The C-terminal domains of TARPs Unexpectedly versatile domains

AMPA receptors mediate the majority of fast synaptic transmission in the central nervous system and are therefore among the most intensively studied ligand-gated ion channels over the last decades. However, the recent discovery that native AMPA receptor complexes contain auxiliary subunits classified as transmembrane AMPA receptor regulatory proteins (TARPs) was quite a surprise and dramatically changed the field of AMPA receptor research. TARPs regulate trafficking as well as synaptic localization of AMPA receptors, and alter their pharmacological and biophysical properties, generally resulting in strongly elevated receptor-mediated currents. Thus, the association of AMPA receptors with TARPs increases receptor heterogeneity and diversity of postsynaptic currents. In this regard, unravelling the mechanisms by which TARPs modulate AMPA receptor function is an intriguing challenge. Studying the functional importance of the carboxy-terminal domain (CTD) of TARPs for receptor modulation, we found that the increased trafficking mediated by the two TARPs gamma 2 and gamma 3 is attributable to their CTDs. Furthermore, we demonstrated that the CTD additionally determines the differences between TARPs regarding their modulation of AMPA receptor function. As a case in point, we showed a unique role of the CTD of gamma 4, suggesting that TARPs modulate AMPA receptor function via individual mechanisms.