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Showing 21 to 29 of 29 (0.168 seconds)Spelling suggestions: "subject:"autoantigens"" "subject:"autoantigenes""
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Die Rolle eines SmD1Peptids bei der Entstehung von pathogenetisch bedeutsamen Autoantikörpern beim systemischen Lupus erythematodesRiemekasten, Gabriela 25 March 2003 (has links)
ÿþD / ÿþS
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Autoantibody signatures defined by serological proteome analysis in sera of patients with cholangiocarcinoma / Identification d’auto-anticorps pouvant être utilisés comme biomarqueurs diagnostiques des cholangiocarcinomes par l’utilisation de la technique SERPA (serological proteome analysis)Mustafa, Mohammad Zahid 25 June 2014 (has links)
Le cholangiocarcinome (CC) est un cancer des voies biliaires qui représente environ 15% des cancers primitifs du foie,mais de pronostic redoutable en raison d'un diagnostic tardif faute de marqueurs spécifiques.La présence d'auto anticorps (Ac) est rapportée comme marqueurs diagnostiques précoce de certains cancers.La présence d'auto-Ac dans le CC n'a pas été signalée, et aucun biomarqueur immunologique de cette maladie n'a été identifié. L'objectif de notre étude était d'identifier des auto-Ac potentiellement utilisables comme biomarqueur de CC, par analyse sérologique du protéome. Des immunoblots ont été réalisés à partir de la séparation par électrophorèse 2D de protéines de lignées tumorales de CC, CCSW1 et CCLP1, de 5 pièces d'hépatectomie ac leur partie tumorale et non tumorale,ainsi que de foie normal de neuropathie amyloïde. Les sérums de 13 patients atteints de CC et un pool de 10 sujets sains ont été testés sur ces immunoblot.La comparaison informatique des profils des protéines immunomarquées par les sérums des patients comparés aux profils des contrôles a permis de définir des spots immunoréactifs d'intérêt.Ces spots d'intérêt marqués par plus d'1/3 de sérums ont été ensuite identifiés par spectrométrie de masse de type Orbitrap®.Ainsi, nous avons identifié 10 protéines d'intérêt de CCSW1,11 protéines de CCLP1, 9 de la partie tumorale des foies, 14 des parties non-tumoral et 16 protéines appartenant au foie normal.Une extrême variabilité était observée selon les sérums pour un même Ag.Différents profils de réactivité étaient observés sur le même extrait antigénique en fonction des sérums testés, et pour un même sérum selon l'extrait antigénique utilisé.Il en résulte qu'un AC d'intérêt donné ne peut être considéré comme biomarqueur de CC que pour une faible proportion de patients.Pr cette raison, il faut envisager la combinaison de plusieurs anticorps pour avoir un test avec une sensibilité et une spécificité utilisable en clinique. Les protéines identifiées ont été classées par bio-informatique (logiciel Panther®) selon la description des gènes et de leurs produits selon une ontologie commune à toutes les espèces : fonctions moléculaires effectuées, processus biologiques assurés et localisation subcellulaire.Dans cette classification, 2 profils d'immunoréactivité se distinguent. La grande majorité des protéines cibles d'intérêt avec une fonction catalytique étaient présentes dans le foie normal ou dans les parties non tumorales des exérèses. L'autre profil était celui des protéines-cibles avec une fonction de protéines structurale et étaient présentes dans les lignées cellulaires tumorales ainsi que des parties tumorales des hépatectomies. Les protéines identifiées avec une activité catalytique étaient:l'alpha-énolase, le fructose biphosphate aldolase B et la glyceraldedyde 3-phosphate déshydrogénase, toutes troisréactives avec+de 50% des sérums de CC. Les protéines de structure identifiées par+de 60% des sérums de CC provenaient des lignées cellulaires et des tissus tumoraux.Il s'agissait de la vimentine, des prélamines A / C, de l'annexine A2 et de l'actine.Enfin, la sérotranferrine, protéines de transport, est reconnues par 100% des sérums CC en utilisant comme antigène des tissus tumoraux.Une sensibilité importante et une spécificité élevée sont des caractéristiques princeps d'un Ac pour pouvoir l'utiliser comme biomarqueur.La plupart des auto-Ac détectés dans cette étude avaient déjà été rapportées dans d'autres cancers et maladies auto-immunes. Pour trouver des protéines antigéniques spécifiques du CC, une