ON THE DEVELOPMENT OF SYMPATHETIC NERVE TRUNK VESICLES DURING AXONAL TRANSPORT: DENSITY GRADIENT ANALYSIS OF DOPAMINE β‐HYDROXYLASE IN BOVINE SPLENIC NERVE

—Dopamine β‐hydroxylase was used as a marker enzyme for sympathetic nerve vesicles which were studied by density gradient technique in bovine splenic nerves. The enzyme analyses were complicated by the occurrence of inhibitors which had to be carefully neutralized with copper. The inhibitor was mainly found in the soluble fraction and no evidence for the occurrence of endogenous inhibitors in the nerve vesicles was obtained. A great variation in density of the dopamine β‐hydroxylase containing particles was observed. This was probably mainly due to the variation in vesicle maturation since dopamine β‐hydroxylase was distributed more towards the lighter gradient fractions in the proximal nerve segment preparations compared with intrasplenic nerve segment preparations. Noradrenaline/protein and noradrenaline/dopaminc β‐hydroxylase ratios were found to be increased about 1·7‐fold in the vesicle fraction isolated from the proximal nerve segments to those from the intrasplenic segments. A further increase of the noradrenaline/dopamine β‐hydroxylase ratio was observed in a fraction with the same density isolated from the spleen. On the basis of these findings the noradrenaline/protein ratio was calculated to be about 500‐600 nmol/mg in the nerve terminal vesicles.