Somatostatin analogues for somatostatin-receptor-mediated radiotherapy of cancer.

The aim of the present study was to selectively target a beta-emitter-labelled octreotide analogue to somatostatin (SRIF)-receptor-expressing tumours and to evaluate the feasibility of SRIF-receptor-mediated radiotherapy by delivering a lethal dose of radiation to the tumour. The most promising compound in a series of DTPA-coupled octreotide analogues was DTPA-benzyl-acetamido-D-Phe1, Tyr3-octreotide (SDZ413). In vitro, SDZ413 binds with nanomolar affinity to SRIF-receptors (IC50 = 4.0 nM) and inhibits growth hormone release from primary cultures of rat pituitary cells with an IC50 of 7.2 nM. Biodistribution studies with [90Y]SDZ413 demonstrated a fast and significant SRIF-receptor-specific accumulation of the labelled conjugate (tumour/muscle ratio after 24 h: 52/1). [90Y]SDZ413 was effective in the radiotherapy of SRIF-receptor-positive tumours in a nude mouse model. A single treatment with [90Y]SDZ413 led to a significant decrease (25%) of tumour mass. This effect was mediated by the intact radioligand, since treatment with [90Y]SDZ978, a derivative of SDZ413 which does not bind with high affinity to SRIF-receptors or with the unlabelled SDZ413 alone, failed to affect tumour growth. These results suggest that receptor-targeted radiotherapy with a 90Y-labelled octreotide analogue represents a new strategy for the treatment of SRIF-receptor-positive tumours that have been previously diagnosed with OctreoScan111 (pentetreotide).