UMLS:C0007570 - FACTA Search

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Query: UMLS:C0007570 (celiac disease)
13,091 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Transglutaminase 2 (TG-ase 2) is one of the enzymes which catalyzes the deamination and transacylation of proteins. The transfer of a glutamine acyl residue to a lysine amine group of the acceptor protein is one of the posttranslational covalent modifications regulating some polypeptide activities. The control of protein oligomerization by TG-ase 2 is a cause of the formation of detergent-insoluble macromolecular aggregates. These inclusions are present in degenerating cells during, for example, Alzheimer's and Parkinson's disease. Overexpression of TG-ase 2 has been noted in apoptotic cells. Protein reserves in cereals are rich in glutamine, a substrate of TG-ase 2. Deamination of glutamine is the most important reaction for the initiation of the inflammatory process during gluten-dependent disease of the gut (celiac disease). Grains that contain gliadin are a cause of inflammatory reaction in children with intolerance to glutene. Interactions of the TG-ase product-glutamate with antigens of the major histocompatibility complex type II (MHC II, or HLA DQ) cause autoimmunological reaction by CD4+ T lymphocytes. Knowledge of the kinetic and molecular character of TG-ase 2 has contributed to finding peptides to replace gliadin. These molecules do not evoke immunological events.
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PMID:[The involvement of transglutaminase 2 in autoimmunological diseases]. 1601 94

Transglutaminase 2 (TG2) is a multi-domain, multi-functional enzyme that post-translationally modifies proteins by catalyzing the formation of intermolecular isopeptide bonds between glutamine and lysine side-chains. It plays a role in diverse biological functions, including extracellular matrix formation, integrin-mediated signaling, and signal transduction involving 7-transmembrane receptors. While some of the roles of TG2 under normal physiological conditions remain obscure, the protein is believed to participate in the pathogenesis of several unrelated diseases, including celiac sprue, neurodegenerative diseases, and certain types of cancer. A variety of small molecule and peptidomimetic inhibitors of the TG2 active site have been identified. Here, we summarize the biochemistry, biology, pharmacology and medicinal chemistry of human TG2.
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PMID:Transglutaminase 2 inhibitors and their therapeutic role in disease states. 1758 5

Transglutaminase 2 (TG2) catalyzes cross-linking or deamidation of glutamine residues in peptides and proteins. The in vivo deamidation of gliadin peptides plays an important role in the immunopathogenesis of celiac disease (CD). Although deamidation is considered to be a side-reaction occurring in the absence of suitable amines or at a low pH, a recent paper reported the selective deamidation of the small heat shock protein 20 (Hsp20), suggesting that deamidation could be a substrate dependent event. Here we have measured peptide deamidation and transamidation in the same reaction to reveal factors that affect the relative propensity for the two possible products. We report that the propensity for deamidation by TG2 is both substrate dependent and influenced by the reaction conditions. Direct deamidation is favored for poor substrates and at low concentrations of active TG2, while indirect deamidation (i.e. hydrolysis of transamidated product) can significantly contribute to the deamidation of good peptide substrates at higher enzyme concentrations. Further, we report for the first time that TG2 can hydrolyze iso-peptide bonds between two peptide substrates. This was observed also for gliadin peptides introducing a novel route for the generation of deamidated T cell epitopes in celiac disease.
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PMID:The propensity for deamidation and transamidation of peptides by transglutaminase 2 is dependent on substrate affinity and reaction conditions. 1879 60

Transglutaminases are a large family of related and ubiquitous enzymes which catalyze the cross-linking of a glutaminyl residue of a protein/peptide substrate to a lysyl residue of a protein/peptide co-substrate. These enzymes are also capable of catalyzing other reactions important for the cell viability. The distribution and the physiological roles of the human transglutaminases have been widely studied in numerous cell types and tissues and their roles in several diseases have begun to be identified. Recently, "tissue" transglutaminase (TG2) has been shown to be involved in the molecular mechanisms responsible for a very widespread human pathology, Celiac Disease (CD). Transglutaminase activity has also been hypothesized to be directly involved in the pathogenetic mechanisms responsible for several human neurodegenerative diseases, which are characterized in part by aberrant cerebral transglutaminase activity and by increased cross-linked proteins in affected brains, such as Alzheimer's disease (AD), Parkinson's disease (PD), supranuclear palsy, Huntington's disease (HD) and other recently identified polyglutamine diseases. In this review we discuss the biochemistry of the transglutaminases, with particular reference to the molecular mechanisms that could be involved in the physiopathological processes responsible for these human neurodegenerative diseases.
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PMID:Transglutaminase-catalyzed post-translational modifications of proteins in the nervous system and their possible involvement in neurodegenerative diseases. 1899 65

