Calcitonin gene-related peptide-like immunoreactivity in the central nervous system and peripheral organs of rats

Abstract The concentrations of rat calcitonin gene-related peptide-like immunoreactivity (rCGRP-LI) in various organs of male rats as well as the molecular heterogeneity of rCGRP-LI in tissue extracts was examined using a specific radioimmunoassay (RIA) for rCGRP and gel-filtration chromatography. rCGRP-LI was high in extracts of the spinal cord ( 202 ± 22.6 pg/mg wet wt. of tissue; mean ± S.E.M.) and of the thyroid ( 229 ± 62.3 pg/mg ). rCGRP-LI was detectable in the brainstem, hypothalamus, stomach, duedenum, pancreas and kidney. The elution pattern of the extracts on a Sephadex G-50 column showed 3 peaks of rCGRP-LI irrespective of organs and tissues. The first peak corresponded to authentic rCGRP-(1–37). The second and third rCGRP-LI peaks probably consisted of C-terminal fragments of rCGRP, because they had a lower molecular weight than rCGRP-(1–37) and because our antiserum cross-reacts with a synthetic C-terminal fragment. The ratio of 3 rCGRP-LI molecules, however, differed between neural tissue extracts and others. The main component of rCGRP-LI in neural tissue was authentic rCGRP-(1–37), while the smaller fragments of rCGRP were chiefly contained in other tissues like the stomach, pancreas and thyroid. The relative ratio of rCGRP-LI molecules with different size in respective tissue extracts was not changed after leaving the dissected tissues for 2 h at room temperature. These findings indicate that rCGRP-LI is abundantly present in the thyroid as well as the spinal cord and it is detected in lower amounts in the alimentary tract and central nervous system. rCGRP-LI in the extracts consists of 3 different components, the proportions of which vary from one tissue to another, probably reflecting tissue-specific differences in the processing of CGRP.