A Noninvasive Fluorescence Imaging-based Platform Measures 3D Anisotropic Extracellular Diffusion

Overview

Journal Nat Commun

Specialty Biology

Date 2021 Mar 27

PMID 33772014

Citations 13

Authors

Peng Chen

Xun Chen

R Glenn Hepfer

Brooke J Damon

Changcheng Shi

Jenny J Yao

Matthew C Coombs

Michael J Kern

Tong Ye

Hai Yao

Affiliations

Soon will be listed here.

Abstract

Diffusion is a major molecular transport mechanism in biological systems. Quantifying direction-dependent (i.e., anisotropic) diffusion is vitally important to depicting how the three-dimensional (3D) tissue structure and composition affect the biochemical environment, and thus define tissue functions. However, a tool for noninvasively measuring the 3D anisotropic extracellular diffusion of biorelevant molecules is not yet available. Here, we present light-sheet imaging-based Fourier transform fluorescence recovery after photobleaching (LiFT-FRAP), which noninvasively determines 3D diffusion tensors of various biomolecules with diffusivities up to 51 µm s, reaching the physiological diffusivity range in most biological systems. Using cornea as an example, LiFT-FRAP reveals fundamental limitations of current invasive two-dimensional diffusion measurements, which have drawn controversial conclusions on extracellular diffusion in healthy and clinically treated tissues. Moreover, LiFT-FRAP demonstrates that tissue structural or compositional changes caused by diseases or scaffold fabrication yield direction-dependent diffusion changes. These results demonstrate LiFT-FRAP as a powerful platform technology for studying disease mechanisms, advancing clinical outcomes, and improving tissue engineering.

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