UMLS:C0010346 - FACTA Search

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Query: UMLS:C0010346 (Crohn's disease)
21,615 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Epidemiological data, detailed molecular studies and recent genome-wide association studies strongly suggest that ulcerative colitis (UC) and Crohn's disease (CD) are related polygenic diseases that share some susceptibility loci, but differ at others. To date, there are more than 50 confirmed inflammatory bowel disease genes/loci, a number that is widely anticipated to at least double in the next 2 years. Germline variation in IL23R, IL12B, JAK2 and STAT3 is associated with inflammatory bowel disease susceptibility, consistent with the newly described role for IL23 signaling and Th17 cells in disease pathogenesis. Several genes involved in different aspects of bacterial handling are defective only in CD, including NOD2 and the autophagy genes ATG16L1 and IRGM. IL10 and ECM1 are associated with UC, while inherited variation at the HLA region is related to an inflammatory colonic phenotype. The application of genome-wide association studies to inflammatory bowel disease has been successful in defining the genetic architecture of CD and UC and in delivering genuinely novel and important insights into disease pathogenesis. This has unearthed a plethora of attractive targets for the development of future therapeutics. Insights into the natural history of these complex diseases will follow and may enable appropriate patient selection for early aggressive therapy with the view to modifying the disease course.
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PMID:Genetics of inflammatory bowel disease: implications for disease pathogenesis and natural history. 1981 73

Paneth cells (PCs) are specialized epithelial cells predominantly found in the small intestinal crypts of Lieberkuehn. They produce different broad spectrum antimicrobial peptides most abundantly the alpha-defensins HD-5 and -6 (DEFA5 und DEFA6). Both these PC products show a specific reduction in small intestinal Crohn's disease (CD) - a form of inflammatory bowel disease (IBD). Their decrease is independent of current inflammation and an association with a NOD2 frameshift mutation has been demonstrated. More recently, another independent and even more frequent mechanism has been found which is linked to diminished levels of the Wnt pathway transcription factor TCF7L2 (also known as TCF4). Besides regulating the expression of HD-5 and HD-6 as TCF4 target genes, the Wnt pathway also orchestrates Paneth cell differentiation and maturation and controls stem cell maintenance in the small intestine. Besides NOD2 (which is predominantly expressed in PC) and ATG16L1 (inter alia important in the exocytosis of PC products), TCF4 is the third gene which is associated with small intestinal CD and Paneth cell antimicrobial function. Thus, Paneth cells seem to be key player emphazising a paramount importance of antimicrobial host defense in small intestinal CD pathogenesis.
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PMID:Innate antimicrobial host defense in small intestinal Crohn's disease. 1985 May 16

Twin studies and large-scale population studies have confirmed an increased sibling risk for both Crohn's disease (CD) and ulcerative colitis (UC). Unlike single gene disorders, CD and UC are thought to result from a complex interplay of multiple genes and environmental factors. The confirmation of CARD15/NOD2 as a CD susceptibility gene in the late 1990s caused much excitement in the field of complex diseases in general and since then, the rapid rate of progress in molecular genetics, with the advent of large-scale affordable genotyping techniques, has resulted in large collaborations and the identification of over 30 inflammatory bowel disease (IBD)-associated genes. In particular, the importance of the innate immune system has been reaffirmed with the identification of IRGM and ATG16L1 genes in the autophagy pathway as CD susceptibility genes. Disturbance in the adaptive immune system, in particular the IL-23/Th17 axis, has also shown to be of importance for IBD overall. In this era of genome-wide association studies it may be possible to, at last, identify the multiple genes involved in IBD and thus improve our understanding of the genotype-phenotype correlation and improve treatment.
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PMID:The genetic basis of inflammatory bowel disease. 1989 57

Autophagy is emerging as a crucial defense mechanism against bacteria, but the host intracellular sensors responsible for inducing autophagy in response to bacterial infection remain unknown. Here we demonstrated that the intracellular sensors Nod1 and Nod2 are critical for the autophagic response to invasive bacteria. By a mechanism independent of the adaptor RIP2 and transcription factor NF-kappaB, Nod1 and Nod2 recruited the autophagy protein ATG16L1 to the plasma membrane at the bacterial entry site. In cells homozygous for the Crohn's disease-associated NOD2 frameshift mutation, mutant Nod2 failed to recruit ATG16L1 to the plasma membrane and wrapping of invading bacteria by autophagosomes was impaired. Our results link bacterial sensing by Nod proteins to the induction of autophagy and provide a functional link between Nod2 and ATG16L1, which are encoded by two of the most important genes associated with Crohn's disease.
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PMID:Nod1 and Nod2 direct autophagy by recruiting ATG16L1 to the plasma membrane at the site of bacterial entry. 1989 71

