Cyclic somatostatin analogs bind specifically to pI 6.1 carboxylesterase of rat liver cells

Abstract

The hydrophobic cyclohexapeptide cyclo(Phe-Thr-Lys-Trp-Phe- dPro) (008), an analog of somatostatin with retro sequence, was previously shown to competitively inhibit the uptake of cholate and taurocholate into isolated rat liver cells. Conversely, the competitive uptake inhibition of 008 into isolated rat hepatocytes by bile acids confirmed the observation of common binding and transport sites by bile acids and cyclosomatostatin. Furthermore the transport characteristics of 008 uptake revealed a significant and rapid binding to cell membranes. In this context it was of special interest to investigate the specificity of the binding component since specific binding of the substrate to membrane proteins could be responsible for the low K m of 008-transport. Therefore, the cyclohexapeptide 008 could be used as the ligand in affinity chromatography in order to isolate such binding proteins. The gel matrix used did not interact non-specifically with octylglucoside-solubilized proteins from isolated rat liver plasma membranes. In affinity chromatography of octylglucoside-solubilized plasma membranes, two dominant proteins with apparent molecular masses of 60 and 58 kDa bound specifically to the 008 ligand. When used as ligands in affinity chromatography, these membrane-associated 60 and 58 kDa proteins bound exclusively to aromatic cyclopeptides, e.g. cyclosomatostatin 008, but not to linear peptides or taurocholate derivatives. The amino acid sequences of tryptic digests of the 008-affinity-purified 58 kDa protein were identical to the sequence of a microsomal pI 6.1 carboxylesterase. Immunofluorescence of intact hepatocytes showed that this xenobiotic metabolizing enzyme is also located in sinusoidal rat liver plasma membranes and could therefore account for the extensive and specific binding of the cyclosomatostatin to sinusoidal plasma membranes of rat liver.