combinaison de plusieurs semble nécessaire afin de permettre le développement de nouveaux biomarqueurs pour le diagnostic et le pronostic des CC.En conclusion, les biomarqueurs potentiels proposés dans cette étude doivent être testés en différentes combinaisons avec un panel en nb significatif de patients et en utilisant le substrat antigénique le plus approprié comme défini au cours de cette étude. / Cholangiocarcinoma (CC) is a rare but fatal primary liver cancer and accounts for an estimated 15% of primary liver cancer worldwide. It is associated with high mortality due to the lack of established diagnostic approaches. Autoantibodies can be used clinically as diagnostic markers for early cancer detection of cholangiocarcinoma. Studies, indicating the presence of auto-antibodies (AAbs) in CC have not been reported yet. No immunological biomarker, correlated to the disease, has been identified. The objective of our study was to identify cellular proteins from liver tissues (tumoral and non tumoral) and cholangiocarcinoma cell lines which could be recognized by antibody of CC patients. We used serological proteome analysis (SERPA) technique which leads us to suggest some molecules as potential biomarkers for the early diagnosis of CC. Proteins from different origins were 2DE separated: CCSW1 and CCLP1 tumor cell lines, five different samples of hepatectomies for CC with respect to their tumoral and non-tumoral counterparts and a normal liver from amyloid neuropathy. Sera from 13 CC patients and a pool of 10 healthy subjects were probed on immunoblot performed with these different separations. Comparison of immunoblotting patterns given by patient’s sera compared to patterns given by controls allowed to define immunoreactive spots of interest and those reacting with more than one-third of sera were identified by orbitrap type mass spectrometry. In this way we identified 10, 11, 9, 14 and 16 proteins from CCSW1, CCLP1, tumor part, non-tumor counterpart and normal liver antigenic extracts respectively. Different patterns of reactivity were observed according to sera on the same antigenic extract, and for a same serum, according to the antigenic extract, even though few common patterns were also observed. This widespread of reactivity is not unusual and reported earlier in several studies of this sort. It is indicated that a single AAb have an ability to identify only a small proportion of patient. For this reason, several antibodies in combination must be used to ensure sensitivity and specificity of assays used in the daily clinic.Identified proteins were then categorized by gene ontology analysis by which they fall into three main groups; biological process and molecular functions, protein class and molecular pathway and cellular component, according to the Panther classification. By Gene Ontology classification, two different patterns of targeted antigens were observed. The vast majority of targeted-proteins with catalytic activity were found in normal liver or non-tumor specimens. The second pattern was mainly represented by targeted proteins categorized as structural proteins extracted from CC cell lines and tumor tissues. Proteins identified with catalytic activity were: alpha-enolase, fructose biphosphate aldolase B and glyceraldedyde 3-phosphate dehydrogenase; which were reactive with more than 50% of CC sera. Proteins identified with structural activity, and detected with high rates by using cell lines and tumor tissues, were: vimentin, prelamine A/C, annexin A2 and actin; reactivity of each protein was higher than 62% with CC sera. Serotranferrin, identified under the category of transfer/carrier proteins, recognized by 100% of CC sera by using tumor tissues.High sensitivity and specificity is a prime requisite of AAbs that might be used as CC biomarkers for CC diagnosis. Most of the AAbs detected in this study had previously been reported in other cancers and auto-immune disorders. Hence it is essential to prove the specificity of antigenic proteins, a combination of various antigens therefore needs to be tested to enable the development of new biomarkers for the diagnosis and prognosis of CC.In conclusion, the proposed potential biomarkers need to be tested in a variety of different combinations with a panel of significant number of patients and using the most appropriate substrate defined during this study.
