Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.6.1.3 (ATPase)
 65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We generated mice, null mutant in the adhesion molecule on glia (AMOG), the beta 2 subunit of the murine Na,K-ATPase gene. These mice exhibit motor incoordination at 15 d of age, subsequently tremor and paralysis of extremities, and die at 17-18 d after birth. At these ages, the mutants have enlarged ventricles, degenerating photoreceptor cells, and swelling and degeneration of astrocytic endfeet, leading to vacuoles adjoining capillaries of brain stem, thalamus, striatum, and spinal cord. In tissue homogenates from entire brains of 16-17-d-old mutants, Na,K-ATPase activity and expression of the beta 1 subunit of the Na,K-ATPase and of the neural adhesion molecules L1, N-CAM, and MAG appear normal. We suggest that the mutant phenotype can be related primarily to reduced pump activity, with neural degeneration as a possible consequence of osmotic imbalance.
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PMID:Degeneration of neural cells in the central nervous system of mice deficient in the gene for the adhesion molecule on Glia, the beta 2 subunit of murine Na,K-ATPase. 752 97

The adhesion molecule on glia (AMOG) has been reported to function as cell adhesion molecule and also to constitute the beta 2-subunit of the murine Na,K-ATPase. In order to elucidate these functions in vivo, Magyar et al. have generated mice carrying a targeted deletion of the AMOG gene. These mice exhibit behaviourally normal development till postnatal day P16. At this time, they develop muscular weakness, incoordination, and tremor. Death invariably occurs 24-36 hours after onset of the symptoms. Histological and ultrastructural examination of brain sections show enlarged ventricles, brain edema, and swelling of astrocyte end feet. However, no disturbances of the architecture or cell migration in the brain can be detected. In order to identify long-term consequences of AMOG deficiency which might not yet be detectable at the time of death, we have established a CNS grafting model. The embryonal brain anlage (E10.5-E13.5) was grafted into the caudoputamen of wild type mice. The graft recipients are sacrificed up to 7 months after the procedure. Both wild type and AMOG deficient grafts develop and form solid neural tissue with neurons, myelinated axons, glial cells, and ventricular structures, as shown by histological and immunocytochemical analysis. However, no differences in grafts derived from wild type, heterozygous, and AMOG-deficient donors can be detected. Proliferation has been examined by BrdU immunocytochemistry. The blood-brain barrier as examined by repeated magnetic resonance imaging after injection of Gadolinium-DTPA has been shown to be largely reconstituted five weeks after grafting.
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PMID:[Morphology and development of neural transplants of AMOG-deficient mice]. 753 17

We determined the independent effects of hypoxia, glucose deprivation and ischemia (hypoxia plus glucose deprivation) on steady-state levels of mRNA coding for specific nuclear and mitochondrially encoded enzymes of oxidative metabolism in cultured rat neurons and glia. Neither hypoxia nor low glucose alone changed steady-state message levels for any transcript. However, ischemia induced a biphasic effect on mitochondrially encoded transcripts for cytochrome oxidase subunit two (CO2) and the subunits 8 and 6 of ATPase (A 8/6), initially decreasing and then increasing mRNA levels to or above the levels recorded prior to ischemia. In contrast, three nuclear encoded transcripts for mitochondrial proteins were decreased by ischemia. These data demonstrate a lack of coordination between the expression of nuclear and mitochondrial genes in the initial response to ischemia and suggest that a selective, primary reaction to brain cell insults exists within the mitochondrion.
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PMID:Ischemia induces a selective biphasic response in brain mitochondrial mRNA levels. 1038 Sep 87