The AMOG/β2 subunit of Na, K‐ATPase is not necessary for long‐term survival of telencephalic grafts

Abstract

Adhesion molecule on glia (AMOG) represents the β2-subunit of murine Na, K-ATPase. Mice carrying a targeted deletion of the AMOG/β2 gene exhibit tremor and limb paralysis at postnatal day (P) 15 and die 2 days after the onset of symptoms. The brains of these mice show edema and swelling of astrocytic end feet However, the cause of death has remained unclear. To identify long-term consequences of AMOG/β2 deficiency, we have grafted parts of the embryonic telencephalic anlage of AMOG/β2deficient mice into the caudoputamen of wild-type mice and analyzed the grafts up to 500 days after transplantation. Histological, immunocytochemical, and in situ hybridization techniques were applied to examine histoarchitecture, proliferation, differentiation, and long-term survival of grafts. AMOG/β2-deficient telencephalic grafts develop normally and form solid neural tissue that cannot be distinguished from control grafts by morphological features or with immunocytochemical stains for neuronal and glial markers. No signs of degeneration can be found. Expression analysis, however, revealed that no AMOG/β2 protein of possible host origin can be detected in AMOG/β2-deficient grafts. Graft-borne astrocytes express neither the AMOG/β1 nor the AMOG/β2 subunit of Na, K-ATPase as examined with immunocytochemistry and in situ hybridization. These findings indicate that AMOG/β2 is not necessary for loner-term survival of telenceohalic eraft tissue.