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Autoantibody signatures defined by serological proteome analysis in sera of patients with cholangiocarcinomaMustafa, Mohammad Zahid 25 June 2014 (has links) (PDF)
Cholangiocarcinoma (CC) is a rare but fatal primary liver cancer and accounts for an estimated 15% of primary liver cancer worldwide. It is associated with high mortality due to the lack of established diagnostic approaches. Autoantibodies can be used clinically as diagnostic markers for early cancer detection of cholangiocarcinoma. Studies, indicating the presence of auto-antibodies (AAbs) in CC have not been reported yet. No immunological biomarker, correlated to the disease, has been identified. The objective of our study was to identify cellular proteins from liver tissues (tumoral and non tumoral) and cholangiocarcinoma cell lines which could be recognized by antibody of CC patients. We used serological proteome analysis (SERPA) technique which leads us to suggest some molecules as potential biomarkers for the early diagnosis of CC. Proteins from different origins were 2DE separated: CCSW1 and CCLP1 tumor cell lines, five different samples of hepatectomies for CC with respect to their tumoral and non-tumoral counterparts and a normal liver from amyloid neuropathy. Sera from 13 CC patients and a pool of 10 healthy subjects were probed on immunoblot performed with these different separations. Comparison of immunoblotting patterns given by patient's sera compared to patterns given by controls allowed to define immunoreactive spots of interest and those reacting with more than one-third of sera were identified by orbitrap type mass spectrometry. In this way we identified 10, 11, 9, 14 and 16 proteins from CCSW1, CCLP1, tumor part, non-tumor counterpart and normal liver antigenic extracts respectively. Different patterns of reactivity were observed according to sera on the same antigenic extract, and for a same serum, according to the antigenic extract, even though few common patterns were also observed. This widespread of reactivity is not unusual and reported earlier in several studies of this sort. It is indicated that a single AAb have an ability to identify only a small proportion of patient. For this reason, several antibodies in combination must be used to ensure sensitivity and specificity of assays used in the daily clinic.Identified proteins were then categorized by gene ontology analysis by which they fall into three main groups; biological process and molecular functions, protein class and molecular pathway and cellular component, according to the Panther classification. By Gene Ontology classification, two different patterns of targeted antigens were observed. The vast majority of targeted-proteins with catalytic activity were found in normal liver or non-tumor specimens. The second pattern was mainly represented by targeted proteins categorized as structural proteins extracted from CC cell lines and tumor tissues. Proteins identified with catalytic activity were: alpha-enolase, fructose biphosphate aldolase B and glyceraldedyde 3-phosphate dehydrogenase; which were reactive with more than 50% of CC sera. Proteins identified with structural activity, and detected with high rates by using cell lines and tumor tissues, were: vimentin, prelamine A/C, annexin A2 and actin; reactivity of each protein was higher than 62% with CC sera. Serotranferrin, identified under the category of transfer/carrier proteins, recognized by 100% of CC sera by using tumor tissues.High sensitivity and specificity is a prime requisite of AAbs that might be used as CC biomarkers for CC diagnosis. Most of the AAbs detected in this study had previously been reported in other cancers and auto-immune disorders. Hence it is essential to prove the specificity of antigenic proteins, a combination of various antigens therefore needs to be tested to enable the development of new biomarkers for the diagnosis and prognosis of CC.In conclusion, the proposed potential biomarkers need to be tested in a variety of different combinations with a panel of significant number of patients and using the most appropriate substrate defined during this study.
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Mechanisms of T cell tolerance to the RNA-binding nuclear autoantigen human La/SS-BYaciuk, Jane Cherie. January 2008 (has links) (PDF)
Thesis (Ph. D.)--University of Oklahoma. / Bibliography: leaves 122-140.
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Autoantibodies to Centrosomes are Diagnostic for Human Scleroderma and Can Be Induced by Experimental Mycoplasma Infection in Mice: A DissertationGavanescu, Irina Catrinel 20 December 2002 (has links)
The overall objective of this thesis work was to develop new insights into the etiology of scleroderma, a human systemic autoimmune disease, by analyzing the autoantibodies to centrosome antigens that develop during the disease. Centrosomes are perinuclear organelles that form microtubule arrays, including mitotic spindles that ensure the faithful segregation of chromosomes during mitosis.
