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Les kisspeptides (KP), puissants sécrétagogues de la GnRH, agissent par l'intermédiaire du récepteur couplé aux protéines G, le GPR54. Une perfusion i.v. de KP est non seulement capable de synchroniser les ovulations chez la brebis cyclique, mais également d’induire un cycle chez la brebis en anoestrus. L'objectif de ma thèse a été d'étudier la neuroanatomie du système KP / GnRH, et de définir des applications potentielles du KP dans le contrôle du cycle chez la jument cyclique et en anoestrus. Nos résultats ont permis de montrer que 1) le KP interagit avec le système GnRH au niveau hypothalamique, 2) une perfusion i.v. de KP en début de phase folliculaire conduit à une stimulation - quoique transitoire – de la sécrétion des gonadotropines, 3) une capacité limitée pour reconstituer le stock en GnRH et / ou LH / FSH pourrait expliquer la nature transitoire de la stimulation par le KP, 4) une perfusion de KP pendant 3 jours, depuis le début de la phase folliculaire, tend à avancer le pic péri-ovulatoire de LH et l'ovulation, 5) une perfusion plus longue (soit plus de 3 jours) de KP, pendant toute la phase folliculaire, n’induit pas une ovulation plus précoce, 6) pendant la saison d'anoestrus, une perfusion de KP pendant 3 jours stimule la sécrétion de LH, avec une intensité néanmoins inférieure à celle observée avec une perfusion de GnRH. En conclusion, bien que l'utilisation potentielle du KP pour synchroniser ou induire l'ovulation pendant la saison de reproduction semble discutable, sa capacité à induire des cycles durant la période d'anoestrus présente un intérêt et mérite des études plus approfondies.Kisspeptins (KP) are very potent secretagogues of GnRH which act through the G protein-coupled receptor GPR54. An i.v. infusion of KP is not only able to synchronize ovulations of cyclic ewes, but also to induce cycle in anoestrus ewes. The aim of my thesis was to investigate the neuroanatomy of the KP / GnRH system, and define potential applications for KP in the control of the estrus cycle in the cyclic and anoestrus mares. Our results showed that 1) KP interact with GnRH systems at the hypothalamic level, 2) an i.v. infusion of KP during early follicular phase leads to an enhanced - albeit transient - secretion of gonadotropins, 3) a limited ability to replenish GnRH and/or LH/FSH stores might explain the transient nature of the KP stimulation, 4) an infusion of KP for 3 days, since early follicular phase, modestly advances the periovulatory LH surge and the ovulation, 5) a longer (i.e. more than 3 days) infusion of KP during all the follicular phase does not lead to precocious ovulation, 6) during the anoestrus season, an infusion of KP for 3 days heightens LH secretion, with however a lower intensity to that observed with an infusion of GnRH. In conclusion, albeit the potential use of KP to synchronize or induce ovulation during the breeding season appears questionable, its ability to induce cycles during the anoestrus period is of interest and warrants further investigation

Le kisspeptide : nouvelle molécule pour la maîtrise du cycle chez la jument ?

Diplôme : Dr. d'Universit

New insights on the neuroendocrine control of puberty and seasonal breeding in female sheep

International audienceTiming of puberty has a great influence on animal productivity. For example, reproduction in sheep can be affected by seasonality, leading to fluctuations in availability of animal products. Therefore, optimization of birth dates would improve reproductive success in sheep. Since the discovery of the major role of kisspeptin and Kiss1R, its cognate receptor, in reproductive function, there are new opportunities for interventions. Repeated or continuous administration of native kisspeptin are able to hasten puberty and induce ovulation during breeding and non-breeding seasons of sheep. However, due to the short half-life of kisspeptin, protocols involving native kisspeptin are usually proof of concept, but not practical under field conditions. Consequently, there are efforts to develop kisspeptin analogues capable of replicating effects of repeated/continuous administration of native kisspeptin. In this review, we intended to provide a comprehensive summary of the neuroendocrine requirements for puberty onset and ovulation in adult ewes, focusing on kisspeptin, its physiological effects and responses to its analogues on reproductive function in ewes

