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GLUT2 Immunoreactivity in Gomori-positive Astrocytes of the Hypothalamus

John K. Young and James C. McKenzie

Department of Anatomy, Howard University College of Medicine, Washington, District of Columbia

Correspondence to: John K. Young, Ph.D., Dept. of Anatomy, Howard University College of Medicine, 520 W Street, N.W., Washington, DC 20059. E-mail: jyoung{at}howard.edu

A specialized subtype of astrocyte, the Gomori-positive (GP) astrocyte, is unusually abundant and prominent in the arcuate nucleus of the hypothalamus. GP astrocytes possess cytoplasmic granules derived from degenerating mitochondria. GP granules are highly stained by Gomori's chrome alum hematoxylin stain, by the Perl's reaction for iron, or by toluidine blue. The source of the oxidative stress causing mitochondrial damage in GP astrocytes is uncertain, but such damage could arise from the oxidative metabolism of glucose transported into astrocytes by high-capacity GLUT2 glucose transporters. In accord with this hypothesis, the reported anatomical distribution of astrocytes staining positively for GLUT2 glucose transporters closely matches that of GP astrocytes. To examine whether or not these two staining procedures detect the same population of astrocytes, immunocytochemistry was performed on semithin sections to detect GLUT2 protein and sections were then stained with toluidine blue to detect GP granules. It was determined that GP astrocytes are frequently immunoreactive for the GLUT2 transporter protein. These data support the possibility that GP astrocytes may have an important influence upon the reactivity of the hypothalamus to glucose and that a specialized glucose metabolism may in part underlie the development of mitochondrial abnormalities in hypothalamic GP astrocytes. (J Histochem Cytochem 52:1519–1524, 2004)

Key Words: GLUT2 • glucose • arcuate nucleus • mitochondria • oxidative stress

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