A Microplate Binding Assay for the Somatostatin Type-2 Receptor (SSTR2)

AbstractThe clinical importance of somatostatin type-2 receptors (SSTR2) and the study of novel analogues of somatostatin such as OctreoScan or [Tyr3]-octreotide containing DOTA (1,4,7,10-tetraazacyclododecane-1,4,7,10-tetraacetic acid) as metal chelator led us to develop a methodology to monitor the expression of SSTR2 on tumours of pancreatic origin (e.g. rat AR4-2J cancer cells). Usual binding assay protocols using the commercial [125I][Tyr1]-somatostatin radioligand failed, even in the presence of a cocktail of protease inhibitors with a broad spectrum of activity, possibly due to the high susceptibility of this tracer to proteases expressed in pancreatic cells. We prepared our own radioligand [125I][Tyr3]-octreotide which was shown to be much more resistant to degradation after incubation with AR4-2J plasma membranes. As expected, the increased stability of [125I][Tyr3]-octreotide was associated with good binding to SSTR2. Addition of appropriate protease inhibitors further increased the specific binding of [125I][Tyr3]-octreotide to AR4-2J plasma membranes without affecting the stability of the tracer, suggesting that the protease inhibitors also protect the integrity of SSTR2. Optimal conditions (time, temperature, medium) were developed for a binding assay in 96-well plates using AR4-2J plasma membranes in order to make the assay suitable for high-throughput analysis. This protocol was the basis for studying the in vivo regulation of SSTR2 expression in AR4-2J cells implanted into scid mice after exposure to different compounds.