The impact of undernutrition on KNDy (kisspeptin/neurokinin B/dynorphin) neurons in female lambs

Anatomic distribution of kisspeptin neurons in the adult sheep amygdala: Associations with sex, estrogen receptor alpha, androgen receptor, and sexual partner preference

Kisspeptin neurons are primarily known for regulating reproductive function by stimulating hormone release that controls puberty and fertility. While typically associated with the hypothalamus, recent research suggests their presence in other brain regions, including the amygdala. The amygdala, crucial for emotional processing and social behaviors, consists of various nuclei. However, the specific distribution and potential functional implications of kisspeptin neurons within this region remain unclear. Understanding kisspeptin neuron distribution in the sheep amygdala could provide insights into their roles in modulating reproductive functions, emotional, and social behaviors in a species closely related to humans. This study employed immunohistochemistry and RNAscope™ fluorescent in situ hybridization to map the distribution of kisspeptin fibers and cells in the amygdala of intact adult male and luteal-phase female sheep. The research also investigated the co-expression of Kiss1 with estrogen receptor-α (ESR1) and androgen receptor (AR) mRNA, as well as the presence of kisspeptin receptor (Kiss1r) mRNA-containing cells. Kisspeptin immunoreactive fibers were most dense in the medial amygdala, while Kiss1 mRNA-containing cells were abundant in the medial, cortical, and basal nuclei. Extensive co-expression of Kiss1 with ESR1 and AR mRNA was observed. In the posterior medial nucleus, 80% of kisspeptin neurons co-expressed ESR1, and 40% co-expressed AR. Kiss1r mRNA-containing cells were found in the medial, cortical, and basal nuclei and co-localized within cells expressing Kiss1 mRNA. No differences in kisspeptin cell numbers were found between rams and ewes or between rams with different sexual partner preferences. This study provides a foundational map of the kisspeptin system in the sheep amygdala, offering insights into its potential roles in reproductive, emotional, and social behaviors. The extensive co-expression of Kiss1 mRNA with ESR1 and AR mRNA suggests possible regulation by sex steroids, while the presence of Kiss1r mRNA-containing cells indicates potential autocrine or paracrine signaling. These findings contribute to our understanding of kisspeptin neurons' distribution and potential functions beyond the hypothalamus, particularly in the amygdala.

KNDy Neurons and the Control of the Gonadotropic Axis in the Midgestation Fetal Sheep

KNDy neurons, located in the hypothalamic arcuate nucleus, coexpress kisspeptin (Kiss), neurokinin B, and dynorphin and play a crucial role in regulating GnRH/LH secretion in midgestation sheep fetuses. We hypothesize that KNDy-GnRH signaling is established during midgestation, with negative feedback acting through KNDy neurons regulating testosterone levels needed for brain masculinization in male fetuses. We used immunofluorescence histochemistry to assess the effect of chemical castration with the GnRH antagonist degarelix on arcuate KNDy neurons in fetal sheep. Fluorescent in situ hybridization demonstrated the presence of steroid receptors in untreated midgestation fetal kisspeptin neurons. Additionally, unanesthetized cannulated midgestation fetal sheep were used to examine the effects of KNDy peptides on LH secretion and characterize receptor specificity. Treatment of male lamb fetuses with degarelix on day 62 of gestation resulted in significantly decreased plasma LH and testosterone concentrations (P < .05), accompanied by a significant increase in arcuate Kiss neurons (P < .05). In unanesthetized cannulated fetuses, bolus administration of KP-10 (a Kiss receptor agonist) and senktide (NK3 receptor agonist) elicited robust LH release within 15 minutes. Pretreatment with the NK3 receptor antagonist SB222200 blocked the LH response to senktide, whereas P271 (Kiss receptor antagonist) did not affect basal LH or block the LH response to KP-10. Blocking κ-opiate receptor with PF4455242 significantly increased LH release. These results support the hypothesis that KNDy neurons regulate GnRH and gonadotropin secretion in midgestation sheep fetuses, acting as targets for negative feedback to maintain a stable androgen environment crucial for brain masculinization.

Neuropeptides in the hypothalamus

The hypothalamus is one of the most complex region in the central nervous system regarding neuroanatomy, neurochemical content, neuropeptide/classical neurotransmitter interactions, physiological actions, and pathophysiology. Hypothalamic neuropeptides have been involved in a large plethora of mechanisms related with obesity, anxiety, feeding, energy metabolism, defensive behavior, mood, and reproduction. The therapeutic potential of these findings is enormous but the physiological complexity occurring in the hypothalamus is huge due in part to the interactions between numerous neuropeptides as well as between neuropeptides and other neuroactive substances. Here, we review the development and neuroanatomy of the hypothalamus as well as the involvement of 31 neuropeptides in hypothalamic functions and pathologies. Alterations in the secretion, release, and/or concentrations of neuropeptides and/or their hypothalamic receptors can trigger different pathologies. Several therapeutic strategies that could be carried out by adjusting neuropeptide levels in the hypothalamus are suggested. The combination of imaging techniques with a detailed neurochemical knowledge of the hypothalamus would be an excellent diagnostic tool, allowing personalized treatment. Several approaches for future research that may contribute to improve or resolve these pathologies are also mentioned.

