Several combinations of genetic predisposing factors to CD have been described, with the most significant replicable associations including genes for intracellular receptor of bacterial cell walls (NOD2/CARD15), and for bacterial clearance and antigen processing through autophagy (ATG16L1 and IRGM).
This article reviews in detail the studies performed on human samples, in vitro, and in sequence analyses that provide evidence for the unusual evolutionary history of the IRGM locus and the important role of the IRGM gene in autophagy and Crohn's disease in response to pathogenesis.
The discovery of the autophagy genes ATG16L1 and IRGM as risk factors for Crohn's disease turned autophagy into the spotlight in inflammatory bowel disease (IBD).
These results suggest that the association of IRGM with Crohn's disease arises from a miRNA-based alteration in IRGM regulation that affects the efficacy of autophagy, thereby implicating a synonymous polymorphism as a likely causal variant.
These results suggest that the association of IRGM with Crohn's disease arises from a miRNA-based alteration in IRGM regulation that affects the efficacy of autophagy, thereby implicating a synonymous polymorphism as a likely causal variant.
For Crohn's disease, defective processing of intracellular bacteria has become a central theme, following gene discoveries in autophagy and innate immunity (associations with NOD2, IRGM, ATG16L1 are specific to Crohn's disease).
We recently showed that miR-196 is overexpressed in the inflammatory intestinal epithelia of individuals with CD and downregulates the IRGM protective (c.313C) but not the risk-associated (c.313T) allele.
The autophagy pathway has been linked with Crohn's disease (CD) through association of the ATG16L1 and IRGM genes with susceptibility for CD, and also to the Nod2 pathway, involved in CD.
In recent years considerable advances in understanding the pathogenesis of Crohn disease have been achieved, with the identification of susceptibility variants of genes that are part of the autophagy machinery, i.e., ATG16L1 and IRGM.
Colon-only CD (n = 228) was compared with healthy controls: three of six UC SNPs (in MST1, HLA-DRA, and IL-23R) and 11 of 34 CD SNPs: in IRGM, NOD2 (rs2066845), CCNY, MST1, IL23R, PTPN22, C11orf30, ZNF365, PTPN2, PSMG1, and rs1456893 were significantly associated.
The associated polymorphisms in ATG16L1 and IRGM have been confirmed, and functional studies have begun to shed light on how they link to CD pathogenesis.
: Single-nucleotide polymorphism rs4958847 in the IRGM gene correlated very significantly with frequency of surgery in patients with ileocolonic Crohn's disease.
Autophagy-related 16 like-1 (ATG16L-1), immunity-related GTPase-M (IRGM), and nucleotide-binding oligomerization domain-containing 2 (NOD2) regulate autophagy, and variants in these genes have been associated with predisposition to Crohn's disease (CD).
Indeed, genes important in the regulation of the IL-17-IL-23 pathway and, in Crohn's disease, genes important for autophagy (that is, NOD2 and ATG16L1 and IRGM) have a role in conferring susceptibility of individuals to these diseases.
IRGM SNP rs10065172 was significantly associated with CD susceptibility in terms of allelic frequency (P = 0.004; odds ratio [OR] = 1.42) and genotype frequency (dominant model, P = 0.008; OR = 1.62).
There is a significant association of CD with the single nucleotide polymorphisms (SNPs) in ATG16L1 (odds ratio [OR] 1.36 [1.15-1.60], P = 2.7 × 10(-6) for allele G), IRGM (OR 1.56 [1.21-1.93], P = 3.9 × 10(-4) for allele C), and ITLN1 (OR 1.55 [1.28-1.88], P = 4.9 × 10(-4) for allele C).