Reproduction in mammals is an extremely energy-intensive process and is therefore tightly controlled by the body's energy status. Changes in the nutritional status of the body cause fluctuations in the levels of peripheral metabolic hormone signals, such as leptin, insulin, and ghrelin, which provide feedback to the hypothalamus and integrate to coordinate metabolism and fertility. Therefore, to link energy and reproduction, energetic information must be centrally transmitted to gonadotropin-releasing hormone (GnRH) neurons that act as reproductive gating. However, GnRH neurons themselves are rarely directly involved in energy information perception. First, as key factors in the control of GnRH neurons, we describe the direct role of Kisspeptin and Arg-Phe amide-related peptide-3 (RFRP-3) neurons in mediating metabolic signaling. Second, we focused on summarizing the roles of metabolic hormone-sensitive neurons in mediating peripheral energy hormone signaling. Some of these hormone-sensitive neurons can directly transmit energy information to GnRH neurons, such as Orexin neurons, while others act indirectly through other neurons such as Kisspeptin, RFRP-3 neuron, and (pituitary adenylate cyclase-activating polypeptide) PACAP neurons. In addition, as another important aspect of the integration of metabolism and reproduction, the impact of reproductive signaling itself on metabolic function was also considered, as exemplified by our examination of the role of Kisspeptin and RFRP-3 in feeding control. This review summarizes the latest research progress in related fields, in order to more fully understand the central neuropeptide network that integrates energy metabolism and reproduction.
Keywords: hypothalamus; mammalian; metabolism; neuropeptide; reproduction.