Krajewski-Hall SJ, Mittelman-Smith MA, Williams H, Lafrance KJ, Mcmullen NT, Rance NE (2012) A role for kisspeptin/neurokinin B/dynorphin (KNDy) neurons in the regulation of estrous cycles and the estrogen modulation of body temperature. Neuroscience 2012 Abstracts 585.02. Society for Neuroscience, New Orleans, LA.
Summary: We have recently described a method to selectively ablate kisspeptin/neurokinin B/dynorphin (KNDy) neurons using stereotaxic injections of NK3-SAP, a neurokinin 3 receptor agonist conjugated to saporin (Mittelman-Smith, Endocrinology, 2012). These studies revealed a critical role for arcuate KNDy neurons in tonic gonadotropin secretion, the rise in serum LH after ovariectomy and estrogen modulation of body weight. Here we determine the effects of KNDy neuron ablation on estrous cycles and the estradiol modulation of body temperature. In the first study, stereotaxic injections of NK3-SAP or Blank-SAP were made in the arcuate nucleus of ovary-intact, adult female rats. Rats with nearly complete KNDy-neuron ablation (verified by NKB immunohistochemistry) exhibited constant diestrus and ovarian atrophy, confirming the importance of these neurons in reproductive regulation. In a second experiment, we evaluated the effects of KNDy neuron ablation on the thermoregulatory axis in rats that were ovariectomized (OVX) and then treated with 17β-estradiol (E2). Tail skin temperatures (TSKIN) and core temperatures (TCORE) were recorded in rats throughout the light/dark cycle and during exposure to different ambient temperatures (TAMBIENT) in an environmental chamber. Notably, the average TSKIN of KNDy-ablated rats was consistently lower than control rats, indicative of lower levels of cutaneous vasodilatation. Moreover, KNDy neuron ablation blocked the reduction of TSKIN by E2 that occurred during the light phase in the environmental chamber, but did not affect the E2 suppression of TSKIN during the dark phase. At a high TAMBIENT of 33 C, the mean TCORE of OVX control rats increased to 39.0 C, and was reduced by E2 replacement. In contrast, at this high TAMBIENT, the average TCORE of OVX, KNDy-ablated rats was lower than OVX control rats, and TCORE was not altered by E2 replacement. Because KNDy neurons exhibit dramatic changes in morphology and gene expression in postmenopausal women, we have hypothesized these neurons contribute to the generation of hot flushes. These studies support this hypothesis by providing the first evidence that KNDy neurons participate in the E2 modulation of body temperature and promote cutaneous vasodilatation, one of the cardinal signs of a hot flush.
Related Products: NKB-SAP (Cat. #IT-63), Blank-SAP (Cat. #IT-21)