Endogenous somatostatin-like peptides of rat basophilic leukemia cells.

Abstract

The tetradecapeptide somatostatin (SOM 14) and a 28-amino acid biosynthetic precursor (SOM 28) are constituents of diverse neuroendocrine tissues that are released by noxious stimuli from a subset of sensory nerve endings, and substantially modify the functions of basophils and mast cells. SOM-like factors were detected initially in the fluid phase of suspensions of immunologically challenged rat basophilic leukemia cells (RBL), and were purified from ethanol/0.2 M acetic acid (3/1, v/v) extracts of replicate portions of 3 X 10(9) RBL. Sephadex G-25 columns resolved factors of over 10,000, 2000 to 4000, and 300 to 1200 daltons that are antigenically related to SOM 14, as assessed by a radioimmunoassay specific for SOM 14. Only the two larger factors were detected by a radioimmunoassay for SOM 28(1-14), which binds to prepro-SOM and SOM 28 but not SOM 14. Reverse-phase high performance liquid chromatography distinguished the two smaller SOM peptides of RBL from SOM 28 and SOM 14, respectively. Amino acid analyses showed major differences in composition between the 2000 to 4000 dalton SOM of RBL and SOM 28. Picomolar to nanomolar concentrations of both of the smaller SOM peptides of RBL inhibited the IgE-dependent release of histamine from basophils to the same extent as SOM 14. The finding of 3 to 5 ng of structurally unique SOM-like peptides per 10(8) RBL suggests that endogenous mechanisms analogous to those of specialized sensory neurons may regulate the expression of hypersensitivity.