Reconstitution of in vivo macrophage-tumor cell pairing and streaming motility on one-dimensional micro-patterned substrates.

IntraVital Pub Date : 2012-07-01 DOI:10.4161/intv.22054
Ved P Sharma, Brian T Beaty, Antonia Patsialou, Huiping Liu, Michael Clarke, Dianne Cox, John S Condeelis, Robert J Eddy
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引用次数: 47

Abstract

In mammary tumors, intravital imaging techniques have uncovered an essential role for macrophages during tumor cell invasion and metastasis mediated by an epidermal growth factor (EGF) / colony stimulating factor-1 (CSF-1) paracrine loop. It was previously demonstrated that mammary tumors in mice derived from rat carcinoma cells (MTLn3) exhibited high velocity migration on extracellular matrix (ECM) fibers. These cells form paracrine loop-dependent linear assemblies of alternating host macrophages and tumor cells known as "streams." Here, we confirm by intravital imaging that similar streams form in close association with ECM fibers in a highly metastatic patient-derived orthotopic mammary tumor (TN1). To understand the in vivo cell motility behaviors observed in streams, an in vitro model of fibrillar tumor ECM utilizing adhesive 1D micropatterned substrates was developed. MTLn3 cells on 1D fibronectin or type I collagen substrates migrated with higher velocity than on 2D substrates and displayed enhanced lamellipodial protrusion and increased motility upon local interaction and pairing with bone marrow-derived macrophages (BMMs). Inhibitors of EGF or CSF-1 signaling disrupted this interaction and reduced tumor cell velocity and protrusion, validating the requirement for an intact paracrine loop. Both TN1 and MTLn3 cells in the presence of BMMs were capable of co-assembling into linear arrays of alternating tumor cells and BMMs that resembled streams in vivo, suggesting the stream assembly is cell autonomous and can be reconstituted on 1D substrates. Our results validate the use of 1D micropatterned substrates as a simple and defined approach to study fibrillar ECM-dependent cell pairing, migration and relay chemotaxis as a complementary tool to intravital imaging.

Abstract Image

巨噬细胞-肿瘤细胞在一维微图案基质上的配对和流动运动的重建。
在乳腺肿瘤中,活体成像技术揭示了巨噬细胞在表皮生长因子(EGF) /集落刺激因子-1 (CSF-1)旁分泌环介导的肿瘤细胞侵袭和转移过程中的重要作用。先前已经证明,来自大鼠癌细胞(MTLn3)的小鼠乳腺肿瘤在细胞外基质(ECM)纤维上表现出高速迁移。这些细胞形成旁分泌环依赖的线性组合,交替的宿主巨噬细胞和肿瘤细胞被称为“流”。在这里,我们通过活体成像证实,在高度转移的患者源性原位乳腺肿瘤(TN1)中,类似的流与ECM纤维形成密切相关。为了了解在水流中观察到的体内细胞运动行为,我们开发了一种利用黏附1D微图案基质的纤维状肿瘤体外ECM模型。MTLn3细胞在1D纤维连接蛋白或I型胶原基质上的迁移速度比在2D基质上的更快,并且在与骨髓源性巨噬细胞(BMMs)的局部相互作用和配对时表现出增强的板足突和增强的运动能力。EGF或CSF-1信号的抑制剂破坏了这种相互作用,降低了肿瘤细胞的速度和突出,证实了对完整旁分泌环的要求。在BMMs存在的情况下,TN1和MTLn3细胞都能够共同组装成肿瘤细胞和BMMs交替的线性阵列,在体内类似于流,这表明流组装是细胞自主的,可以在一维底物上重组。我们的研究结果验证了使用一维微图案底物作为一种简单而明确的方法来研究纤维状ecm依赖性细胞配对,迁移和传递趋化性,作为活体成像的补充工具。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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