic exchanges between intracerebral vessels and non‐glial elements such as nerve terminals. GLIA 23:1–10, 1998. © 1998 Wiley‐Liss, Inc.
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