Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0002736 (amyotrophic lateral sclerosis)
 19,048 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Antibodies against antigens found in the central nervous system have been evidenced in several neurological diseases. The most well-known are associated with paraneoplastic neurological diseases (Anti-Hu, Yo, Ri amphiphysin, Tr, CV2 and Ta antibodies). Some of these antibodies are specific for certain types of cancer or neurological syndromes and are highly useful diagnostic tools for the clinician. They have contributed to the hypothesis that these paraneoplastic neurological syndromes involve autoimmune cross reactions between tumoral and nervous system antigens. They are however most unlikely pathogenic on their own. Anti voltage-dependent calcium channel antibodies associated with Lambert-Eaton syndrome which is paraneoplastic in only 60 p. 100 of the cases are also observed in cases of paraneoplastic cerebellar atrophy. Anti-GAD antibodies are seen in non-paraneoplastic stiff man syndrome and in certain progressive cerebellar atrophies. Antibodies reacting with different glutamate receptors are detected in different neurological diseases including Rasmussen's encephalitis. Finally, antibodies are described in diverse conditions such as amyotrophic lateral sclerosis, Sydeham chorea or Gilles de la Tourette syndrome. The significance of the antibodies observed outside the context of paraneoplastic syndromes is not well understood, but the anti-GAD antibodies associated with progressive cerebellar disorders and autoimmune polyendocrinopathies could be an expression of the autoimmune nature of certain neurological degenerative processes affecting the central nervous system.
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PMID:[Anti-neuronal antibodies and central nervous system diseases: contribution to diagnosis and pathophysiology]. 1069 55

Some beta-cell-specific autoantigens also are present in the central nervous system. Furthermore, stiff man syndrome, an autoimmune neurological disease, is frequently associated with diabetes and shares with this one an anti-GAD and IA-2 humoral immunoreactivity. We wondered whether these autoantibodies could be found in other neurological diseases with a present or supposed autoimmune origin. So, anti-GAD65 (GAD65A) and anti-IA-2 (IA-2A) autoantibodies were assayed in various neurological diseases. There was a higher prevalence of such antibodies in Lambert-Eaton myasthenic syndrome (LEMS) (GAD65A, 35%; IA-2A, 21%; double positivity, 18%) compared to amyotrophic lateral sclerosis (18%, 12%, and 12%, respectively) and multiple sclerosis (10%, 3%, and 3%, respectively). In LEMS, the humoral reaction was more frequent and/or appeared earlier in the paraneoplastic forms. The detection of such autoantibodies in patients with small-cell lung carcinoma (SCLC) without LEMS suggests that these autoantigens, GAD65 and IA-2, could be produced by SCLC tissue.
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PMID:Humoral immunity against glutamic acid decarboxylase and tyrosine phosphatase IA-2 in Lambert-Eaton myasthenic syndrome. 1093 16

Creatine is a substrate of cytosolic and mitochondrial creatine kinases. Its supplementation augments cellular levels of creatine and phosphocreatine, the rate of ATP resynthesis, and improves the function of the creatine kinase energy shuttle. High cytoplasmatic total creatine levels have been reported to be neuroprotective by inhibiting apoptosis. In addition, creatine has direct antioxidant effects, which may be of importance in amyotrophic lateral sclerosis. In the present study, we investigated the effects of creatine [5 mM] on survival and differentiation of cultured GABA-immunoreactive (-ir) and choline acetyltransferase (ChAT)-ir rat spinal cord neurons. Furthermore, we addressed the neuroprotective potential of creatine supplementation against 3-nitropropionic acid (3-NP) induced toxicity. General cell survival and total neuronal cell density were not altered by chronic creatine treatment. We found, however, after chronic creatine and short-term creatine exposure a significantly higher density of GABA-ir neurons hinting to a differentiation-inducing mechanism of creatine. This notion is further supported by a significant higher content of GAD after creatine exposure. Creatine supplementation also exerted a partial, but significant neuroprotection for GABA-ir neurons against 3-NP induced toxicity. Interestingly, chronic creatine treatment did not alter cell density of ChAT-ir neurons but promoted their morphologic differentiation. Cell soma size and number of primary neurites per neuron were increased significantly after creatine supplementation. Taken together, creatine supplementation promoted the differentiation or the survival of GABAergic neurons and resulted in partial neuroprotection against 3-NP induced toxicity. The data suggest that creatine may play a critical role during development of spinal cord neurons.
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PMID:Creatine treatment promotes differentiation of GABA-ergic neuronal precursors in cultured fetal rat spinal cord. 1752 13