Adrenal medulla imaging agents: a structure-distribution relationship study of radiolabeled aralkylguanidines

Abstract

A total of fourteen 125I-labeled aralkylguanidines were synthesized and evaluated as potential imaging agents for the adrenal medullae and tumors of adrenomedullary origin. These guanidines are radiotracer analogs of guanethidine, an antihypertensive agent thought to mediate neuron blockade by uptake into adrenergic nerves. Dog adrenal medullae were used as a model to test radiotracer affinity for catecholamine storage tissue. Tissue distribution studies revealed that a number of radioiodinated guanidines showed pronounced localization in the adrenal medullae following i.v. injection, in certain cases exceeding that of either (-)-[3H]norepinephrine or [14C]guanethidine. (m-[125I]Iodobenzyl)guanidine (m-IBG, 2b) gave the best combination of high concentration and selectivity. The low adrenomedullary affinity observed with [14C]guanidine and m-[125I]iodobenzylamine demonstrates the uniqueness of the aralkylguanidine structure. Preliminary evidence suggests that 2b is a storage analog of norepinephrine. [125I](m-iodobenzyl)guanidine] is now being used clinically in imaging and radiotherapy of catecholamine tumors, such as pheochromocytoma.