Mechanism of RAG Regulation During Its Physiological and Pathological Functions in Lymphoid Cells

RAGs (Recombination Activating Genes) are responsible for generation of antigen receptor diversity in case of B-cells and T-cells, through the process of combinatorial joining of different V (variable), D (diversity) and J (joining) gene segments. Each of these segments are flanked by recombination signal sequences (RSS), which consist of a conserved heptamer and nonamer separated by a less conserved spacer of 12 or 23 bp. RAGs recognize and cleave at the 5’ end of heptamer, leading to the formation of hairpin coding ends and blunt signal ends. The coding ends are joined through the process of no homologous DNA end joining (NHEJ), leading to the rearrangement of variable region of antigen receptors. Apart from its physiological property, RAGs can also act as a structure-specific nuclease. Previously, it has been shown that inadvertent action of RAGs on cryptic RSS and non B-DNA structures can lead to the generation of genomic instability and cancer. A very coordinated expression of RAGs has been observed in pro- and pre-B cells of the lymphoid system, which overlaps with the window of productive rearrangement during V(D)J recombination. Besides, studies by us and others have shown that RAG cleavage at altered DNA structures and cryptic RSS leads to chromosomal translocations resulting into cancer. However, several questions related to regulation of RAG expression and its activity in lymphoid cells remains to be answered. Previous studies have suggested regulation of RAG expression at different levels, such as methylation, ubiquitination, phosphorylation and by coordinate action of various transcription factors. In the present study, we evaluate the potential role of miRNAs in the regulation of RAG expression and its function in lymphoid cells. miRNAs are small, single-stranded non-coding RNAs, which play an important role in the regulation of gene expression. They play a critical role in the regulation of different cellular functions. Although there are miRNAs identified to play critical role during development of immune system, several key questions such as its role in the regulation of RAGs is yet to be addressed. In the current study, we have used bioinformatics approach to extract potential miRNAs that bind to 3’UTR of RAG1 and RAG2. miRNA expression datasets were downloaded from NCBI SRA database and extensive evaluation was done using various bioinformatics tools such as Bowtie, Sam tools, Bam tools, Bed tools and R package. We screened the miRNA expression profile across different stages of B-cell development (pro, pre, immature and mature B-cells), which overlap with the narrow window of RAG expression. The shortlisted miRNAs were further analyzed using miRNA databases such as miRBase, Targetscan and EMBL. Results showed that 33 miRNAs were specific to RAG1, among that one (miRNA1) followed RAG expression profile in B-cells. Besides miRNA2, which is a novel miRNA, was selected only on the basis of RAGs expression profile in a stage specific manner and the complementarity of the seed sequence of miRNA2 to…