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Assessment of the Immune Response to Tumor Cell Apoptosis and Efferocytosis

Apoptotic cells are cleared from the body principally through recognition and engulfment by neighboring phagocytes, a process known as efferocytosis. During efferocytosis, phagocytes are recruited to the site/activated by "find me" signals released from apoptotic cells, precisely identify apoptotic cells by the recognition of "eat me" signals on the apoptotic cell surface, and engulf the apoptotic cells to prevent secondary necrosis and inflammation. Thus, efferocytosis is critical for tissue homeostasis in normal physiology. However, efferocytosis of apoptotic tumor cells-performed by tumor-associated macrophages-suppresses immunity within the tumor microenvironment and limits the antitumor response. This phenomenon is further exacerbated in tumor residual disease because of the high apoptotic cell burden generated by cytotoxic therapies. Blocking efferocytosis could be a powerful approach to boost tumor immunogenicity, particularly as a combination approach with cytotoxic therapies that produce many apoptotic cells, but little is currently known about the immune response to efferocytosis. Moreover, there is a dearth of in vivo models available to study the immunologic and therapeutic consequences of blocking efferocytosis in tumor residual disease.Here, we describe a model that enables in vivo studies of tumor immunology in the aftermath of cytotoxic therapy with an emphasis on the impact of efferocytosis. Orthotopic HER2+ mammary tumors are established in immune-competent mice, followed by a single administration of lapatinib, a receptor tyrosine kinase inhibitor of HER2, to the mice that induces widespread, transient apoptosis in the tumor microenvironment. In the days following lapatinib treatment, agents that block efferocytosis such as BMS-777607 are administered. Tissue is collected from cohorts of mice at day 2 (after lapatinib treatment only) to assess apoptosis, day 8 (after lapatinib treatment followed by blockade of efferocytosis) to assess the immune response to apoptosis and efferocytosis, and day 28 (after 4 consecutive weeks of treatment) to assess therapeutic efficacy. This model enables mechanistic studies of tumor immunology in residual disease as well as therapeutic efficacy studies of targeted agents that disrupt efferocytosis.

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Cat.No. Product Name Information
S1561 BMS-777607 BMS-777607 (BMS 817378) is a Met-related inhibitor for c-Met, Axl, Ron and Tyro3 with IC50 of 3.9 nM, 1.1 nM, 1.8 nM and 4.3 nM in cell-free assays, 40-fold more selective for Met-related targets versus Lck, VEGFR-2, and TrkA/B, and more than 500-fold greater selectivity versus all other receptor and non receptor kinases.

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Tyro3 c-Met RON Axl