Label-free correlative morpho-chemical tomography of 3D kidney mesangial cells

Ankit Butola, Biswajoy Ghosh, Jaena Park, Minsung Kwon, Alejandro De la Cadena, Sudipta S Mukherjee, Rohit Bhargava, Stephen A Boppart, Krishna Agarwal
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Abstract

Label-free characterization of biological specimens seeks to supplement existing imaging techniques and avoid the need for contrast agents that can disturb the native state of living samples. Conventional label-free optical imaging techniques are compatible with living samples but face challenges such as poor sectioning capability, fragmentary morphology, and lack chemical specific information. Here, we combined simultaneous label-free autofluorescence multi-harmonic (SLAM) microscopy and gradient light interference microscopy (GLIM) to extract both chemical specific and morphological tomography of 3D cultured kidney mesangial cells. Imaging 3D in vitro kidney models is essential to understand kidney function and pathology. Our correlative approach enables imaging and quantification of these cells to extract both morphology and chemical-specific signals that is crucial for understanding kidney function. In our approach, SLAM offers a nonlinear imaging platform with a single-excitation source to simultaneously acquire autofluorescence (FAD and NAD(P)H), second, and third harmonic signal from the 3D cultured cells. Complementarily, GLIM acquires high-contrast quantitative phase information to quantify structural changes in samples with thickness of up to 250 micron. Our correlative imaging results demonstrate a versatile and hassle-free platform for morpho-chemical cellular tomography to investigate functions such as metabolism and matrix deposition of kidney mesangial cells in 3D under controlled physiological conditions.
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三维肾间质细胞无标记相关形态化学断层成像技术
生物样本的无标记表征旨在补充现有的成像技术,避免使用造影剂干扰活体样本的原生状态。传统的无标记光学成像技术与活体样本兼容,但面临切片能力差、形态破碎、缺乏化学特异性信息等挑战。在这里,我们结合了同步无标记荧光多谐波(SLAM)显微镜和梯度光干涉显微镜(GLIM),提取了三维培养肾间质细胞的化学特异性和形态层析成像。我们的相关方法能够对这些细胞进行成像和量化,以提取形态学和化学特异性信号,这对了解肾功能至关重要。在我们的方法中,SLAM 提供了一个具有单激发源的非线性成像平台,可同时获取三维培养细胞的自发荧光(FAD 和 NAD(P)H)、二次谐波和三次谐波信号。此外,GLIM 还能获取高对比度的定量相位信息,以量化厚度达 250 微米的样品的结构变化。我们的相关成像结果表明,在受控生理条件下,三维形态化学细胞层析成像技术为研究肾间质细胞的新陈代谢和基质沉积等功能提供了一个多功能、无障碍的平台。
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