Human GLUD2 Glutamate Dehydrogenase Is Expressed in Neural and Testicular Supporting Cells

Cleanthe Spanaki,Ioannis Zaganas,Kleopas A Kleopa,Andreas Plaitakis

doi:10.1074/jbc.m109.092999

Cleanthe Spanaki, Ioannis Zaganas + Show 2 more

Open Access

https://doi.org/10.1074/jbc.m109.092999

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Abstract

Mammalian glutamate dehydrogenase (GDH) is an allosterically regulated enzyme that is expressed widely. Its activity is potently inhibited by GTP and thought to be controlled by the need of the cell for ATP. In addition to this housekeeping human (h) GDH1, humans have acquired (via a duplication event) a highly homologous isoenzyme (hGDH2) that is resistant to GTP. Although transcripts of GLUD2, the gene encoding hGDH2, have been detected in human neural and testicular tissues, data on the endogenous protein are lacking. Here, we developed an antibody specific for hGDH2 and used it to study human tissues. Western blot analyses revealed, to our surprise, that endogenous hGDH2 is more densely expressed in testis than in brain. At the subcellular level, hGDH2 localized to mitochondria. Study of testicular tissue using immunocytochemical and immunofluorescence methods revealed that the Sertoli cells were strongly labeled by our anti-hGDH2 antibody. In human cerebral cortex, a robust labeling of astrocytes was detected, with neurons showing faint hGDH2 immunoreactivity. Astrocytes and Sertoli cells are known to support neurons and germ cells, respectively, providing them with lactate that largely derives from the tricarboxylic acid cycle via conversion of glutamate to alpha-ketoglutarate (GDH reaction). As hGDH2 is not subject to GTP control, the enzyme is able to metabolize glutamate even when the tricarboxylic acid cycle generates GTP amounts sufficient to inactivate the housekeeping hGDH1 protein. Hence, the selective expression of hGDH2 by astrocytes and Sertoli cells may provide a significant biological advantage by facilitating metabolic recycling processes essential to the supportive role of these cells.

Highlights

glutamate dehydrogenase (GDH) in mammals has long been thought to be encoded by a single gene, studies in human tissues revealed the presence of two GDH activities, differing in their regulatory properties and relative resistance to thermal inactivation [3]
These observations led to the cloning of two genes encoding human GDH: an intron-containing GLUD1 gene that is located on the 10th chromosome and is expressed widely [4] and an X-linked intronless GLUD2 gene that is expressed mainly in retina, brain, and testis [5]
We were surprised to find that, compared with brain, endogenous hGDH2 is more densely expressed in testis, in which the Sertoli cells were strongly labeled by our anti-hGDH2 antibody

Summary

Introduction

GDH in mammals has long been thought to be encoded by a single gene, studies in human tissues revealed the presence of two GDH activities, differing in their regulatory properties and relative resistance to thermal inactivation [3]. We confirm, for the first time at the protein level, the endogenous expression of hGDH2 in both human brain and testis.

Results

Conclusion