Abstract

A radioimmunoassay (RIA) for somatostatin has been developed using rabbit antiserum raised against cyclic somatostatin conjugated to thyroglobulin, radioiodinated [Tyr1]Jsomatostatin, and cyclic somatostatin standards. Damage to the tracer during the RIA incubation was prevented by the use of 0.25 M EDTA or lower EDTA concentrations plus Trasylol. The mean detection limit for 15 individual assays was 1.6 ± 0.4 pg (SD). Linear somatostatin showed 70% cross-reactivity in the assay but [Tyr1]somatostatin reacted the same extent as the cyclic somatostatin standards. Acetic acid extracts (1.0 N) of rat hypothalamus, cerebral cortex, other brain areas, and a number of visceral organs assayed in serial dilutions gave inhibition curves parallel to those of cyclic somatostatin. Recovery of tissue immunoreactivity based on addition studies was 82.8 ±9.0 (SEM)%. Gel filtration of rat hypothalamic, cerebral cortical, stomach, and pancreatic islet extracts revealed two immunoreactive peaks, one corresponding to synthetic somatostatin, the other representing a larger molecular species postulated to be a somatostatin precursor, or a somatostatin complex. For this reason, results for tissue concentration represent both free and “big” hormone. Immunoreactive somatostatin concentration (nanograms per milligram of protein, not corrected for recovery) was highest in isolated pancreatic islets (786) and in the stalk median eminence region (248). In descending order of concentration in brain regions are hypothalamus (26.1), ventromedial hypothalamic nucleus (17.5), spinal cord (10.4), cerebral cortex (6.7), brain stem (5.1), olfactory lobe (1.07), cerebellum (0.43), and pineal gland (0.14). Somatostatin concentration in the pyloric region of the stomach was similar to that of the cerebral cortex (6.4), and other regions of the stomach and gut also had substantial concentrations of somatostatin. The specificity of these findings is suggested by the failure to demonstrate somatostatin in liver, lungs, kidneys, and submandibular glands. (Endocrinology102: 523, 1978)