Abstract 3893: Obinutuzumab (GA101) versus rituximab against rituximab-sensitive and -resistant Burkitt lymphoma (BL) differentially phosphorylate BCR, Fc-gamma receptor, and natural killer cell-mediated cytotoxicity signaling pathways

Abstract

Abstract Background: Burkitt Lymphoma (BL) is the most common NHL in children and adolescents and has an excellent prognosis (≥80% 5years, EFS, Cairo et al. Blood, 2007) and further improved with the addition of rituximab (Goldman/Cairo et al, Leukemia, 2013, Cairo et al. JCO, 2012). However, a subset of patients with chemoimmunotherapy resistant disease has a dismal prognosis (≤ 10% 5 years, EFS) (Miles/Cairo et al. BJH, 2012, Barth et al. BJH, 2013). Obinutuzumab, a novel glycoengineered type II CD20 Ab, mediates enhanced cell death & ADCC against B-cell lymphoma vs. RTX (Awasthi/Cairo et al. BJH, 2015), and was recently FDA and EMA approved for first line treatment of CLL in combination with chlorambucil. Objective: To evaluate phosphorylation of signaling pathway altered differentially following obinutuzumab vs RTX against RTX-sensitive/resistant BL Methods: Raji (CD20+) and Raji-4RH) cells were cultured in RPMI with 10% FBS. Tumor cells were incubated with 100 μg/ml obinutuzumab, and/or RTX for 24 hrs. For phosphoproteomics analysis, we performed a mass spectrometry-based label-free quantitative phosphoproteomic profiling of the BL cell lines Raji /Raji4RH in the presence/absence of obinutuzumab or rituximab or isotype control. Silencing of PLCG2 (Dharmacon, USA) and MAPK1 (Sigma Aldrich, USA) in Raji/Raji4RH cell lines was carried out according to the manufacturer's instructions Results: In all 978 unique phosphorylated proteins were identified. Out of these 661 phosphoproteins were identified after obinutuzumab vs. 615 in RTX treatment, respectively. For the Raji4RH, 534 phosphoproteins were identified after obinutuzumab and 534 in RTX treatment, respectively (Fig.1). Functional annotation of proteins differentially phosphorylated in response to obinutuzumab vs. RTX (>1.5-fold) reveals the involvement of the BCR (PLCG2, BTK & GSK3B), FC gamma phagocytosis (FCRG2B, MAPK1 & RAF1), and Natural killer cell-mediated cytotoxicity (MAPK1, RAF1& PLCG2) signaling pathways (Fig. 2). Differential phosphorylations of proteins involved in BCR or cytotoxicity pathways were validated by western blot after incubation with obinutuzumab vs. RTX in Raji/ Raji4RH cell lines, revealed up regulation of BTK, PLCY2 and ERK1/RAF1 after obinutuzumab vs. RTX treatment in Raji. Silencing, of PLCG2 and MAPK1 pathway, significantly increased cell proliferation and decreased cytotoxicity after obinutuzumab treatment in Raji (P = 0.0002 & 0.000002) but no change in Raji4RH. Conclusions: Obinutuzumab and RTX differentially phosphorylate BCR, and cytotoxicity signaling pathways. Obinutuzumab function differentially in RTX resistant and sensitive BL cell lines which may provide insights into alternate therapeutic strategy in RTX resistant BL. Citation Format: Aradhana Awasthi Tiwari, Delphine C.m. Rolland, Mona Elmacken, Janet Ayello, Lisa Kurien, Carmella van de Ven, Venkatesha Basrur, Kevin Conlon, Damine Fermin, Matthew J. Barth, Christian Klein, Kojo S.j. Elenitoba-Johnson, Megan Lim, Mitchell S. Cairo. Obinutuzumab (GA101) versus rituximab against rituximab-sensitive and -resistant Burkitt lymphoma (BL) differentially phosphorylate BCR, Fc-gamma receptor, and natural killer cell-mediated cytotoxicity signaling pathways. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 3893.