These studies used a novel methodology to determine the prevalence of anti-centrosome autoantibodies in patients with scleroderma. Recombinant centrosome antigens were used to determine the antigenic specificity of anti-centrosome antibody subsets by immunoblotting. Centrosome marker antibodies were used in indirect immunofluorescence assays to distinguish centrosomes within the polymorphic staining pattern frequently given by scleroderma sera. We found that 43% of patients are autoreactive to centrosomes, a prevalence higher than has been reported for any other scleroderma autoantigen. Half of the centrosome-positive patients also had autoantibodies against other antigens used in scleroderma diagnosis. However, in the remaining half of these patients, anti-centrosome antibodies represented the sole class of autoantibodies that was detectable. Anti-centrosome antibodies were detected in only a small percentage of normal individuals and patients with other connective tissue diseases. These data suggest that anti-centrosome autoantibodies may represent a new diagnostic tool in scleroderma. Upon examination of anti-centrosome autoantibody development in an animal model, it appeared that this autoantibody specificity may develop in mice as a consequence of an infection.
An infectious agent was isolated by plaque-formation from carrier mice. Further characterization of the infectious agent was undertaken to obtain information on its physical, morphological and cytopathological properties. The infectious agent was identified by sequence and unique antigenic properties to be homologous to the pig pathogen Mycoplasma hyorhinis. When reintroduced into naive mice, the murine mycoplasma triggered anti-centrosome autoantibody development. While anti-centrosome autoantibodies of IgM isotype are part of the repertoire of naive unimmunized mice, mycoplasma infection specifically triggered the development of anti-centrosome IgG. Moreover, centrosome autoreactivity was prevented by antibiotic treatment. The autoantibody response evolved to recruit additional specificities, having IgM isotypes, reactive to endoplasmic reticulum-associated autoantigens.
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Novel minor HLA DR associated antigens in type 1 diabetesBonifacio, Ezio, Müller, Denise, Telieps, Tanja, Eugster, Anne, Weinzierl, Christina, Jolink, Manja, Ziegler, Anette-Gabriele 27 February 2019 (has links)
Type 1 diabetes is an autoimmune disease leading to insulin deficiency. Autoantibodies to beta cell proteins are already present in the asymptomatic phase of type 1 diabetes. Recent findings have suggested a number of additional minor autoantigens in patients with type 1 diabetes. We have established luciferase immunoprecipitation systems (LIPS) for anti-MTIF3, anti-PPIL2, anti-NUP50 and anti-MLH1 and analyzed samples from 500 patients with type 1 diabetes at onset of clinical disease and 200 healthy individuals who had a family
history of type 1 diabetes but no evidence of beta cell autoantibodies. We show significantly higher frequencies of anti-MTIF3, anti-PPIL2 and anti-MLH1 in recent onset type 1 diabetes patients in comparison to controls. In addition, antibodies to NUP50 were associated with HLA-DRB1*03 and antibodies to MLH1 were associated with HLA-DRB1*04 genotypes.:1. Introduction
2. Material and methods
2.1 Participants
2.2. Cloning and expression of antigens
2.3. Luciferase ImmunoPrecipitation (LIPS) assays
2.4. Antinuclear antibodies (ANA)
2.5. Statistics
3. Results
4. Discussion
5. Conclusion
Declaration of interest
Funding
Acknowledgements
Appendix A Suplementary data
References
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SOX13, A γδ T Cell-Specific Gene, Is a WNT-Signaling Antagonist Regulating T Cell Development: A DissertationMelichar, Heather J. 19 May 2006 (has links)
