Characterization of β‐endorphin in human pituitary by fast atom bombardment mass spectrometry of trypsin‐generated fragments*

Abstract

A novel mass spectrometric method possessing a high level of structural specificity is described for characterization in biological fluids and tissues of endogenous beta-endorphin of the human amino acid sequence (beta h-EP). The method is based upon purification of tissue extracts by an RP-HPLC gradient, followed by trypsinolysis of that particular HPLC fraction corresponding to the elution time of synthetic beta h-EP. The tryptic digest of that endogenous beta h-EP fraction was purified further by a second RP-HPLC gradient. A unique tryptic fragment selected from the second gradient was analyzed by fast atom bombardment mass spectrometry and B/E linked-field scan MS/MS techniques to provide molecular weight and amino acid sequence-determining fragment ion information, respectively, of that fragment. Collectively, these independent analytical methodologies provided unequivocal structure evidence for the presence of endogenous beta h-EP in human pituitary. The method was established first by utilizing synthetic beta h-EP to optimize experimental parameters, and then applied to the analysis of beta h-EP in post-mortem human pituitary extracts. The suitability of the present method for semi-quantitation of tissue extracts is also demonstrated. The corresponding detection limit of the synthetic beta h-EP was 90 fmol, and human pituitary contained 1.5 pmol of beta h-EP mg-1 protein. The method can be extended readily to the analysis of beta-endorphin derived from other species and tissues.