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视频速率共振扫描多光子显微镜:一种用于肿瘤微环境活体成像的新兴技术。

Video-rate resonant scanning multiphoton microscopy: An emerging technique for intravital imaging of the tumor microenvironment.

作者信息

Kirkpatrick Nathaniel D, Chung Euiheon, Cook Daniel C, Han Xiaoxing, Gruionu Gabriel, Liao Shan, Munn Lance L, Padera Timothy P, Fukumura Dai, Jain Rakesh K

出版信息

Intravital. 2012;1(1). doi: 10.4161/intv.21557.

Abstract

The abnormal tumor microenvironment fuels tumor progression, metastasis, immune suppression, and treatment resistance. Over last several decades, developments in and applications of intravital microscopy have provided unprecedented insights into the dynamics of the tumor microenvironment. In particular, intravital multiphoton microscopy has revealed the abnormal structure and function of tumor-associated blood and lymphatic vessels, the role of aberrant tumor matrix in drug delivery, invasion and metastasis of tumor cells, the dynamics of immune cell trafficking to and within tumors, and gene expression in tumors. However, traditional multiphoton microscopy suffers from inherently slow imaging rates-only a few frames per second, thus unable to capture more rapid events such as blood flow, lymphatic flow, and cell movement within vessels. Here, we report the development and implementation of a video-rate multiphoton microscope (VR-MPLSM) based on resonant galvanometer mirror scanning that is capable of recording at 30 frames per second and acquiring intravital multispectral images. We show that the design of the system can be readily implemented and is adaptable to various experimental models. As examples, we demonstrate the utility of the system to directly measure flow within tumors, capture metastatic cancer cells moving within the brain vasculature and cells in lymphatic vessels, and image acute responses to changes in a vascular network. VR-MPLSM thus has the potential to further advance intravital imaging and provide new insight into the biology of the tumor microenvironment.

摘要

异常的肿瘤微环境促进肿瘤进展、转移、免疫抑制和治疗抵抗。在过去几十年中,活体显微镜技术的发展和应用为肿瘤微环境的动态变化提供了前所未有的见解。特别是,活体多光子显微镜揭示了肿瘤相关血管和淋巴管的异常结构与功能、异常肿瘤基质在药物递送中的作用、肿瘤细胞的侵袭和转移、免疫细胞向肿瘤内转运及在肿瘤内的动态变化,以及肿瘤中的基因表达。然而,传统的多光子显微镜存在成像速率固有较慢的问题——每秒只有几帧,因此无法捕捉诸如血流、淋巴流以及血管内细胞运动等更快的事件。在此,我们报告基于共振检流计镜扫描的视频速率多光子显微镜(VR-MPLSM)的开发与应用,该显微镜能够以每秒30帧的速度进行记录并获取活体多光谱图像。我们表明该系统的设计易于实现且适用于各种实验模型。例如,我们展示了该系统在直接测量肿瘤内血流、捕捉在脑血管系统中移动的转移性癌细胞以及淋巴管中的细胞,以及对血管网络变化的急性反应成像方面的效用。因此,VR-MPLSM有潜力进一步推动活体成像,并为肿瘤微环境生物学提供新的见解。

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