Malnutrition alters protein expression of KNDy neuropeptides in the arcuate nucleus of mature ewes

The neuropeptides kisspeptin, neurokinin B, and dynorphin A are imperative for the pulsatile secretion of gonadotropin-releasing hormone and luteinizing hormone to ultimately regulate reproductive cyclicity. A population of neurons co-expressing these neuropeptides, KNDy neurons, within the arcuate nucleus of the hypothalamus (ARC) are positioned to integrate energy status from afferent neuronal and glial cells. We hypothesized that KNDy-expressing neurons in the ARC of mature ewes are influenced by energy balance. To test this hypothesis, ovary-intact, mature ewes were fed to lose, maintain, or gain body weight and hypothalamic tissue harvested during the luteal phase of the estrous cycle. Fluorescent, multiplex immunohistochemistry with direct antibody conjugation was employed to identify and quantify neurons expressing a single neuropeptide, as well as for the first time report co-expression of kisspeptin, neurokinin B, and dynorphin A protein in the ARC. Previous reports using this population of ewes demonstrated that concentrations of insulin and leptin differed between ewes fed to achieve different body weights and that ewes fed to gain body weight had increased concentrations of progesterone. Moreover, within this population of ewes tanycyte density and cellular penetration into the ARC was increased in ewes fed to gain body weight. Within the current report we have revealed that the number of neurons in the ARC expressing kisspeptin, neurokinin B, and dynorphin A protein was increased in ewes fed to gain body weight. Moreover, the number of KNDy neurons in the ARC expressing all three neuropeptides within a single neuron was decreased in ewes fed to lose body weight and increased in ewes fed to gain body weight when compared to ewes fed to maintain body weight. The cumulative findings of this experimental model suggest that expression of kisspeptin, neurokinin B, and dynorphin A protein in the ARC during the luteal phase of the estrous cycle are influenced by energy balance-induced alterations in circulating concentrations of progesterone that drive changes in morphology and density of tanycytes to ultimately regulate central perception of global energy status. Moreover, these results demonstrate that changes in KNDy neurons within the ARC occur as an adaptation to energy balance, potentially regulated divergently by metabolic milieu via proopiomelanocortin afferents.

Menopause Hot Flashes and Molecular Mechanisms Modulated by Food-Derived Nutrients

The causes of vasomotor symptoms, including hot flashes, are not fully understood, may be related to molecular factors, and have a polygenic architecture. Nutrients and bioactive molecules supplied to the body with food are metabolized using various enzymatic pathways. They can induce molecular cell signaling pathways and, consequently, activate effector proteins that modulate processes related to hot flashes in menopausal women. In this review, we analyzed the literature data from the last 5 years, especially regarding genome-wide association study (GWAS) analysis, and selected molecular factors and cell signaling pathways that may potentially be related to hot flashes in women. These are the kisspeptin-GnRH pathway, adipocyte-derived hormones, aryl hydrocarbon receptor signaling, catechol estrogens and estrogen sulfotransferase, inflammatory and oxidative stress biomarkers, and glucose availability. Then, single compounds or groups of food ingredients were selected that, according to experimental data, influence the course of the discussed molecular pathways and thus can be considered as potential natural therapeutic agents to effectively reduce the troublesome symptoms of menopause in women.

Endogenous opiates and behavior: 2022

This paper is the forty-fifth consecutive installment of the annual anthological review of research concerning the endogenous opioid system, summarizing articles published during 2022 that studied the behavioral effects of molecular, pharmacological and genetic manipulation of opioid peptides and receptors as well as effects of opioid/opiate agonists and antagonists. The review is subdivided into the following specific topics: molecular-biochemical effects and neurochemical localization studies of endogenous opioids and their receptors (1), the roles of these opioid peptides and receptors in pain and analgesia in animals (2) and humans (3), opioid-sensitive and opioid-insensitive effects of nonopioid analgesics (4), opioid peptide and receptor involvement in tolerance and dependence (5), stress and social status (6), learning and memory (7), eating and drinking (8), drug abuse and alcohol (9), sexual activity and hormones, pregnancy, development and endocrinology (10), mental illness and mood (11), seizures and neurologic disorders (12), electrical-related activity and neurophysiology (13), general activity and locomotion (14), gastrointestinal, renal and hepatic functions (15), cardiovascular responses (16), respiration and thermoregulation (17), and immunological responses (18).

