Abstract
Antigen receptor gene assembly is accomplished in developing lymphocytes by the V(D)J recombination reaction, which can be separated into two steps: DNA cleavage by the recombination-activating gene (RAG) nuclease and joining of DNA double strand breaks (DSBs) by components of the nonhomologous end joining (NHEJ) pathway. Deficiencies for NHEJ factors can result in immunodeficiency and a propensity to accumulate genomic instability, thus highlighting the importance of identifying all players in this process and deciphering their functions. Bcl2 transgenic v-Abl kinase-transformed pro-B cells provide a pseudo-physiological cellular system to study V(D)J recombination. Treatment of v-Abl/Bcl2 pro-B cells with the Abl kinase inhibitor Imatinib leads to G1 cell cycle arrest, the rapid induction of Rag1/2 gene expression and V(D)J recombination. In this system, the Bcl2 transgene alleviates Imatinib-induced apoptosis enabling the analysis of induced V(D)J recombination. Although powerful, the use of mouse models carrying the Bcl2 transgene for the generation of v-Abl pro-B cell lines is time and money consuming. Here, we describe a method for generating v-Abl/Bcl2 pro-B cell lines from wild type mice and for performing gene knock-out using episomal CRISPR/Cas9 targeting vectors. Using this approach, we generated distinct NHEJ-deficient pro-B cell lines and quantified V(D)J recombination levels in these cells. Furthermore, this methodology can be adapted to generate pro-B cell lines deficient for any gene suspected to play a role in V(D)J recombination, and more generally DSB repair.
Highlights
Mammalian cells employ two canonical mechanisms to repair DNA double-strand breaks: homologous recombination (HR) and nonhomologous end joining (NHEJ) (Symington and Gautier, 2011)
Flow cytometry analysis showed robust levels of pMX-INV rearrangement in wild type v-Abl proB cells treated with STI-571 for 3 days (53%, Fig. 3C, D) (Lescale et al, 2016a; Lescale et al, 2016b)
These results indicate that, as previously reported in the context of v-Abl pro-B cells carrying a Eμ-Bcl2 transgene (Bredemeyer et al, 2006), deregulating expression of Bcl2 by mean of a retrovirus abolishes STI-571 induced apoptosis in vAbl pro-B cells enabling the study of V(D)J recombination in G1-arrested pro-B cells
Summary
Mammalian cells employ two canonical mechanisms to repair DNA double-strand breaks: homologous recombination (HR) and nonhomologous end joining (NHEJ) (Symington and Gautier, 2011). As highlighted by the data outlined above, the V(D)J recombination reaction is cell cycle stage specific (i.e. G1-arrested progenitor lymphocytes), generates unique structures of DNA ends (i.e. coding and signal ends) and relies on NHEJ, and, to a lesser extent, the ATM-dependent DNA damage response machinery. It provides a unique physiological system to discover novel DSB repair factors and elucidate their precise functions. This methodology can be adapted to generate pro-B cell lines deficient for any gene suspected to play a role in V(D)J recombination, and more generally DSB repair
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