Abstract

Glutamate dehydrogenase(GDH) has been shown to be significantly reduced in patients with heterogenous neurological disorders with system atrophy in which the metabolism of glutamate is abnormal. There is evidence that distinct GDH abnormalities, probably resulting from gene mutations, may underlie the clinical and genetic heterogeneity associated with reduced enzymatic activity. Thus, multiple GDH isoproteins have been shown to exist in human brain, some of which differ in their N-terminus. These were found to be differentially reduced in quantity and altered in catalytic properties and function in the brain of patients with 2 distinct types of neurodegenerative disorders. In addition, multiple mRNAs of different size have been shown to exist in various mammalian tissues, including human brain as well as multiple GDH genes. However, it is still unclear whether the different sized mRNAs and GDH isoproteins are specified by nonidentical genes or result from one functional gene by alternate splicing and post- translational modification processes,respectively. To answer these questions and further elucidate the role of the enzyme in the biology of the nervous system in health and disease, we propose: 1) To further characterize the GDH isoproteins in brain and cultured lymphocytes of patients with various degenerative neurological disorders and controls. 2) To further characterize the GDH-specific mRNAs in controls and neurologic patients and determine whether they represent distinct species. 3) To isolate and characterize GDH specific cDNA from cultured lymphocytes of neurologic patients with abnormal GDH in order to search for the gene defect responsible for the altered enzyme activity. 4) To express mutant cDNAs in heterologous cell systems in order to characterize the enzyme produced and explore causality of these mutations to human neurodegenerations. In addition, the structure, organization and function of the of the human GDH genes will be determined. These studies will lay the ground work for further analysis of the above disorders at the genomic DNA level.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
5R01NS016871-14
Application #
2263100
Study Section
Neurology C Study Section (NEUC)
Project Start
1987-09-07
Project End
1996-08-31
Budget Start
1994-09-01
Budget End
1996-08-31
Support Year
14
Fiscal Year
1994
Total Cost
Indirect Cost

  Institution

Name
Mount Sinai School of Medicine
Department
Neurology
Type
Schools of Medicine
DUNS #
City
New York
State
NY
Country
United States
Zip Code
10029

  Publications

Shashidharan, P; Clarke, D D; Ahmed, N et al. (1997) Nerve tissue-specific human glutamate dehydrogenase that is thermolabile and highly regulated by ADP. J Neurochem 68:1804-11
Yapijakis, C; Vassilopoulos, D; Tzagournisakis, M et al. (1995) Linkage disequilibrium between the expanded (CAG)n repeat and an allele of the adjacent (CCG)n repeat in Huntington's disease patients of Greek origin. Eur J Hum Genet 3:228-34
Tzagournissakis, M; Fesdjian, C O; Shashidharan, P et al. (1995) Stability of the Huntington disease (CAG)n repeat in a late onset form occuring on the Island of Crete. Hum Mol Genet 4:2239-43
Shashidharan, P; Michaelidis, T M; Robakis, N K et al. (1994) Novel human glutamate dehydrogenase expressed in neural and testicular tissues and encoded by an X-linked intronless gene. J Biol Chem 269:16971-6
Shashidharan, P; Huntley, G W; Meyer, T et al. (1994) Neuron-specific human glutamate transporter: molecular cloning, characterization and expression in human brain. Brain Res 662:245-50
Shashidharan, P; Wittenberg, I; Plaitakis, A (1994) Molecular cloning of human brain glutamate/aspartate transporter II. Biochim Biophys Acta 1191:393-6
Anagnou, N P; Seuanez, H; Modi, W et al. (1993) Chromosomal mapping of two members of the human glutamate dehydrogenase (GLUD) gene family to chromosomes 10q22.3-q23 and Xq22-q23. Hum Hered 43:351-6
Plaitakis, A; Flessas, P; Natsiou, A B et al. (1993) Glutamate dehydrogenase deficiency in cerebellar degenerations: clinical, biochemical and molecular genetic aspects. Can J Neurol Sci 20 Suppl 3:S109-16
Deloukas, P; Dauwerse, J G; Moschonas, N K et al. (1993) Three human glutamate dehydrogenase genes (GLUD1, GLUDP2, and GLUDP3) are located on chromosome 10q, but are not closely physically linked. Genomics 17:676-81
Shashidharan, P; Plaitakis, A (1993) Cloning and characterization of a glutamate transporter cDNA from human cerebellum. Biochim Biophys Acta 1216:161-4

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