Macromolecular diffusion of biological polymers measured by confocal fluorescence recovery after photobleaching

Fluorescence recovery after photobleaching with an unmodified confocal laser scanning microscope (confocal FRAP) was used to determine the diffusion properties of network forming biological macromolecules such as aggrecan, The technique was validated using fluorescein isothiocyanate (FITC)-labeled dextrans and proteins (molecular mass 4-2000 kDa) at 25 degrees C and with fluorescent microspheres (207 nm diameter) over a temperature range of 5-50 degrees C, Lateral diffusion coefficients (D) were independent of the focus position, and the degree and extent of bleach. The free diffusion coefficient (D,) of FITC-aggrecan determined by confocal FRAP was 4.25 +/- 0.6 x 10(-8) cm(2) S-1, which is compatible with dynamic laser light scattering measurements. It appeared to be independent of concentration below 2.0 mg/ml, but at higher concentrations (2-20 mg/ml) the self-diffusion coefficient followed the function D = D-o theta(-Bc). The concentration at which the self-diffusion coefficient began to fall corresponded to the concentration predicted for domain overlap. Multimolecular aggregates of aggrecan (similar to 30 monomers) had a much lower free diffusion coefficient (D-o = 6.6 +/- 1.0 x 10(-9) cm(2) s(-1)) but showed a decrease in mobility with concentration of a form similar to that of the monomer, The method provides a technique for investigating the macromolecular organization in glycan-rich networks at concentrations close to those found physiologically.