The Role of DNA Repair in the Pathogenesis of Activation Induced Cytidine Deaminase Dependent B Cell Lymphoma

Abstract

Abstract 397Upon antigenic stimulation of B cells, germinal centers (GCs) are formed where somatic hypermutation (SHM) and class switch recombination (CSR) of immunoglobulin (Ig) genes serve to diversify the immune response. SHM and CSR are initiated by the enzyme activation induced cytidine deaminase (AID) through the conversion of C/G base pairs to U-G mismatches. These mismatches are processed by UNG-dependent base excision repair (BER) and MSH2-dependent mismatch repair (MMR) pathways to yield mutations (for SHM) and DNA strand lesions (for CSR). Despite this essential role in immune diversification, the intrinsic activity of AID as a DNA mutator poses a threat to genomic integrity. Indeed, aberrant targeting of AID activity is associated with translocations and point mutations of proto-oncogenes associated with B cell malignancies. A specific dependence on AID in the pathogenesis of lymphomas of GC B cell origin is exemplified in Iμ-Bcl6 knock-in mice. These mice develop a diffuse large B cell lymphoma (DLBL) that resembles the human disease but are protected from development of this lymphoma when crossed onto an Aid-deficient background. To investigate the role of Aid-associated DNA repair in the pathogenesis of this disease, we crossed Iμ-Bcl6 mice onto a background deficient in BER (Ung−/−) and MMR (Msh2−/−). Young healthy Iμ-Bcl6 and Iμ-Bcl6 Ung−/−Msh2−/− mice displayed a normal number and distribution of B cells and normal architecture of lymphoid organs. Five of 28 Iμ-Bcl6 mice (17.9%) became sick starting at ∼12 months of age. Historically, median survival in these mice has not been reached and ∼80% survive to 15 months. In contrast, 21 of 28 Iμ-Bcl6 Ung−/−Msh2−/−mice (75%) developed disease with an onset of ∼3 months and had a median survival of 6.2 months (p<0.0001). All 5 of the Iμ-Bcl6 mice and the majority of Iμ-Bcl6 Ung−/−Msh2−/−mice developed B cell lymphoma with splenic involvement and variable nodal involvement. Five of the Iμ-Bcl6 Ung−/−Msh2−/−mice developed other cancers (3 T cell lymphomas, 1 pre-B cell lymphoma and 1 colon adenocarcinoma). Tumors from both genotypes expressed a mature B cell phenotype (B220+ IgM+ Igκ+ CD138-) and morphology revealed loss of normal lymphoid architecture with infiltration by lymphoid blasts. Additional staining demonstrated expression of at least one GC marker (Fas, GL7 and/or PNA). Similar to Iμ-Bcl6 mice, while many of the Iμ-Bcl6 Ung−/−Msh2−/−tumors had clonal mutated Ig heavy chain gene variable regions, two of the tumors were identified as oligoclonal, suggesting a preceding lymphoproliferative stage. In the absence of Ung and Msh2, Aid-generated U-G mismatches are not recognized and are simply replicated, causing only C/G to T/A transition mutations and no strand lesions. Thus, as expected, all Ig mutations in Iμ-Bcl6 Ung−/−Msh2−/−mice were C/G to T/A transitions. Lymphomas from Iμ-Bcl6 mice have been found to harbor numerous chromosome translocations and aneuploidies. Although additional analyses are underway, spectral karyotyping of 3 Iμ-Bcl6 Ung−/−Msh2−/−tumors revealed 2 with normal cytogenetics and 1 with a 40–41,XX,t(2;17),+15,+19. Surprisingly, sequence analysis of several known Aid target genes (cMyc, Pim1, RhoH, Pax5, Cd79a, Fas, H2ax and OcaB) in tumors from 3 Iμ-Bcl6 Ung−/−Msh2−/− mice did not identify any clonal mutations. However, non-clonal C/T to T/A transition mutations in cMyc were present at a frequency of 1.2 × 10−4, suggestive of ongoing Aid activity. The presence of Aid activity but absence of off-target Aid-mediated clonal SHM suggests that either other genes are targeted by Aid or that Aid has a secondary role in lymphomagenesis such as epigenetic reprogramming, as has been shown in iPS cells. Nonetheless, the incidence of Aid-dependent lymphomagenesis in the absence of Aid-associated DNA repair is significantly increased and the latency is greatly shortened. Altogether, this data suggests that Aid-associated BER and MMR pathways afford a protective effect against the development of Aid-dependent GC B cell lymphomas such as DLBL. To investigate the role of the individual Aid-associated DNA repair pathways, we have also generated Iμ-Bcl6 Ung−/− and Iμ-Bcl6 Msh2−/− single knockout mice. These studies are ongoing but preliminary results suggest that while the effect of Ung and Msh2 deficiency on lymphomagenesis may be synergistic, Msh2 might play a more critical role in preventing Aid-mediated genomic instability. Disclosures:No relevant conflicts of interest to declare.