Amyloid precursor protein (APP) is a transmembrane glycoprotein which is believed to promote neural cell adhesion, neural survival, and neuritogenesis. The present study was undertaken to determine whether APP could be detected within different types of astroglial cells present in the central nervous system (CNS) of neonatal or adult rats. The localization of this protein within glial cells was studied by using a monoclonal antibody (Mab22C11) that recognizes all APP isoforms and in addition cross-reacts with APP-like proteins. In the brain of neonatal rats, Mab22C11 immunostaining was associated with numerous elongated radial glia-like structures. In the intact brain and spinal cord of adult rats, Mab22C11 immunostaining was associated with (i) numerous neuron-like structures and (ii) glial structures immunostained for glial fibrillary acidic protein (GFAP) and/or vimentin, including tanycytes mostly located in the mediobasal hypothalamus, fibrous astrocytes located in the white matter and ependymocytes bordering the ventricles. On the other hand, all the GFAP-immunostained astrocytes located in the grey matter were Mab22C11 negative. In the lesioned brain and spinal cord of adult rats, Mab22C11 immunostaining was associated with intensely GFAP-immunostained reactive astrocytes located close to a surgical lesion, but not with those induced by Wallerian degeneration that appear at a distance from a lesion. Electron microscopic observations further indicated that in all these labeled astroglial cells, Mab22C11 immunostaining was mainly localized to the limiting plasma membrane and the membrane of intracytoplasmic cisternae and vesicles. These data indicate that Mab22C11 antibody induces strong immunostaining of specific astroglial cells of the neonatal and adult rat CNS that support axonal outgrowth, therefore suggesting that an APP-like protein associated with these cells participates in their axonal outgrowth promoting properties.
The amyloid precursor protein (APP) and APP-like (APLP) material, as visualized with the Mab22C11 antibody, have previously been shown to be associated with radial glia in hypothalamus, which are known to promote neurite outgrowth. By Northern blot analysis, APP 695 mRNA levels increased steadily over hypothalamic development, APP 770 mRNA was transiently expressed at 12 days postnatally, and APLP mRNA was only weakly expressed in the hypothalamus. The developmental pattern of APP moeities in mouse hypothalamus and in fetal hypothalamic neurons in culture was compared with a presenilin 2 (PS2) related protein using an antibody developed against the N-terminal part of PS2. By Western blot analysis, APP and PS2-like immunoreactivity were visualized as a 100-130 and 52 kDa bands, respectively. An APP biphasic increase was observed during hypothalamic development in vivo. APP immunoreactivity was equally detected in neuronal and glial cultures, while PS2-like material was more concentrated in neurons. A correlation between APP/APP-like and PS2-like levels was observed during development in vivo. While APP was mostly associated with membrane fractions, a significant portion of PS2-like material was also recovered from cytosolic fractions in vitro. In contrast to native PS2 in COS-transfected cells, the PS2-like material did not aggregate after heating for 90 s at 90 degrees C. These results indicate a close association between APP and PS2-like material during hypothalamic development in vivo, and suggest that neuronal and glial cultures may provide appropriate models to test their interactions.
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