EC:3.6.1.3 - FACTA Search

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)

In previous studies it was demonstrated that antibodies in sera from patients with primary biliary cirrhosis (PBC) and their relatives can recognize two different antigen systems in the ATPase fraction prepared from beef heart mitochondria, namely the PBC-related M2- and the naturally occurring mitochondrial antigen (NOMAg)-related epitopes. Since separation of these two antigen systems could not be achieved using mammalian mitochondria, mitochondria from a wide spectrum of plants were analysed with respect to the presence of mitochondrial antigens. Mitochondria from 29 species of plants were prepared and tested by ELISA and Western blot using marker sera from patients with PBC reacting in the Western blot with M2a,b,c,d (alpha-ketoacid-dehydrogenase complex) and NOMAg-specific sera recognizing the three major epitopes epsilon, zeta, and eta at 65, 61 and 58 kD. Naturally occurring mitochondrial antibody (NOMA)-positive marker sera reacted in the ELISA with mitochondria from all plants, and the zeta/eta positive sera gave also a positive reaction at 61/58 kD in the Western blot while the epsilon epitope could not be visualized by this method. In contrast, the M2 antigen was detected preferentially in lower plants such as algae, fungi, and ferns. Analysing these data with respect to the evolution of proteins one would have to assume that the M2 antigen was lost in most higher plants or underwent some structural alterations. Furthermore, considering the fact that the M2- and the NOMAg-related epitopes could be only partially separated, i.e. there were no plant mitochondria showing only M2 but no NOMAg, one could speculate that anti-M2 antibodies are derived from the pool of naturally occurring antibodies.
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PMID:Distribution of the PBC-specific- (M2) and the naturally-occurring mitochondrial antigen- (NOMAg) systems in plants. 128 Oct 57

Sera that contained autoantibodies to mitochondria (AMA) by immunofluorescence were examined by immunoblotting for reactivity with mitochondrial polypeptides from various mammalian species, yeast, and E. coli. Mitochondrial polypeptides were separated by polyacrylamide gel electrophoresis, were immobilized on nitrocellulose, and were exposed to sera. The sera tested included 18 AMA-positive sera from patients with primary biliary cirrhosis (PBC), two AMA-positive sera from patients without PBC, and 53 AMA-negative sera. All AMA-positive sera reacted with either one or the other, or usually both of two human mitochondrial polypeptides of 70 kilodalton (kD) and 45 kD. The 53 AMA-negative sera were not reactive with the 70 kD polypeptide, but six reacted with the 45 kD polypeptide. The reactivity of the 70 kD and the 45 kD polypeptide was destroyed by brief exposure to trypsin. The counterpart of the 70 kD reactive polypeptide in human mitochondria was a 65 to 70 kD polypeptide in rat and mouse mitochondria, and a 55 kD polypeptide in yeast and in E. coli. The apparent 45 kD polypeptide was similar in all mitochondrial preparations tested, but no counterpart could be identified in E. coli. Beef heart mitochondria were used to show that the reactive polypeptides were present in a semipurified preparation of the F1 portion of mitochondrial H+ ATPase; however, sera did not react with the beta subunit of ATPase, proposed as a candidate mitochondrial autoantigen. The present molecular characterization of two particular antigens should lead to the more precise identification of these antigens, and also to a clearer insight into the pathogenesis of PBC.
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PMID:Reactivity of anti-mitochondrial autoantibodies in primary biliary cirrhosis: definition of two novel mitochondrial polypeptide autoantigens. 241 May 3

