New GnRH analogs in canine reproduction

Gonadotropin-releasing hormone (GnRH) analogs, which include agonists and antagonists, have been produced by amino acid substitutions of the native GnRH molecule to create greater potency and longer duration of effectiveness. The aim of this article was to review the pharmacological effects and the existing clinical literature of new GnRH analogs, namely agonists released from long-term formulations and third generation antagonists, in domestic dogs. Long-term administration of agonists functions through desensitization and down-regulation of GnRH pituitary receptors inhibiting gonadotropin production and release after an initial stimulation. Conversely, GnRH antagonists bind to gonadotrope GnRH receptors and compete successfully with endogenous GnRH for occupancy, thereby inhibiting the pituitary-gonadal axis immediately. There is a promising place for both agonists and antagonists in future canine reproduction. They can be used in the control of estrous cycle, hormone-dependent diseases as well as in contraception. Some information on the effectiveness and safety of these new analogs in canine reproduction is already available, yet further work is needed before they could be widely recommended. The increase in gonadotropins and gonadal steroids following administration of agonists might have adverse effects when used on hormone-dependent diseases. This initial "flare" should also be carefully managed in anestrous and prepubertal bitches. At present, the main application of antagonists seems limited to situations where an acute endocrine, inhibitory effect is required, e.g. proestrus or pregnancy termination. Future commercial availability of long-acting, single-dose antagonists could go far towards controlling pet population.     

Substituted oxazole benzenesulfonamides as potent human beta3 adrenergic receptor agonists

As a part of our investigation into the development of orally bioavailable beta3 adrenergic receptor agonists, we have identified a series of substituted oxazole derivatives that are potent beta3 agonists with excellent selectivity against other beta receptors. Several of these compounds showed excellent oral bioavailability in dogs. One example, cyclopentylethyloxazole 5f is a potent beta3 agonist (EC50 = 14 nM, 84% activation) with 340-fold and 160-fold selectivity over beta1 and beta2 receptors, respectively, and has 38% oral bioavailability in dogs.     

Two small molecule agonists of glucagon-like peptide-1 receptor modulate the receptor activation response differently

The glucagon-like peptide-1 receptor (GLP-1R) is a target for type 2 diabetes treatment. Due to the inconvenience of peptide therapeutics, small-molecule GLP-1R agonists have been studied. Compound 2 (6,7-dichloro-2-methylsulfonyl-2-N-tert-butylaminoquinoxaline) and compound B (4-(3-(benzyloxy)phenyl)-2-(ethylsulfinyl)-6-(trifluoromethyl)pyrimidine) have been described as small molecule, ago-allosteric modulators of GLP-1R. However, their modes of action at the GLP-1R have not been elucidated. Thus, in this study, we compared the mechanisms of action between these two compounds. When compound 2 was treated with endogenous or exogenous peptide agonists (GLP-1 and exenatide) or fragments of peptide agonists (GLP-1(9-36), Ex3, Ex4, and Ex5), the response curve of these peptide agonists shifted left without a change in maximum efficacy. In contrast, compound B potentiated the response and increased maximum efficacy. However, N-terminal truncated orthosteric antagonists including Ex7, Ex9, and Ex10, augmented the response of compound 2 at the GLP-1R but did not alter compound B activity. Intriguingly, when we co-treated compound 2 with compound B in CHO cells expressing full-length hGLP-1R or N-terminal extracellular domain-truncated GLP-1R, the activation of both types of receptors increased additively, implying that the N-terminus of the receptor is not involved in the modulation by compound agonists. We confirmed that these two compounds increased calcium influx by different patterns in CHO cells expressing GLP-1R. Taken together, our findings suggest that compounds 2 and B have different modes of action to activate GLP-1R. Further study to identify the putative binding sites will help in the discovery of orally available GLP-1R agonists.     

