posted on 2023-08-02, 00:14authored byJennie
L. Cawley, Brett A. Berger, Adeyemi T. Odudimu, Aarshi N. Singh, Dane E. Santa, Ariana I. McDarby, Aurelia R. Honerkamp-Smith, Nathan J. Wittenberg
Microdomains in lipid bilayer membranes are routinely
imaged using
organic fluorophores that preferentially partition into one of the
lipid phases, resulting in fluorescence contrast. Here, we show that
membrane microdomains in giant unilamellar vesicles (GUVs) can be
visualized with europium luminescence using a complex of europium
III (Eu3+) and tetracycline (EuTc). EuTc is unlike typical
organic lipid probes in that it is a coordination complex with a unique
excitation/emission wavelength combination (396/617 nm), a very large
Stokes shift (221 nm), and a very narrow emission bandwidth (8 nm).
The probe preferentially interacts with liquid disordered domains
in GUVs, which results in intensity contrast across the surface of
phase-separated GUVs. Interestingly, EuTc also alters GM1 ganglioside
partitioning. GM1 typically partitions into liquid ordered domains,
but after labeling phase-separated GUVs with EuTc, cholera toxin B-subunit
(CTxB), which binds GM1, labels liquid disordered domains. We also
demonstrate that EuTc, but not free Eu3+ or Tc, significantly
reduces lipid diffusion coefficients. Finally, we show that EuTc can
be used to label cellular membranes similar to a traditional membrane
probe. EuTc may find utility as a membrane imaging probe where its
large Stokes shift and sharp emission band would enable multicolor
imaging.