Sera from patients with primary biliary cirrhosis reacted with four major bands in beef heart mitochondria and ATPase extract when analyzed by immunoblot after sodium dodecyl sulfate-polyacrylamide gel electrophoresis. These four immunologically reactive bands corresponded to protein bands with molecular weights of about (a) 80,000; (b) 63,000; (c) 56,000; and (d) 43,000 to 46,000. An additional immunoreactive band was found with some high-titered primary biliary cirrhosis sera at 36,000. No association with any ATPase subunits was found, except for band c which migrated between the alpha- and beta-subunit of ATPase. Most ATPase fractions did not contain this band c, indicating that M2 determinants, as defined by immunoblot, are not identical with any ATPase subunit. Species and nonspecies-specific determinants of M2 were identified using mitochondria from rat liver and human heart and liver. Antigenic bands a, c and d were nonspecies-specific. Band b and e occurred only in beef heart. An additional determinant at about 38,000 was detected using human heart and liver mitochondria. Primary biliary cirrhosis sera showed a typical reaction with two protein bands of Escherichia coli, one at about 85,000 to 90,000 and the other at 60,000. Antibodies against both determinants could be absorbed with submitochondrial particles of beef heart showing that E. coli shares cross-reacting determinants with mitochondria. Sera from 56 primary biliary cirrhosis patients were tested using beef heart mitochondria.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Mitochondrial antibodies in primary biliary cirrhosis: species and nonspecies specific determinants of M2 antigen. 241 47

The claimed association between the M2 autoantigens of primary biliary cirrhosis (PBC) and the mitochondrial H+-ATPase has been re-examined in view of the recent reports that PBC autoantibodies react specifically with the lipoate acetyl transferases of 2-oxo acid dehydrogenases. Study of F0F1-ATPase purified from human and yeast mitochondria, and the comparison between immunoprecipitates obtained with antibodies against the H+-ATPase beta subunit and anti-M2 antibodies of PBC, established that the M2 antigens are not associated with the H+-ATPase complex. The M2 antigens did copurify with a crude bovine heart F1-ATPase preparation, but not with F1-ATPase from yeast, human heart or human liver.
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PMID:The association of the autoantigens of primary biliary cirrhosis with the mitochondrial H+-ATPase--a reassessment. 252 56

Autoantibodies present in the disease primary biliary cirrhosis react by immunoblotting with four major yeast mitochondrial antigens of 58 kDa, 55 kDa, 52 kDa and 45 kDa, tentatively identified as the lipoate acetyl transferases (E2) of the pyruvate dehydrogenase, component X of E2 pyruvate dehydrogenase, E2 of 2-oxo glutarate dehydrogenase and E2 of branched-chain 2-oxo acid dehydrogenase complexes respectively. The synthesis of these antigens is sensitive to catabolite repression. The reactive antigens are present in mit- mutants of yeast which have specific defects in the mitochondrial apocytochrome b, cytochrome oxidase subunit II and H+ -ATPase subunits 8 and 9, and in mtDNA-less rho O petite mutants, but a significant increase in the sensitivity to catabolite repression was observed in these mutants in particular in the mtDNA-less strains.
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PMID:Anti-mitochondrial autoantibodies of primary biliary cirrhosis as a novel probe in the study of the biosynthetic regulation of the yeast 2-oxo acid dehydrogenase complexes. 264 31

(1) The serological diagnosis of PBC is possible in almost 100% of cases when appropriate methods and specific antigen preparations are used such as the purified ATPase fraction by ELISA for the detection of anti-M2, sonicated mitochondria by immunodiffusion for the demonstration of precipitating antibodies against M-A or M-B, and cell cultures by immunofluorescence for the detection of antibodies against nuclear dots. (2) The establishment of AMA profiles obtained by ELISA and CFT seems to be a sensitive approach to a better definition of the natural course of PBC. A distinction between a rather benign and a more progressive course seems especially possible in the presence of the AMA profiles A and B (anti-M9 and/or anti-M2-positive only by ELISA) versus D (anti-M2-, anti-M4-, anti-M8-positive in the CFT). (3) The analysis of cellular immune reactions in vitro and in vivo suggests an activation of cytotoxic T cells as well as a defect in the function of T suppressor cells. (4) Although the aetiology of PBC is unknown, the detection of MHC Class II antigens on bile duct epithelial cells in liver biopsies of patients with PBC but not of normal individuals may imply that an infectious agent being exposed in association with these MHC structures may trigger the disease. The inability of the immune system in controlling this infectious process would then lead to an ongoing inflammatory reaction which is responsible for the continuous destruction of bile ducts within portal triads.
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PMID:Immunology of primary biliary cirrhosis. 332 37

