Immunoliposomal Delivery of Mir-29b By Targeting Tumor Antigen ROR1 Induces Epigenetic Reprograming in Human-ROR1-Expressed Mouse Model of Chronic Lymphocytic Leukemia

Chronic lymphocytic leukemia (CLL), characterized by accumulation of CD5+CD19+sIgM+ B lymphocytes in peripheral blood and lymphoid organs, is classified into indolent and aggressive forms. Patients with indolent CLL generally survive 5 to 10 years and do not require treatment until severe symptoms, while those with aggressive CLL show resistant to standard treatment and survive less than 24 months. While emerging B cell antigen receptor directed therapies are promising, resistance to such therapies pose problems warranting novel therapeutic approaches. MicroRNA (miR) profiling revealed lower expression of miR-29b in aggressive CLL associated with survival, drug resistance and poor prognosis via its up-regulation of anti-apoptotic proteins myeloid leukemia cell differentiation protein 1 (Mcl1) and oncogenic T-cell leukemia 1 (Tcl1). Thus, specific overexpression of miR-29b in B-CLL cells could be a potential therapy for aggressive CLL patients. Despite the promise, short circulation half-life, limited cellular uptake and off-target effects on non-desirable tissues pose a challenge for miR-based therapies. To promote efficiency and specificity of miR-29b delivery, we developed neutral immunonanoparticles with selectivity to CLL via targeting tumor antigen ROR1, which is expressed in over 95% of CLL but not normal B cells. We optimized a novel 2A2-immunoliposome (2A2-ILP) recognizing surface ROR1 on primary CLL cell to promote internalization and miR-29b uptake (n=6, p=0.042*). About 20-fold increased uptake of miR-29b was achieved with 2A2-ILP-miR-29b formulation compared to control. Further ROR1 targeted delivery of miR29b resulted in significant downregulation of DNMT1 and DNMT3a mRNA and protein (n=3, DNMT1: p= 0.0115*; DNMT3a: p=0.0231*, SP1; p=0.0031**) in primary CLL cells and a human CLL cell line OSU-CLL. Consistent with the downregulation of DNMTs, decreased global DNA methylation was observed in OSU-CLL cell line one week post- treatment with 2A2-ILP-miR-29b (n=3, p=0.0003***). To further study the in vivo ROR1-targeting efficiency of 2A2-ILP-miR-29b, we used our recently described Eµ-hROR1x Tcl1 CLL mouse model that develops CLL like disease with human ROR1 antigen in leukemic CD19+CD5+ B cells. Using  hROR1+CD19+CD5+ leukemic cell engraftment model, we showed significant in-vivo efficacy of ROR1-ILP-miR-29b formulation associated with a) decreased number of circulating leukemic B220+CD5+ cells b) reduced splenomegaly (p=0.0461*, 2A2-29b: n=9; PBS: n=8) c) with extended survival (p=0.0075**, 2A2-29b: n=9; IgG-29b: n=7; 2A2-SC: n=7; PBS: n=8). In summary, 2A2-ILP effectively delivered functional miR-29b, resulting in downregulation of DNMT1 and DNMT3a, reduction of hypermethylation and anti-leukemic activity. Ongoing studies are aimed at understanding miR-29b mediated in-vivo methylome reprograming using our novel hROR1xTcl1 transgenic mouse model and ROR1-targeted miR-29b delivery formulation.