Human tRNA(Sec) associates with HeLa membranes, cell lipid liposomes, and synthetic lipid bilayers.

We have shown previously that simple RNA structures bind pure phospholipid liposomes. However, binding of bona fide cellular RNAs under physiological ionic conditions is shown here for the first time. Human tRNA(Sec) contains a hydrophobic anticodon-loop modification: N⁶-isopentenyladenosine (i⁶A) adjacent to its anticodon. Using a highly specific double-probe hybridization assay, we show mature human tRNA(Sec) specifically retained in HeLa intermediate-density membranes. Further, isolated human tRNA(Sec) rebinds to liposomes from isolated HeLa membrane lipids, to a much greater extent than an unmodified tRNA(Sec) transcript. To better define this affinity, experiments with pure lipids show that liposomes forming rafts or including positively charged sphingosine, or particularly both together, exhibit increased tRNA(Sec) binding. Thus tRNA(Sec) residence on membranes is determined by several factors, such as hydrophobic modification (likely isopentenylation of tRNA(Sec)), lipid structure (particularly lipid rafts), or sphingosine at a physiological concentration in rafted membranes. From prior work, RNA structure and ionic conditions also appear important. tRNA(Sec) dissociation from HeLa liposomes implies a mean membrane residence of 7.6 min at 24°C (t(1/2) = 5.3 min). Clearly RNA with a 5-carbon hydrophobic modification binds HeLa membranes, probably favoring raft domains containing specific lipids, for times sufficient to alter biological fates.