10 sera were studied from patients with primary biliary cirrhosis (PBC), that were anomalous in their reactivity against mitochondrial antigens as detected by Western blotting. They had low reactivity against the major, M2 reactive antigen (Mr for beef heart mitochondria, 74 Kd) but reacted against an antigen of Mr 52 Kd (species independent) which was apparently inaccessible in submitochondrial particles (SMP) on ELISA and which was not present in chloroform-released ATPase preparations. In all respects this differed from the characteristics of the M2 antigens and it is concluded that these sera are detecting predominantly the M4-reactive antigen.
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PMID:Discrimination between M2 and M4 antimitochondrial antibodies in primary biliary cirrhosis. 355 42

Serum samples from 94 patients with primary biliary cirrhosis (PBC) and 17 patients with chronic cholestatic hepatitis (CCH) were tested in the fluorometric immunoassay (FIAX) against the nonorgan-specific ATPase-associated antigen (M2) and against submitochondrial from beef heart and rat liver, to evaluate the specificity and sensitivity of the M2 antigen for the diagnosis of PBC. As controls serum samples from 42 patients with other antimitochondrial antibody (AMA) specificity (against M1, M3, M5, and M6) as well as samples from 417 patients with various other hepatic and non-hepatic disorders were used. Serum samples from 91 of the 94 PBC patients (97%) and all 17 with CCH reacted with the M2 antigen. However, when SMP from rat liver and beef heart were tested in parallel in the FIAX, AMA could be detected in all PBC serum samples. None of the 42 patients with different types of AMA had reactions with the M2 antigen but all had reactions with SMP from rat-liver or beef-heart mitochondria or both. Among the other 417 patients with hepatic and non-hepatic disorders only 4(1%), all with collagen diseases, had anti-M2 antibodies.
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PMID:ATPase-associated antigen (M2): marker antigen for serological diagnosis of primary biliary cirrhosis. 618 86

The complement fixing antigen of the inner mitochondrial membrane previously shown to be associated with the mitochondrial ATPase could be further purified by subjecting the ATPase extracted from beef heart and brown fat mitochondria to ion exchange and gel filtration chromatography. Although the ATPase activity could be clearly dissociated from the complement fixing activity, subunits of the F1-ATPase complex were always found in the purified fractions. The alpha, gamma, delta and epsilon subunits of the complex could be excluded with high probability as target antigens in contrast to the beta band which was always found in association with the antigen activity. These findings imply that the active centre of the ATPase enzyme is not involved in the antibody reaction but molecules of the ATPase complex may have antigen binding capacity. Treatment of ATPase associated antigen with trypsin did not markedly affect the complement binding, while SMP's treated in the same way lost their antigen activity indicating that sera from patients with primary biliary cirrhosis (PBC) may have mitochondrial antibodies of different specificities reacting with trypsin sensitive as well as trypsin insensitive components of the inner membrane. The purified antigen reacted exclusively with sera from patients with PBC and may be therefore used as a marker antigen.
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PMID:Mitochondrial antibodies in primary biliary cirrhosis. VI. Association of the complement fixing antigen with a component of the mitochondrial F1-ATPase complex. 618 57

An indirect binding assay, the fluorometric immunoassay (FIAX), was established for the detection of anti-M2 antibodies which are specific markers for primary biliary cirrhosis (PBC). Submitochondrial particles (SMP) from beef heart and rat liver and the ATPase-associated antigen (M2) were used. The antigens were fixed to a cellulose acetate surface, SMP at a concentration of 2 mg/ml, ATPase at a concentration of 0.2 mg/ml. Sera were used at 1:60 and 1:120 and bound antimitochondrial antibodies (AMA) were demonstrated by fluorescent isothiocyanate labelled monospecific anti-human IgG, IgM and IgA antibodies. The fluorescent signals were proportional to the AMA titre in the serum samples and were measured in a fluorometer (FIAX 100). Of 94 patients with PBC, 92 had AMA against SMP from beef heart compared with 76 in the complement fixation test (CFT) and 84 in the immunofluorescence test (IFL). Ninety reacted with the ATPase-associated M2 antigen. Sera from patients known to have AMA of different specificities (anti-M1, anti-M3, anti-M5, anti-M6) reacted with SMP from beef heart and/or rat liver but not with M2.
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PMID:Use of ATPase-associated antigen (M2) for detection of antimitochondrial antibodies in primary biliary cirrhosis by fluorometric immunoassay. 622 70

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