Fluorescence generalized polarization of cell membranes: a two-photon scanning microscopy approach.

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Fluorescence generalized polarization of cell membranes: a two-photon scanning microscopy approach.

W Yu, P T So, T French and E Gratton

Department of Physics, University of Illinois at Urbana-Champaign, Illinois 61801, USA. weiming@uxl.cso.uiuc.edu

ABSTRACT

We use the lipophilic fluorescence probe Laurdan to study cellmembranes. The generalized polarization (GP) of Laurdan-labeledcells contains useful information about membrane fluidity andpolarity. A high GP is usually associated with low fluidity,low polarity, or high cholesterol content of the membranes,and a low GP is the opposite. We have combined the GP methodand two-photon fluorescence microscopy to provide an alternativeapproach to study cell membranes. Using two-photon excitationin a conventional microscope offers great advantages for studyingbiological samples. These advantages include efficient backgroundrejection, low photodamage, and improved depth discrimination.We performed GP measurements on mouse fibroblast cells and observedthat both intensity and GP images are not spatially uniform.We tested for possible GP artifacts arising from cellular autofluorescenceand lifetime quenching, using a procedure for background fluorescencesubtraction and by direct lifetime measurements in the microscope.GP measured in a single cell displays a broad distribution,and the GP of 40 different cells grown on the same cover glassis also statistically distributed. The correlations betweenintensity and GP images were analyzed, and no monotonic dependencebetween the two was found. By digitally separating high andlow GP values, we found that high GP values often associatewith the regions of the plasma membrane and low GP values linkwith the nuclear membranes. Our results also show local GP variationswithin the plasma and nuclear membranes.

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