Alterations in Appetite-Regulating Hormones in Girls with Central Early or Precocious Puberty

The prevalence of central precocious puberty (CPP) in girls has increased worldwide and is often associated with obesity in childhood as well as high fat/high glycemic index diets. Evidence suggests that subjects with obesity present with alterations in appetite-regulating hormones. The arcuate and paraventricular nuclei of the hypothalamus are the centers of action of appetite hormones, as well as the location of gonadotropin-releasing hormone (GnRH) neurons, the activation of which results in the onset of puberty. This anatomical proximity raises the question of possible alterations in appetite-regulating hormones in patients with CPP. Furthermore, diet-induced hypothalamic inflammation constitutes a probable mechanism of the pathophysiology of CPP, as well as alterations in appetite-regulating hormones in young children. In this article, we summarize the evidence investigating whether girls with CPP present with alterations in appetite-regulating hormones. We present evidence that leptin concentrations are elevated in girls with CPP, ghrelin concentrations are lower in girls with CPP, nesfatin-1 and orexin-A concentrations are elevated among girls with premature thelarche, and insulin concentrations are increased in girls with early menarche.

KNDy neurons as the GnRH pulse generator: Recent studies in ruminants

This review considers three aspects of recent work on the role of KNDy neurons in GnRH pulse generation in ruminants. First, work on basic mechanisms of pulse generation includes several tests of this hypothesis, all of which support it, and evidence that Kiss1r-containing neurons form a positive feedback circuit with the KNDy neural network that strengthen the activity of this network. The second section on pathways mediating external inputs focuses on the influence of nutrition and photoperiod, and describes the evidence supporting roles for proopiomelanocortin (POMC) and agouti-related peptide (AgRP) afferents to KNDy cells in each of these. Finally, we review studies exploring the potential applications of manipulating signaling by kisspeptin, and the other KNDy peptides, to control reproductive function in domestic animals and conclude that, although these approaches show some promise, they do not have major advantages over current practices at this time.

Impact of food restriction on the medio-basal hypothalamus of intact ewes as revealed by a large-scale transcriptomics study

In mammals, the medio-basal hypothalamus (MBH) integrates photoperiodic and food-related cues to ensure timely phasing of physiological functions, including seasonal reproduction. The current human epidemics of obesity and associated reproductive disorders exemplifies the tight link between metabolism and reproduction. Yet, how food-related cues impact breeding at the level of the MBH remains unclear. In this respect, the sheep, which is a large diurnal mammal with a marked dual photoperiodic/metabolic control of seasonal breeding, is a relevant model. Here, we present a large-scale study in ewes (n = 120), which investigated the impact of food restriction (FRes) on the MBH transcriptome using unbiased RNAseq, followed by RT-qPCR. Few genes (~100) were impacted by FRes and the transcriptional impact was very modest (<2-fold increase or < 50% decrease for most genes). As anticipated, FRes increased expression of Npy/AgRP/LepR and decreased expression of Pomc/Cartpt, while Kiss1 expression was not impacted. Of particular interest, Eya3, Nmu and Dio2, genes involved in photoperiodic decoding within the MBH, were also affected by FRes. Finally, we also identified a handful of genes not known to be regulated by food-related cues (e.g., RNase6, HspA6, Arrdc2). In conclusion, our transcriptomics study provides insights into the impact of metabolism on the MBH in sheep, which may be relevant to human, and identifies possible molecular links between metabolism and (seasonal) reproduction.

Opioidergic pathways and kisspeptin in the regulation of female reproduction in mammals

Endogenous opioid peptides have attracted attention as critical neuropeptides in the central mechanism regulating female reproduction ever since the discovery that arcuate dynorphin neurons that coexpress kisspeptin and neurokinin B (NKB), which are also known as kisspeptin/neurokinin B/dynorphin (KNDy) neurons, play a role as a master regulator of pulsatile gonadotropin-releasing hormone (GnRH) release in mammals. In this study, we first focus on the role of dynorphin released by KNDy neurons in the GnRH pulse generation. Second, we provide a historical overview of studies on endogenous opioid peptides. Third, we discuss how endogenous opioid peptides modulate tonic GnRH/gonadotropin release in female mammals as a mediator of inhibitory internal and external cues, such as ovarian steroids, nutritional status, or stress, on reproduction. Then, we discuss the role of endogenous opioid peptides in GnRH surge generation in female mammals.