Nitric Oxide Is Involved in the Genesis of Pulsatile LHRH Secretion from Immortalized LHRH Neurons

Neuronal networks controlling endocrine events present synchronous activity which is required for maintaining physiological functions, including reproduction. Although pulsatile hormone secretion is of paramount importance, the mechanism(s) by which secretory episodes are generated remain largely unknown. Nitric oxide (NO) has become the prototype of a new family of signaling molecules in the body. Nitric oxide diffuses from the source cell and controls activity of neighboring neurons as well as itself as a retrograde messenger. Cells of the luteinizing hormone‐releasing hormone (LHRH) neuronal network, the key component in the control of reproduction, are scattered and loosely arranged in the anterior hypothalamus. A diffusible neurotransmitter could provide a means for establishing synchronous activation of the LHRH neuronal network leading to physiologically‐relevant pulsatile LHRH secretion. In this study, we demonstrate that immortalized LHRH‐producing neurons (GT1–7 cells) express NO synthase (NOS) mRNA and protein. Furthermore, GT1–7 cells are NADPH‐diaphorase‐positive (a marker of NOS activity) and the histochemical reaction can be abolished by treatment with a competitive NOS blocker. The presence of citrulline in these cells provides further evidence for the biological activity of NOS. These observations indicate that an active NO synthesizing machinery is present in immortalized LHRH neurons. In addition, we show that LHRH secretion is enhanced by NO in a cGMP‐dependent manner. Since pulsatile LHRH secretion from immortalized LHRH neurons in vitro is abolished by NOS blockers and NO scavengers, it appears that NO is a unique neurotransmitter that is necessary to set LHRH neurons in phase to establish synchronized pulsatile LHRH secretion.