Transglutaminases are a family of eight currently known calcium-dependent enzymes that catalyze the cross-linking or deamidation of proteins. They are involved in important biological processes such as wound healing, tissue repair, fibrogenesis, apoptosis, inflammation and cell-cycle control. Therefore, they play important roles in the pathomechanisms of autoimmune, inflammatory and degenerative diseases, many of which affect the gastrointestinal system. Transglutaminase 2 is prominent, since it is central to the pathogenesis of celiac disease, and modulates inflammation and fibrosis in inflammatory bowel and chronic liver diseases. This review highlights our present understanding of transglutaminase function in gastrointestinal and liver diseases and therapeutic strategies that target transglutaminase activities.
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PMID:Transglutaminases in inflammation and fibrosis of the gastrointestinal tract and the liver. 1919 40

Tissue transglutaminase (tTG) plays an important role in celiac disease pathology as it catalyzes deamidation and cross-linking of specific gluten peptides and converts them into potent epitopes recognized by intestinal T-cells. We investigated whether synthetic peptides with high affinity to gliadin could alter tTG activity on gliadin and whole gluten digest. The immobilized substrates were incubated with synthetic peptides identified by the phage display technique and a control peptide with no affinity to gliadin. Transglutaminase activity was measured with time resolved fluorescence. The mean tTG activity, compared to that of the control without the peptides, was reduced by 31, 33, and 36% for three selected gliadin-binding peptides, and 30% for the peptide pool (P < or = 0.001-0.004) when gliadin was the substrate. Finally, substrate specificity experiments suggested that avenin was processed in a manner similar that used for gliadin during in vitro assays with tTG. The results showed that the blocking peptides efficiently reduced tTG processing of gliadin in vitro, and this strategy will be further investigated as an alternative therapy for celiac disease.
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PMID:Blocking peptides decrease tissue transglutaminase processing of gliadin in vitro. 1981 32

Transglutaminase 2 (TG2) is a multifunctional protein that has been implicated in numerous pathologies including that of neurodegeneration and celiac disease, but the molecular interactions that mediate its diverse activities are largely unknown. Bcr and the closely related Abr negatively regulate the small G-protein Rac: loss of their combined function in vivo results in increased reactivity of innate immune cells. Bcr and Abr are GTPase-activating proteins that catalyze the hydrolysis of the GTP bound to Rac. However, how the Bcr and Abr GTPase-activating activity is regulated is not precisely understood. We here report a novel mechanism of regulation through direct protein-protein interaction with TG2. TG2 bound to the Rac-binding pocket in the GTPase-activating domains of Bcr and Abr, blocked Bcr activity and, through this mechanism, increased levels of active GTP-bound Rac and EGF-stimulated membrane ruffling. TG2 exists in at least two different conformations. Interestingly, experiments using TG2 mutants showed that Bcr exhibits preferential binding to the non-compacted conformation of TG2, in which its catalytic domain is exposed, but transamidation is not needed for the interaction. Thus, TG2 regulates levels of cellular GTP-bound Rac and actin cytoskeletal reorganization through a new mechanism involving direct inhibition of Bcr GTPase-activating activity.
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PMID:Transglutaminase 2 regulates the GTPase-activating activity of Bcr. 1984 Sep 40

