Modifications of Luteinizing Hormone Biosynthesis and Release by Gonadotropin-Releasing Hormone, Cycloheximide, and Actinomycin D*

Abstract

The influence of synthetic gonadotropin-releasing hormone (GnRH) on the time course of [3H]glucosamine ([3H]GA) and [14C]alanine ([14C]A) incorporation into LH [luteinizing hormone] by quartered rat anterior pituitary glands and the sequence of release of radiolabeled and total immunoreactive LH (IR-LH) was investigated. Radiolabeled LH was measured by immunoprecipitation and total IR-LH was measured by RIA [radioimmunoassay]. After lag periods of 5 and 20 min, respectively, incorporation of [14C]A and [3H]GA into tissue LH increased linearly for 4 h. GnRH stimulated incorporation of [3H]GA only. The ratio of [14C]A-LH to [3H]GA-LH (14C:3H ratio) in the tissue decreased significantly with time and with GnRH treatment. In the 2nd experiment, replenishment of GnRH in the medium every 0.5 h elevated the release rate (release during each sequential 0.5 h) of both [3H]GA and [14C]A-labeled LH within 1.5 h. The release rate of radiolabeled LH increased linearly until 3.5 h. The 14C:3H ratio in LH released during each time interval was reduced by GnRH. The release rate of IR-LH increased linearly with time, plateaued by 1.5-3 h, and started to decline. In other experiments, cycloheximide blocked synthesis of [14C]A-LH and greatly reduced the GnRH-induced synthesis and release of [3H]GA-LH, but reduced release of IR-LH by only 25%. Actinomycin D had no effect on GnRH-induced synthesis and release of LH at 2 h, but significantly reduced both at 4 h. The time course for the release of preexisting IR-LH may differ from that for newly synthesized LH; the newly synthesized LH released in response to high levels of GnRH has more sugar residues than that released under basal conditions; the GnRH-induced LH release can occur under conditions in which LH synthesis has been blocked; synthesis of mRNA may not be required for GnRH-induced LH release or short term LH synthesis but seems to be required for continued synthesis and subsequent release of LH.