Human Organic Solute Transporter (hOST): protein interaction and membrane sorting process

The human organic solute transporter (hOST) is a heterodimer composed of alpha and beta subunits. Physical association of hOSTα and β subunits is essential for their polarized basolateral plasma membrane localization and function in the export of bile acids and steroids. To understand the role of carboxyl- and amino-tails of OSTβ and mechanisms underlying membrane localization of hOST, the effects of tail deletion of the hOSTβ subunit and biological reagents on membrane distribution and transport function of hOST were investigated in stably transfected MDCK cells. After deletion of 35 amino acids from the amino-tail of hOSTβ, the efflux transport activity and polarized membrane distribution of the truncated hOSTβ was abolished. A co-immunoprecipitation study verified that the amino-tail of hOSTβ is essential for the association with hOSTα subunit. Treatments with acytochalasin D (interrupting ctin-filaments), bafilomycin A1 (inhibiting vacuolar H⁺-ATPase), brefeldin A (disrupting the Golgi complex), and calphostin C (inhibiting protein kinase C), significantly disrupted the polarized membrane distribution of hOST and markedly reduced transport activity in stably transfected MDCK cells. In summary, the 35 amino acid amino-terminal fragment of hOSTβ contains critical information for interaction with the hOSTα subunit and subsequent trafficking to the plasma membrane. These studies suggest that the membrane sorting process of hOST is mediated by a bafilomycin A1-sensitive vesicular pathway that is associated with the actin-cytoskeleton network. The membrane localization of hOST is also partially mediated through a brefeldin A sensitive mechanism, which controls its transit from the ER to Golgi and is regulated by PKC.