Abstract

Abstract Background. Marginal zone lymphoma (MZL) is a heterogeneous B-cell malignancy for which no standard treatment exists. B-cell receptor (BCR) signaling dysregulation is a hallmark of MZL and can mimic antigen dependent BCR activation. However, single treatment with BCR signaling inhibitors shows limited complete response rate and relapsing patients. IRAK4 is a protein kinase downstream the Toll-like receptor signaling. CA-4948 is the first-in-class inhibitor of IRAK4 and it is in phase 1/2 studies for patients with relapsed/refractory clinical studies with favorable activity in lymphomas and myeloid neoplasms. Here, we assessed IRAK4 inhibition with CA-4948 against a panel of MZL cell lines in which we have developed secondary resistance to inhibitors of PI3K (idelalisib, copanlisib) or BTK (ibrutinib). Methods. Models with secondary resistance were developed by continuous exposing cell lines derived from splenic MZL (Karpas 1718 and VL51) to high doses of drugs for long period of times. Resistant and parental lines were exposed to increasing doses of CA-4948, alone or in combination with compounds they are resistant to. Cell viability was tested by MTT assay (72h treatment). Synergy of combinations was evaluated according to the Chou-Talalay combination index (CI), as well as potency and efficacy, estimated according to the MuSyC algorithm. Results. The parental Karpas1718, bearing a MYD88 L265P mutation, had an IC50 of 3.29 µM for CA-4948 as single agent, while the parental VL51 and all resistant models presented IC50 values in the range of 19-35 µM. IRAK4 inhibition with CA-4948 had strong benefit when combined to downstream BCR inhibitors. In resistant cells, CA-4948 was strongly synergistic with idelalisib, ibrutinib and, at lesser extent, with copanlisib. CA-4948 in combination with ibrutinib was strongly synergistic especially in the VL51 ibrutinib resistant model compared to the parental one. CA-4948 (from 1 to 5 µM) recovered sensitivity to ibrutinib at IC50 values close to the parental condition. Similarly, CA-4948 in combination with idelalisib was also synergistic and increased sensitivity to idelalisib in idelalisib resistant VL51. Less benefit was seen adding CA-4948 to copanlisib: the combination was synergistic in VL51 parental cell, but with only weak efficacy. In the Karpas1718, CA-4948 was synergistic either in idelalisib resistant or in parental, with improved benefit in the latter, in which synergistic effect was observed when combined with both idelalisib and ibrutinib. The synergistic activity of CA-4948 was mainly due to improved efficacy rather than potency of the combinatorial partners. Conclusions. Our results in MZL cell lines show that the IRAK4 inhibitor CA-4948 is synergistic with small molecules targeting BCR signaling, especially with idelalisib and ibrutinib. Data also suggest that concentrations of CA-4948 comparable to those achieved in patients might overcome or reduce secondary resistance to the tested tyrosine kinase inhibitors. Citation Format: Francesca Guidetti, Alberto J. Arribas, Filippo Spriano, Laura Barnabei, Reinhard von Roemeling, Elizabeth Martinez, Emanuele Zucca, Francesco Bertoni. Pharmacological inhibition of IRAK4 with CA-4948 is beneficial in marginal zone lymphoma models with secondary resistance to PI3K and BTK inhibitors [abstract]. In: Proceedings of the AACR-NCI-EORTC Virtual International Conference on Molecular Targets and Cancer Therapeutics; 2021 Oct 7-10. Philadelphia (PA): AACR; Mol Cancer Ther 2021;20(12 Suppl):Abstract nr P073.

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