Towards new strategies to manage livestock reproduction using kisspeptin analogs

Remerciements :Hugues Dardente, Ludovic Calandreau and Vincent Aucagne for critical reading of the manuscript and Vincent Robert and Didier Lomet for their invaluable contribution to the realization of experimentsThe discovery of the hypothalamic neuropeptide kisspeptin and its receptor (KISS1R) have dramatically improved our knowledge about the central mechanisms controlling reproduction. Kisspeptin neurons could be considered the hub where internal and external information controlling reproduction converge. The information is here elaborated and the command dispatched to GnRH neurons, the final output of the brain system controlling reproduction. Several studies have shown that in mammals administration of kisspeptin could finely modulate many aspects of reproduction from puberty to ovulation. For example in ewes kisspeptin infusion triggered ovulation during the non-breeding season and in prepubertal rat repeated injections advanced puberty onset. However, especially in livestock, the suboptimal pharmacological properties of endogenous kisspeptin, notably it short half-life and consequently its poor pharmacodynamics, fetters its use to experimental setting. To overcome this issue synthetic KISS1R agonists, mainly based on kisspeptin backbone, were created. Their more favorable pharmacological profile, longer half-life and duration of action, allowed to perform promising initial experiments for controlling ovulation and puberty. Additional experiments and further refinement of analogs would still be necessary to exploit fully the potential of targeting the kisspeptin system. Nevertheless, it is already clear that this new strategy may represent a breakthrough in the field of reproduction control

Stimulation of the gonadotropin axis by kisspeptin: potential application to manipulate reproduction in ewes and pony mares

International audienc

Somatostatin (SOM) contacts on kisspeptin (KP) neurons in the arcuate nucleus both in ewes and rats: a possible involvement of SOM on KP-induced LH secretion

National audienc

Kisspeptins and the reproductive axis: potential applications to manage reproduction in farm animals

Kisspeptins (Kp) are a family of neuropeptides produced mainly by two hypothalamic neuronal cell populations. They have recently emerged as a major regulator of the gonadotropin axis and their action is located upstream of the gonadotropin-releasing hormone (GnRH) cell population. In less than 10 yr a growing body of literature has demonstrated the involvement of these peptides in most, if not all, aspects of reproductive axis maturation and function. In contrast to these abundant basic research studies, few experiments have evaluated the potential application of Kp as tools to manipulate reproduction in domestic animals. In mammals, exogenous Kp administration potently stimulates gonadotropin secretion. This action is exerted mainly, if not exclusively, through the stimulation of GnRH release. Intravenous, intraperitoneal, or subcutaneous administration of Kp induced a robust and rapid increase in plasma gonadotropins (luteinizing hormone [LH] and follicle-stimulating hormone [FSH]). However, this stimulatory effect is of short duration. Prolonged LH and FSH release over several hours can be achieved only when Kp are given as repeated multiple bolus or as an infusion. Kp administration was used in two experimental models, ewe and pony mare, with the aim of inducing well-timed and synchronized ovulations. During the breeding season, progesterone-synchronized ewes were given an intravenous infusion of Kp starting 30 h after the removal of progesterone implants. An LH surge was induced in all Kp-treated animals within 2 h of infusion onset. In contrast, in pony mares a constant infusion of Kp for 3 d in the the late follicular phase was unable to induce synchronized ovulation. Another set of studies showed that Kp could be used to activate reproductive function in acyclic animals. Pulsatile administration of Kp in prepubertal ewe lambs was shown to activate ovarian function, leading to enhanced ovarian steroidogenesis, stimulation of LH preovulatory surge, and ovulation. In anestrous ewes, an intravenous infusion of a low dose of Kp induced an immediate and sustained release of gonadotropins, followed a few hours later by an LH surge. This hormonal pattern mimicked hormonal changes normally observed during the estrous cycle follicular phase and was associated with a high percentage of ovulating animals (80%). In summary, exogenous administration of Kp appears to be a new tool to manipulate reproduction. However, optimal doses and periods of treatment should be defined for each species, and the development of powerful analogs or long-term release formulations is necessary before large-scale applications in domestic animals could be envisaged

Do endogenous kisspeptins and synthetic agonist C6 trigger different intracellular responses?

National audienc

Kisspeptin immunoreactive neurons in the equine hypothalamus interactions with GnRH neuronal system.

International audienceTo determine if kisspeptin could be implicated in the control of reproduction in equine species, we studied the distribution of kisspeptin neurons and their anatomical interactions with GnRH neurons in the hypothalamus of pony mares. Brains were collected in three pony mares between 2 and 4 h after ovulation. One major population of kisspeptin immunoreactive cell bodies was found in the arcuate nucleus (ARC), where they extended from the middle of the nucleus to the premammillary recess. Kisspeptin immunoreactive varicose fibers extended from the preoptic area to the mammillary nuclei, with important densities especially in the anterior periventricular area and the median eminence (ME). Rare close appositions of kisspeptin fibres on GnRH cell bodies were observed in the ARC. Close appositions between kisspeptin and GnRH fibres were also confirmed at a low incidence in the anterior basal periventricular area and at a high incidence in the ME. This work provides neuroanatomical bases for further investigations into the role of kisspeptin in equine reproduction. (C) 2008 Elsevier B.V. All rights reserved

Mise en évidence du kisspeptide dans l'espèce équine

National audienc