一种基于细菌和神经节苷脂的纳米粒子可启动巨噬细胞重编程并促进抗肿瘤表型

Rydell Alvarez-Arzola, Liliana Oliver, Michelle M. Messmer, Danielle Y.F. Twum, Kelvin P. Lee, Jason B. Muhitch, Circe Mesa, Scott I. Abrams
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摘要

摘要 巨噬细胞是肿瘤微环境中最丰富的免疫成分,经常表现出有助于疾病进展的原肿瘤性(M2样)表型。尽管巨噬细胞具有公认的原发肿瘤作用,但它们也可表现出杀瘤(或 M1 样)行为,这表明巨噬细胞可根据肿瘤微环境中接收到的线索进行功能重编程。此外,这种可塑性还可以通过药物或生物干预来实现。为此,我们之前证明了一种被称为 "极小粒径颗粒"(VSSP)的新型免疫调节剂能促进树突状细胞的成熟和髓源性抑制细胞的分化,使癌症模型中的APC具有更低的抑制活性。研究进一步表明,在骨髓紧急造血过程中,VSSP 可在骨髓中发挥作用,推动祖细胞向单核细胞、巨噬细胞和树突状细胞分化。然而,VSSP 驱动髓系分化和功能改变的潜在机制仍不清楚。在本研究中,我们在小鼠模型中重点研究了巨噬细胞,并检验了 VSSP 通过 IRF8- 和 PU.1 依赖性机制驱动巨噬细胞向 M1 类功能状态发展的假设。我们进一步假设,这种由 VSSP 介导的作用将伴随着抗肿瘤反应的增强。总之,我们的研究表明:(1)VSSP 促使天真或 M2 衍生的巨噬细胞进入 M1 样态;(2)VSSP 诱导的 M1 样态是通过 IRF8- 和 PU.1 依赖性机制发生的;(3)单药 VSSP 诱导的抗肿瘤反应伴随着瘤内髓细胞区系的改变。这些结果为 VSSP 提供了更深层次的机制基础,并加强了其在宿主防御(包括癌症)中驱动 M1 类反应的作用。
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A Bacterial and Ganglioside-based Nanoparticle Initiates Reprogramming of Macrophages and Promotes Antitumor Phenotypes
Abstract Macrophages represent the most abundant immune component of the tumor microenvironment and often exhibit protumorigenic (M2-like) phenotypes that contribute to disease progression. Despite their generally accepted protumorigenic role, macrophages can also display tumoricidal (or M1-like) behavior, revealing that macrophages can be functionally reprogrammed, depending on the cues received within the tumor microenvironment. Moreover, such plasticity may be achieved by pharmacologic or biologic interventions. To that end, we previously demonstrated that a novel immunomodulator termed the “very small size particle” (VSSP) facilitates maturation of dendritic cells and differentiation of myeloid-derived suppressor cells to APCs with reduced suppressive activity in cancer models. VSSP was further shown to act in the bone marrow to drive the differentiation of progenitors toward monocytes, macrophages, and dendritic cells during emergency myelopoiesis. However, the underlying mechanisms for VSSP-driven alterations in myeloid differentiation and function remained unclear. In this study, in mouse models, we focused on macrophages and tested the hypothesis that VSSP drives macrophages toward M1-like functional states via IRF8- and PU.1-dependent mechanisms. We further hypothesized that such VSSP-mediated actions would be accompanied by enhanced antitumor responses. Overall, we showed that (1) VSSP drives naive or M2-derived macrophages to M1-like states, (2) the M1-like state induced by VSSP occurs via IRF8- and PU.1-dependent mechanisms, and (3) single-agent VSSP induces an antitumor response that is accompanied by alterations in the intratumoral myeloid compartment. These results provide a deeper mechanistic underpinning of VSSP and strengthen its use to drive M1-like responses in host defense, including cancer.
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