Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.1.8 (cholinesterase)
 12,691 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The nature of the putative autoantigen in Graves' ophthalmopathy (Go) remains an enigma but the sequence similarity between thyroglobulin (Tg) and acetylcholinesterase (ACHE) provides a rationale for epitopes which are common to the thyroid gland and the eye orbit. In an attempt to define the shared epitope, we have screened a lambda gt 11 human thyroid cDNA library using a polyclonal antibody to Torpedo ACHE and isolated two clones, which upon sequencing, were shown to contain Tg segments, corresponding to portions of the C terminal part of the molecule which has a high similarity with ACHE. Having demonstrated the existence of an epitope common to Tg and ACHE, the clones have been further tested and found to be positive in lysis plaque assays with 1/10 sera from patients with Hashimoto's thyroiditis (HT), 8/8 from patients with Graves' ophthalmopathy and 0/8 normal sera. We have investigated the physiological significance of this common epitope by in situ immunolocalization studies in which the polyclonal antibody to Torpedo ACHE (which was used for screening the library) and immunoglobulins (Igs) from 6 Go patients tested were shown to bind to end plate regions of human foetal muscle fibres which were concurrently shown to be rich in cholinesterase activity: Igs from 3 normal individuals and 2 patients with Hashimoto's thyroiditis did not bind. The results demonstrate and characterize an epitope which is common to Tg and ACHE and show that Go patients Igs contain antibodies which bind to muscle end plates rich in cholinesterase. The significance of these findings to the pathogenesis of Go is discussed.
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PMID:Definition, at the molecular level, of a thyroglobulin-acetylcholinesterase shared epitope: study of its pathophysiological significance in patients with Graves' ophthalmopathy. 248 81

ICA69 is a diabetes autoantigen with no homologue of known function. Given that most diabetes autoantigens are associated with neuroendocrine secretory vesicles, we sought to determine if this is also the case for ICA69 and whether this protein participates in the process of neuroendocrine secretion. Western blot analysis of ICA69 tissue distribution in the mouse revealed a correlation between expression levels and secretory activity, with the highest expression levels in brain, pancreas, and stomach mucosa. Subcellular fractionation of mouse brain revealed that although most of the ICA69 pool is cytosolic and soluble, a subpopulation is membrane-bound and coenriched with synaptic vesicles. We used immunostaining in the HIT insulin-secreting beta-cell line to show that ICA69 localizes in a punctate manner distinct from the insulin granules, suggesting an association with the synaptic-like microvesicles found in these cells. To pursue functional studies on ICA69, we chose to use the model organism Caenorhabditis elegans, for which a homologue of ICA69 exists. We show that the promoter of the C. elegans ICA69 homologue is specifically expressed in all neurons and specialized secretory cells. A deletion mutant was isolated and found to exhibit resistance to the drug aldicarb (an inhibitor of acetylcholinesterase), suggesting defective neurotransmitter secretion in the mutant. On the basis of the aldicarb resistance phenotype, we named the gene ric-19 (resistance to inhibitors of cholinesterase-19). The resistance to aldicarb was rescued by introducing a ric-19 transgene into the ric-19 mutant background. This is the first study aimed at dissecting ICA69 function, and our results are consistent with the interpretation that ICA69/RIC-19 is an evolutionarily conserved cytosolic protein participating in the process of neuroendocrine secretion via association with certain secretory vesicles.
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PMID:The diabetes autoantigen ICA69 and its Caenorhabditis elegans homologue, ric-19, are conserved regulators of neuroendocrine secretion. 1102 35