吞噬作用
巨噬细胞
免疫疗法
化学
微生物学
免疫学
医学
生物
生物化学
免疫系统
体外
作者
Anujan Ramesh,Sahana Kumar,Anh Nguyen,Anthony Brouillard,Ashish Kulkarni
出处
期刊:Nanoscale
[The Royal Society of Chemistry]
日期:2020-01-01
卷期号:12 (3): 1875-1885
被引量:23
摘要
Tumor associated macrophages (TAMs) play an important role in initiating the immunosuppressive environment that negatively impacts the immunotherapy efficacy and has long been linked with cancer progression. On the other hand, activated macrophages display immense phagocytic potential and can be used as an effector cell for cancer therapy. But, activating TAMs to effectively phagocytose cancer cells is challenging. Cancer cells upregulate CD47, a "don't eat me" receptor that ligates with SIRPα present on macrophages to downregulate the phagocytosis. Since phagocytosis is a physical phenomenon based on engulfment of aberrant cells, we hypothesized that the phagocytic function of macrophages can be enhanced by blocking both CD47 and SIRPα in tandem and at the same time, engaging both macrophages and cancer cells can favor increased macrophage-cancer cellular interactions. Here, we demonstrate that a simple approach of anti-CD47 and anti-SIRPα antibodies conjugated lipid-based phagocytosis nanoenhancer (LPN) can perform both of these functions. The LPNs were stable in both physiological and biologically relevant conditions, bound to both macrophages and cancer cells and significantly enhanced phagocytosis of cancer cells as compared to combination of free antibodies. LPN treatment showed significant tumor growth inhibition and increased survival in B16F10 melanoma tumor bearing mice with no systemic toxicity. Mechanistic analysis of efficacy revealed an increase in intra-tumoral infiltration of effector T cells and NK cells. Cytokine analysis revealed increased secretion of intracellular iNOS, a hallmark of activated macrophages. This study shows that LPN can simultaneously block both CD47 and SIRPα and can effectively engage macrophage and cancer cell in close proximity. Combining these facets provide a simple approach to enhance phagocytosis and improve anti-cancer macrophage immunotherapy.
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