Abstract
Certain NOD2 protein mutations have been associated with the onset of the inflammatory bowel disease, Crohn’s Disease (CD). NOD2 is involved in the inflammatory response of the gut to the microbial community, wherein its functional impairment through mutations may lead to CD progression. Considering the significant role that NOD2 plays in CD pathogenesis, predicting whether a specific type of NOD2 mutation is the cause of CD can greatly aid the accuracy of the disease diagnosis. Hence, a novel sequence-based classification algorithm built on artificial neural network (ANN) is herein presented that can predict whether a specific NOD2 mutation can cause CD or not. The NOD2 mutant types and their association with CD were taken from literature, and the calculated sequence-order coupling numbers were used as the classification predictors. The formulated ANN classifier exhibited satisfactory predictive ability, with 82.4 % accuracy, 62.5 % sensitivity, 100 % specificity, 100 % positive predictive value, and 75 % negative predictive value. The presented ANN classifier provides a proof-of-concept that predicting the onset of CD from NOD2 protein variant is possible.
Highlights
Crohn’s Disease (CD) is characterized by chronic transmural inflammation of the gastrointestinal tract
This protein plays a critical role in microbe / pathogen sensing, wherein the leucine-rich region of NOD2 binds to the muramyl dipeptide (MDP) of the bacterial cell wall
Variations between disease-causing mutants (DCM) and non-disease-causing mutants (NDCM) NOD2 mutants based on the location, and nature of the mutations were observed
Summary
Crohn’s Disease (CD) is characterized by chronic transmural inflammation of the gastrointestinal tract. Pathogenesis of CD is multifactorial, wherein one of the key drivers of the disease involves mutations in the NOD2 protein (Yamamoto and Ma 2009). NOD2 is encoded by the CARD15 gene in the human chromosome 16 (Strober and Watanabe 2011). This protein plays a critical role in microbe / pathogen sensing, wherein the leucine-rich region of NOD2 binds to the muramyl dipeptide (MDP) of the bacterial cell wall. NOD2 mutations may lead to the impaired regulation and response of the host to bacterial interactions, which increases the risk to unusual ileal inflammation (Sidiq et al 2016)
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