Probe Transfer with and without Membrane Fusion in a Fluorescence Fusion Assay

Abstract

An analysis of the R₁₈ fusion assay was made during the fusion of the Sendai virus with erythrocyte ghosts. The increase in R₁₈ fluorescence, reflecting the interaction process, was evaluated in terms of the different processes that in principle may contribute to this increase, that is, monomeric probe transfer, hemifusion, and complete fusion. To this end, the kinetics of the R₁₈-labeled lipid mixing were compared to those obtained with an assay in which the fusion-monitoring probe, eosin-maleimide, was attached to the viral surface proteins. The experiments relied on the use of native and fusion-inactive viruses and studies involving viral and target membranes that were modified by the incorporation of the lysophospholipid. The total dequenching signal detected in the R₁₈ assay consists of components from probe transferred without fusion and from fusion itself. At 37 °C, the initial rate of dequenching (within two minutes) was predominately from the probe diluted by fusion with little contribution from transfer. The dequenching signal due to the probe transfer without fusion occurred at temperatures as low as 10 °C and increased linearly with time. Complete fusion started at about 20−25 °C and increased sharply at 30 °C. The extent of hemifusion was deduced from the total R₁₈ dequenching data and those of the eosin-maleimide labeled protein dilution method for the limiting cases; the analysis indicates that hemifusion started at about 15 °C and increased over the range 20−25 °C. The initial rate of dequenching of the R₁₈ assay measured within 2 min gives an accurate measure of membrane fusion above 30 °C.