Nucleotide-binding oligomerization domain-containing-2 (NOD2) acts as a bacterial sensor in dendritic cells (DCs), but it is not clear how bacterial recognition links with antigen presentation after NOD2 stimulation. NOD2 variants are associated with Crohn's disease, where breakdown in self-recognition of commensal bacteria leads to gastrointestinal inflammation. Here we show NOD2 triggering by muramyldipeptide induces autophagy in DCs. This effect requires receptor-interacting serine-threonine kinase-2 (RIPK-2), autophagy-related protein-5 (ATG5), ATG7 and ATG16L1 but not NLR family, pyrin domain containing-3 (NALP3).We show that NOD2-mediated autophagy is required for both bacterial handling and generation of major histocompatibility complex (MHC) class II antigen-specific CD4(+) T cell responses in DCs. DCs from individuals with Crohn's disease expressing Crohn's disease-associated NOD2 or ATG16L1 risk variants are defective in autophagy induction, bacterial trafficking and antigen presentation. Our findings link two Crohn's disease-associated susceptibility genes in a single functional pathway and reveal defects in this pathway in Crohn's disease DCs that could lead to bacterial persistence via impaired lysosomal destruction and immune mediated clearance.
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PMID:NOD2 stimulation induces autophagy in dendritic cells influencing bacterial handling and antigen presentation. 2150 12

The genetic component of Inflammatory Bowel Diseases is among the best known for complex genetic disorders. If the functional candidate gene approach was rarely fruitful in the past, genome-wide scans allowed finding several susceptibility genes for Crohn disease including NOD2, IL23R, ATG16L1, IRGM, TNFSF15, a region close to PTGER4, PTPN2, PTPN22, NKX2-3 and many others. Only one gene, ECM1, has been reported for ulcerative colitis alone. We now need to further explore these new genes before to understand their biological role. However they clearly demonstrate the importance of innate immunity and autophagy for Crohn's disease and of the TH-17 differentiation for ulcerative colitis, Crohn's disease and other inflammatory disorders.
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PMID:Inflammatory Bowel Diseases: the genetic revolution. 2011 35

Crohn's disease is a chronic inflammatory bowel disorder that has been associated with polymorphisms in the genes encoding the pattern-recognition receptor NOD2 and the autophagic regulator ATG16L1. A new study demonstrates that NOD2 recruits ATG16L1 at bacterial entry sites, thereby bridging innate immunity and autophagy.
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PMID:Bacterial invasion: linking autophagy and innate immunity. 2014 69

Autophagy is one of the main cellular degradation systems in eukaryotes, responsible for the elimination of long-lived proteins and damaged organelles. Besides its well-documented role as a housekeeping mechanism, autophagy has recently caught the attention of groups working in the fields of microbiology and immunology, especially those working in innate immunity. In particular, the highly specific segregation and degradation of intracellular bacteria by the autophagic machinery was a matter of great interest. However, it was still unclear how the autophagy machinery could target intracellular bacteria with such specificity. We have recently analyzed the role of the intracellular peptidoglycan (PG) receptors Nod1 and Nod2 as a link between intracellular bacterial sensing and the induction of autophagy. Our results demonstrated that Nod2 recruits the critical autophagy protein ATG16L1 to the plasma membrane during bacterial invasion and that cells expressing mutations in these proteins--two of the most important associated with Crohn disease--autophagy is defective upon infection or stimulation with the bacterial peptidoglycan fragment MDP. Thus, our findings put together two genes previously reported as independent risk factors for the development of Crohn disease and open a venue in the study of new therapies to cure the disease.
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PMID:Nod proteins link bacterial sensing and autophagy. 2020 Apr 79

Autophagy is important in immune cells as a means of disposing of pathogens and in connecting with the antigen presentation machinery to facilitate immune priming and initiation of a correctly targeted adaptive immune response. While Toll-like receptors (TLRs) are known to regulate autophagy in this context, the extent to which other pattern recognition receptors (PRRs) are involved has been unclear. NOD2 is an intracellular PRR of the Nod-like receptor (NLR) family that is notable in that variants in the ligand recognition domain are associated with Crohn disease (CD). Our recent study shows NOD2 activates autophagy in a manner requiring ATG16L1, another CD susceptibility gene. NOD2 autophagy induction is required for bacterial handling and MHC class II antigen presentation in human dendritic cells (DCs). CD patients DCs expressing CD risk variant NOD2 or ATG16L1 display reduced autophagy induction after NOD2 triggering resulting in reduced bacterial killing and defective antigen presentation. Aberrant bacterial handling and immune priming could act as a trigger for inflammation in CD.
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PMID:NOD2-mediated autophagy and Crohn disease. 2021 55

Inflammatory bowel diseases (IBD) are common inflammatory disorders of the gastrointestinal tract that include ulcerative colitis (UC) and Crohn's disease (CD). The incidences of IBD are high in North America and Europe, affecting as many as one in 500 people. These diseases are associated with high morbidity and mortality. Colorectal cancer risk is also increased in IBD, correlating with inflammation severity and duration. IBD are now recognized as complex multigenetic disorders involving at least 32 different risk loci. In 2007, two different autophagy-related genes, ATG16L1 (autophagy-related gene 16-like 1) and IRGM (immunity-related GTPase M) were shown to be specifically involved in CD susceptibility by three independent genome-wide association studies. Soon afterwards, more than forty studies confirmed the involvement of ATG16L1 and IRGM variants in CD susceptibility and gave new information on the importance of macroautophagy (hereafter referred to as autophagy) in the control of infection, inflammation, immunity and cancer. In this review, we discuss how such findings have undoubtedly changed our understanding of CD pathogenesis. A unifying autophagy model then emerges that may help in understanding the development of CD from bacterial infection, to inflammation and finally cancer. The Pandora's box is now open, releasing a wave of hope for new therapeutic strategies in treating Crohn's disease.
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PMID:Autophagy and Crohn's disease: at the crossroads of infection, inflammation, immunity, and cancer. 2054 Jul 3

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