Abstract
Targeted antibody therapies improve outcomes for chronic lymphocytic leukemia (CLL) patients. However, resistance often develops. We have previously shown that resistance to therapeutic antibodies, by monocyte derived macrophages (referred to as nurse like cells, NLCs), from CLL patients is characterized by suppression of antibody dependent phagocytosis (ADP). The mechanism(s) contributing to the muted ADP responses remain unresolved. In this regard, an innate immune checkpoint was recently described that uses the CD47:SIRPα axis to suppress phagocytic responses by macrophages. In this study we examine whether the SIRPα axis regulates ADP responses to the anti-CD20 antibody, obinutuzumab, by NLCs. Using siRNA depletion strategies we show that SIRPα is a suppressor of ADP responses. Moreover, we show that this innate immune checkpoint contributes to the resistance phenotype in NLCs derived from CLL patients. Finally, we show that SIRPα suppression is mediated via the phosphatase, Shp1, which in turn suppresses SYK-dependent activation of ADP. Thus, we identify a druggable pathway that could be exploited to enhance sensitivity to existing therapeutic antibodies used in CLL. This is the first study to show that activation of the CD47:SIRPα innate immune checkpoint contributes to ADP resistance in NLCs from CLL patients.
Highlights
Macrophages are a cellular effector of antibody-dependent phagocytosis (ADP) [1,2,3,4]
nurse like cells (NLCs) derived from patients with stable/early disease mount a robust ADP response in which 30–60% of the NLCs participate in ADP against obinutuzumab or rituximab-opsonised chronic lymphocytic leukemia (CLL) cells [1, 14]
In this study we explore the possibility that the CD47:SIRPa immune checkpoint may be a negative regulator of ADP responses in NLCs derived from CLL patients
Summary
Macrophages are a cellular effector of antibody-dependent phagocytosis (ADP) [1,2,3,4]. NLCs derived from patients with stable/early disease mount a robust ADP response in which 30–60% of the NLCs participate in ADP against obinutuzumab or rituximab-opsonised CLL cells [1, 14]. We refer to these NLCs as “sensitive” [1, 14]. Less than 10% of NLCs participate in ADP responses to antibody-opsonized CLL cells [1, 14] We refer to these NLCs as “resistant.” This resistance to therapeutic antibodies is reversible and actionable [1, 14]. The use of FcgRIIB blocking antibodies, HDAC7-selective inhibitors, and SHIP1 inhibitors have all been shown to enhance ADP responses in phenotypically resistant NLCs [1, 16, 17]
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