Stoichiometric analysis of oligomerization of membrane proteins on living cells using coiled-coil labeling and spectral imaging.

Many membrane proteins are proposed to work as oligomers; however, the conclusion is sometimes controversial, as for ß2-adorenergic receptor (ß2AR), which is one of the best-studied family A G-protein-coupled receptors. This is due to the lack of methods for easy and precise detection of the oligomeric state of membrane proteins on living cells. Here, we show that a combination of the coiled-coil tag-probe labeling method and spectral imaging enable a stoichiometric analysis of the oligomeric state of membrane proteins on living cells using monomeric, dimeric, and tetrameric standard membrane proteins. Using this method, we found that ß2ARs do not form constitutive homooligomers, while they exhibit their functions such as the cyclic adenosine 5'-monophosphate (cAMP) signaling and internalization upon agonist stimulation.