Transglutaminases are a large family of related and ubiquitous enzymes which catalyze the cross linking of a glutaminyl residue of a protein/peptide substrate to a lysyl residue of a protein/peptide co-substrate. In addition to lysyl residues, other second nucleophilic co-substrates may include monoamines or polyamines (to form mono- or bi-substituted /crosslinked adducts) or -OH groups (to form ester linkages). In absence of co-substrates, the nucleophile may be water, resulting in the net deamidation of the glutaminyl residue. These enzymes are also capable of catalyzing other reactions important for cell viability. The distribution and the physiological roles of human transglutaminases have been widely studied in numerous cell types and tissues and their roles in several diseases have begun to be identified. Recently, "tissue" transglutaminase (TG2) has been shown to be involved in the molecular mechanisms responsible for a very widespread human pathology, celiac disease (CD). Transglutaminase activity has also been hypothesized to be directly involved in the pathogenetic mechanisms responsible for several human neurodegenerative diseases, which are characterized in part by aberrant cerebral transglutaminase activity and by increased cross-linked proteins in affected brains, such as Alzheimer's disease (AD), Parkinson's disease (PD), supranuclear palsy, Huntington's disease (HD) and the other recently identified polyglutamine diseases, and others. In this review we discuss the biological role of the transglutaminases in the nervous system, with particular interest in the molecular mechanisms, which could involve these enzymes in the pathophysiological processes responsible for human neurodegenerative diseases.
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PMID:Role of the transglutaminase enzymes in the nervous system and their possible involvement in neurodegenerative diseases. 1992 89

Transglutaminase 2 (TG2) is well characterized as the main autoantigen of celiac disease. The ability of TG2 to deamidate and crosslink gluten peptides is essential for the gluten-dependent production of TG2 specific autoantibodies. In patients with primarily extraintestinal manifestation of gluten sensitivity the repertoire of autoantibodies may be different. In dermatitis herpetiformis (DH), TG3 appears to be the target autoantigen whereas in gluten ataxia (GA) autoantibodies reactive with TG6 are present. A functional role for TG3 and TG6 in these diseases has yet to be described. It is also not known whether these enzymes can use gluten peptides implicated in the pathology as substrates. We here report that similar to TG2, TG3 and TG6 can specifically deamidate gluten T cell epitopes. However, the fine specificities of the enzymes were found to differ. TG2 can form covalent complexes with gluten by iso-peptide and thioester bonds. We found that both TG3 and TG6 were able to complex with gluten peptides through thioester linkage although less efficiently than TG2, whereas TG6 but not TG3 was able to form iso-peptide linked complexes. Our findings lend credence to the notion that TG3 and TG6 are involved in the gluten-induced autoimmune responses of DH and GA.
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PMID:Gluten T cell epitope targeting by TG3 and TG6; implications for dermatitis herpetiformis and gluten ataxia. 2030 Jul 88

Transglutaminases are ubiquitous enzymes which catalyze post-translational modifications of proteins. The main activity of these enzymes is the cross-linking of glutaminyl residues of a protein/peptide substrate to lysyl residues of a protein/peptide co-substrate. In addition to lysyl residues, other nucleophilic co-substrates may include monoamines or polyamines (to form mono- or bi-substituted /crosslinked adducts) or -OH groups (to form ester linkages). In absence of co-substrates, the nucleophile may be water, resulting in the net deamidation of the glutaminyl residue. Recently, "tissue" transglutaminase, a member of the transglutaminase family of enzymes, has been shown to be involved in the molecular mechanisms responsible for a very widespread human pathology, celiac disease. Transglutaminase activity has also been hypothesized to be involved in the pathogenetic mechanisms responsible for several other human diseases, including neurodegenerative diseases, often associated to celiac disease. Neurodegenerative diseases, such as Alzheimer's disease, Parkinson's disease, supranuclear palsy, Huntington's disease and other polyglutamine diseases, are characterized in part by aberrant cerebral transglutaminase activity and by increased cross-linked proteins in affected brains. This review focuses on the possible therapeutic effects of transglutaminase inhibitors and their recent patents for the cure of patients with diseases characterized by aberrant transglutaminase activity and on the strategies to design such transglutaminase inhibitors.
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PMID:Transglutaminases as possible therapeutic targets in neurodegenerative diseases. 2063 72

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