Abstract
Multiple myeloma (MM) cells are derived from mature B cells based on immunoglobulin heavy chain (IgH) gene analysis. The onset of MM is often caused by a reciprocal chromosomal translocation (cTr) between chr 14 with IgH and chr 11 with CCND1. We propose that mature B cells gain the potential to transform by reprograming, and the resulting chromosomal aberrations subsequently cause the development of abnormal B cells as a myeloma-initiating cell during B cell redifferentiation. To study myeloma-initiating cells, we previously established normal B cell-derived induced pluripotent stem cells (BiPSCs: BiPSC13 and MIB2-6); these BiPSCs have the same VDJ rearrangement of IgH as the original B lymphocytes and induce the expression of activation-induced cytidine deaminase (AID) by the Tet-off system (Sci Rep, 2017). Subsequently, we established two BiPSCs with reciprocal cTr t(11;14) using the CRISPR/Cas9 system; the cleavage site were located in the IgH Eμ region of either the VDJ rearranged allele or non-rearranged allele of IgH and the 5′-upsteam region of the CCND1 (two types of BiPSC13 with t(11;14) and MIB2-6 with t(11;14)). Furthermore, p53 was deleted using the CRISPR/Cas9 system in BiPSC13 with t(11;14) carrying the DJ-rearranged allele of IgH that reciprocally translocated with CCND1 (G28). All these BiPSCs differentiated into hematopoietic progenitor cells (HPCs) (Sci Res, 2021). Next, we created AID fused with the hormone-binding domain of the estrogen receptor T2 mutant (AID-ER) to analyze the function of AID. The ER sequence of pCAG-ERT2CreERT2 (Addgene # 13777) was amplified by PCR and cloned into the downstream part of the TREtight promoter of pRetroX-Tight-Hyg as an open reading frame using an In-Fusion HD cloning kit. The ER sequence was also cloned into the same vector as a negative control for the analysis of AID function. These vectors were packaged into a retrovirus using gp293 and pMD2.G, and the viruses were infected into HEK293 cells expressing Tet-off transcription factor and fluorescence-deficient EGFP, in which the artificially-introduced stop codon was at the 106 thcodon of the EGFP gene. The expression of AID-ER fusion protein was induced by removal of doxycycline three days before analysis. AID activity was induced by the addition of 4-hydroxytamoxifen, an agonist of ER mutants, one day before analysis. Therefore, AID activity was monitored by detecting the frequency of EGFP-positive cells, i.e., the recovery of fluorescence, by flow-cytometry. Mutation of the artificial stop codon (from TAG to TAC; from stop codon to Tyrosine) was confirmed by sequencing the EGFP DNA amplified by PCR from the sorted EGFP-positive cells. Subsequently, we examined the introduction of mutated KRAS and NRAS genes into G28, because the most frequently occurring mutations in patients with MM are in KRAS and NRAS. Mutated KRAS (G12A) and NRAS (G13D) were amplified by RT-PCR from poly (A) mRNA of MM.1S and KMM1 of MM cell lines, respectively. After confirming the sequence of these mutants, the mutant cDNA of KRAS or NRAS was cloned into pRetroX-Tight-Hyg in combination with AID-ER. These two vectors were packaged into retroviruses, following which the viruses were infected into BiPSC13 with t(11;14) expressing Tet-off transcription factors, respectively. These BiPSCs also differentiated into HPCs. However, unlike cord blood, these HPCs did not differentiate into B lymphocytes by co-culture with BM stromal cell (MS-5). Therefore, further ingenuity is required to differentiate the BiPSC-derived HPCs into B lymphocytes.
No relevant conflicts of interest to declare.
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