We aimed to determine the combined effects of overexpressing plasma membrane fatty acid binding protein (FABPpm) and fatty acid translocase (CD36) on skeletal muscle fatty acid transport to establish if these transport proteins function collaboratively. Electrotransfection with either FABPpm or CD36 increased their protein content at the plasma membrane (+75% and +64%), increased fatty acid transport rates by +24% for FABPpm and +62% for CD36, resulting in a calculated transport efficiency of ∼0.019 and ∼0.053 per unit protein change for FABPpm and CD36, respectively. We subsequently used these data to determine if increasing both proteins additively or synergistically increased fatty acid transport. Cotransfection of FABPpm and CD36 simultaneously increased protein content in whole muscle (FABPpm, +46%; CD36, +45%) and at the sarcolemma (FABPpm, +41%; CD36, +42%), as well as fatty acid transport rates (+50%). Since the relative effects of changing FABPpm and CD36 content had been independently determined, we were able to a predict a change in fatty acid transport based on the overexpression of plasmalemmal transporters in the cotransfection experiments. This prediction yielded an increase in fatty acid transport of +0.984 and +1.722 pmol/mg prot/15 s for FABPpm and CD36, respectively, for a total increase of +2.96 pmol/mg prot/15 s. This calculated determination was remarkably consistent with the measured change in transport, namely +2.89 pmol/mg prot/15 s. Altogether, these data indicate that increasing CD36 and FABPpm alters fatty acid transport rates additively, but not synergistically, suggesting an independent mechanism of action within muscle for each transporter. This conclusion was further supported by the observation that plasmalemmal CD36 and FABPpm did not coimmunoprecipitate.
Keywords: CD36; FABPpm; fatty acid transport; membrane transport; muscle; transfection.