Mature αβ and γδ T cells arise from a common precursor population in the thymus. Much debate has focused on the mechanism of T cell lineage choice made by these multi-potential precursor cells. It is widely believed that the decision of these precursor cells to commit to the γδ or αβ T cell lineages is regulated primarily by a specific instructive signal relayed through the appropriate T cell receptor. Contrary to this model, we present evidence for a TCR-independent lineage commitment process. Comparison of global gene expression profiles from immature αβ and γδ lineage thymocytes identified Sox13, an HMG-box transcription factor, as a γδ T cell-specific gene. Unlike other HMG-box transcription factors such as TCF1, LEF1 and SOX4, that are critical for proper αβ T cell development, Sox13 expression is restricted to early precursor subsets and γδ lineage cells. Importantly, SOX13 appears to influence the developmental fate of T cell precursors prior to T cell receptor expression on the cell surface. Transgenic over-expression of Sox13 in early T cell precursors strongly inhibits αβ lineage development, in part, by inhibiting precursor cell proliferation and concomitantly, leading to increased cell death among αβ lineage subsets. Steady-state γδ T cell numbers, however, appear unaffected. Strikingly, the DP αβ lineage cells that do develop in Sox13 transgenic mice are imprinted with a γδ- or precursor-like molecular profile, suggesting that SOX13 plays an active role in the lineage fate decision process or maintenance. Sox13-deficient mice, on the other hand, have selectively reduced numbers of γδ thymocytes, indicating that SOX13 is essential for proper development of γδ T cells. We present additional data demonstrating that SOX13 is a canonical WNT signaling antagonist modulating TCF1 activity, raising a strong possibility that WNT signals, and their modulators, are at the nexus of γδ versus αβ T cell lineage commitment.
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Možnosti predikce a imunointervence u diabetu 1. typu / Possibilities of prediction and immunointervention in type 1 diabetesSklenářová, Jana January 2020 (has links)
Type 1 diabetes mellitus (T1D) is an organ-specific autoimmune disease characterised by autoimmune destruction of insulin-producing beta cells in the islets of Langerhans. It is a long-term process initiated months or even years prior to the clinical onset. The main role in the pathogenesis is played by T lymphocytes but other cell types are involved as well. The presence of autoantibodies in the circulation is typical even before the disease onset. Nowadays, intensive research is focused on finding individuals at risk and developing an effective prevention. During my postgraduate studies I was involved mainly in the research of T1D prediction and prevention. We investigated the relationship of established autoimmune markers - autoantibodies - and the cellular reactivity to GAD65 and IA2 autoantigens. We discovered that the reaction to autoantigens is very individual and it is influenced by the patient's autoantibody profile. These results could be relevant in planning antigen-specific immunointervention studies and improving their efficacy. We also made an attempt to improve specificity and sensitivity of a beta cell destruction marker (specifically demethylated DNA), which would enable better understanding of the beta cell decline and identification of individuals at risk of T1D development. In...
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Trichohyalin is a potential major autoantigen in human alopecia areataLeung, Man Ching, Sutton, Chris W., Fenton, D.A., Tobin, Desmond J. January 2010 (has links)
Several lines of evidence support an autoimmune basis for alopecia areata (AA), a common putative autoimmune hair loss disorder. However, definitive support is lacking largely because the identity of hair follicle (HF) autoantigen(s) involved in its pathogenesis remains unknown. Here, we isolated AA-reactive HF-specific antigens from normal human scalp anagen HF extracts by immunoprecipitation using serum antibodies from 10 AA patients. Samples were analyzed by LC-MALDI-TOF/TOF mass spectrometry, which indicated strong reactivity to the hair growth phase-specific structural protein trichohyalin in all AA sera. Keratin 16 (K16) was also identified as another potential AA-relevant target HF antigen. Double immunofluorescence studies using AA (and control sera) together with a monoclonal antibody to trichohyalin revealed that AA sera contained immunoreactivity that colocalized with trichohyalin in the growth phase-specific inner root sheath of HF. Furthermore, a partial colocalization of AA serum reactivity with anti-K16 antibody was observed in the outer root sheath of the HF. In summary, this study supports the involvement of an immune response to anagen-specific HFs antigens in AA and specifically suggests that an immune response to trichohyalin and K16 may have a role in the pathogenesis of the enigmatic disorder.
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