Abstract
In cultured keratinocytes, focal junctions are enriched in major constituents of lipid rafts, such as GM 1 ganglioside, phosphoinositides, caveolins and flotillins. We have therefore speculated that focal junctions represent superrafts formed by coalescence of microdomains into large areas containing liquid-ordered ( L o) lipids. Indeed, values of maximal fluorescence recovery after photobleaching revealed that the long-range mobility of cholera toxin B subunit (CTB, marker of L o) was ∼1.5-fold retarded within the focal junctions compared to the surrounding membrane. However, 1,1′-dioctadecyl-3,3,3′,3′-tetramethylindocarbocyanine perchlorate (DiI-C 18:0), which specifically partitions to the liquid-disordered ( L d), non-raft phase, was also enriched in focal junctions and its mobility was slightly retarded. Cross-linking of GM 1 by CTB or raft aggregation by methyl-β-cyclodextrin further decreased the recovery of DiI-C 18:0. We propose a model in which focal junctions impose lateral heterogeneity in the plasma membrane by entrapment of lipid microdomains between dense arrays of immobilized transmembrane molecules which can enmesh otherwise freely percolating L d phase lipids.
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