In silico screening of proteins targeting circulating miRNAs for improved diagnosis of multiple myeloma

Abstract

Multiple Myeloma (MM) is a B-cell malignancy, which is characterized by the expansion of clonal plasma cells in the bone marrow, leading to abnormal accumulation of monoclonal antibodies in circulation. Certain circulating miRNAs are deregulated in MM and their differential expression profiles in body fluids can be quantified and used to discriminate between the premalignant and malignant stages of MM. Our study identifies protein which would show affinity for a selected panel of circulating miRNAs deregulated in MM. Human RNA binding proteins were identified based on their unique RNA binding domains and their interacting probabilities with the panel of miRNAs deregulated in MM. miR-26 was used as a negative control for interaction studies. 3-D structure of candidate proteins were determined and molecular docking was performed to confirm the results. Five RNA binding proteins TROVE2, CUGBP2, DHX8, PUM2 and DKC1 were used for molecular docking studies. DKC1 showed significant hydrogen bonding as well as remarkable binding affinity values of −17.4 kcal/mol with miR-720 (2 H-bonds), −16 kcal/mol with miR-1246 (1 H-bond) and −16.9 kcal/mol with miR-1308 (3 H-bonds). Identified protein-miRNA interaction could be used to develop an economical and reliable ELISA based methodology for improved and sensitive diagnosis of MM patients.