Chemotaxis of cancer cells in the surrounding microenvironment is an essential component of tumour dissemination during progression and metastasis. Chemotaxis is the result of three separate steps, including chemosensing, polarization and locomotion. A rigorous understanding of the mechanism of cancer cell chemotaxis will help us develop novel concepts and strategies for cancer therapy. Recently, concepts, principles and methods from the physical sciences have been applied to the cancer biology. This project will present an innovative approach on chemotaxis assay and provide a bottom-up approach to address cancer cell chemotaxis. On the one hand, we proposed a novel design of micro-scale surface enhanced Raman spectroscopy (SERS) system, together with high-resolution optical tweezers system, microfluidic system with accurate sample temperature control, to conduct spatial and temporal regulation of chemotaxis. On the other hand, we further construct a single-cell platform as a means to examine cellular behaviour in response to chemoattractor. This project will primarily focus on three specific aims, including Aim 1: Construction of SERS system; Aim 2: The correction and calibration of the Raman data, and Aim 3: Identifying and quantifying modes of locomotion during chemotaxis. We anticipate the proposed bottom-up approach based on nano-scale biomedicaltechnologies, together with the platform at single-cell level could be applied to build a quick screening method for detection and treatment evaluation of many types of cancer during chemotaxis.
|Effective start/end date||10/1/14 → 9/30/15|
- micro-scale surface enhanced Raman spectroscopy (SERS) system
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