Contraception with LHRH agonists, a new physiological approach

The paradoxical antifertility effects of luteinizing hormone releasing hormone (LHRH) agonists in experimental male and female animals have been reported. Treatment with LHRH induces luteolysis and inhibits ovulation in normal women; in men, the same treatment decreases testicular steroidogenesis. This paper examines the mechanisms responsible for the paradoxical antifertility effects of LHRH agonists. A series of experiments was conducted in rats to determine the following: 1) the effect of lower and more physiological doses of the LHRH agonist on testicular gonadotropin receptors, 2) the time course of the effect of daily administration of 1 mcg of LHRH agonist on testicular and plasma concentration of steroid intermediates, 3) cellular changes occurring in the testis during longterm administration of the agonist, and 4) characteristics of LHRH receptors in the testis. The results show that LHRH agonists: 1) produce an inhibiting effect on testicular prolactin receptor concentrations, 2) can cause a dramatic fall in testicular androstenedione and testosterone concentration following treatment, 3) induce degenerative cellular changes in rat testis during longterm administration, and 4) may play a role in the physiological control of gonadal functions by a locally produced LHRH-like molecule. Similar experiments on the ovarian functions in female rats show that relatively low doses of LHRH agonist leads to marked loss of ovarian LH (luteinizing hormone) receptor accompanied by a decreased plasma progesterone concentration and uterine weight. The presence of specific ovarian LHRH receptors raises the possibility that LHRH secreted locally could be involved in the control of ovarian activity. In 6 normal men, a single intranasal administration of a potent LHRH agonist clearly showed inhibition of testicular steroidogenesis while studies on the luteolytic and antiovulatory activity in normal women demonstrated a luteolytic action of LHRH and its agonists. Progesterone secretion from the corpus luteum is important for the implantation and the maintenance of early pregnancy. The intranasal route of administration of LHRH agonists offers the advantage of easy, routine application by the general population.     

Replacement of progesterone restores the nocturnal surge of prolactin following suppression with a gonadotropin-releasing hormone agonist during early pregnancy in the rat

Continuous administration of a GnRH agonist (GnRH-Ag) at a dose of 5 micrograms/day, commencing on day 7 of pregnancy resulted in the suppression of daily nocturnal surges of prolactin (PRL) on day 8, and serum progesterone (P4) levels with subsequent termination of pregnancy. Replacement with dydrogesterone, a synthetic analog of P4 at a dose of 4 mg/day s.c. restored the magnitude of nocturnal PRL surges. These data suggest that GnRH-Ag may act either at the level of the brain to suppress the nocturnal PRL surge, resulting in a fall in serum P4 levels or at the level of the corpus luteum itself or at both sites simultaneously to terminate pregnancy.     

Kappa agonists and vasopressin secretion

The effects of opiates on vasopressin secretion have been controversial for many years. This is probably due to the existence of different types of opioid receptors and to the lack of specificity of the compounds used. Specific kappa agonists, which have been described recently, produce a marked diuretic effect without any associated increase in electrolyte elimination. They seem to exert their effects through an interaction with kappa receptors situated on nerve terminals and/or pituicytes. These receptors could be directly coupled to L-type calcium channels, their activation leading to a decrease in the effectiveness of action potentials to evoke vasopressin secretion from nerve terminals in the neurohypophysis. This mechanism of action may explain the decrease in plasma vasopressin levels induced by kappa agonists.     

Novel GPCR screening approach: indirect identification of S1P receptor agonists in antagonist screening using a calcium assay

To elucidate the physiological function of sphingosine 1-phosphate receptors 1-3 (S1P1-3) we aimed to identify selective ligands for these GPCRs. S1P2 and S1P3 are coupled to Gq, and are, therefore, linked to the phospholipase C/IP3/calcium pathway. S1P1 is solely coupled to Gi and was artificially linked to calcium signaling by coexpression of Galpha 16. The three receptors desensitized on challenge of cells with an agonist (i.e., agonists appeared as antagonists in a second calcium measurement). We screened a compound library for inhibitors of S1P-stimulated calcium signals, and we could identify agonists and antagonists with a single measurement. Agonism and antagonism were confirmed by recording compound-and S1P-induced calcium signals from the same assay well. For the three receptors, we found a reciprocal correlation of agonism and "apparent" antagonism of agonists. In addition, agonists indirectly discovered by this approach do not promote calcium mobilization through endogenous GPCRs.     

Effects of gonadotropin-releasing hormone agonists on meiotic maturation of follicle-enclosed oocytes in rabbits

The effects of GnRH agonists on in vitro maturation of rabbit follicle-enclosed oocytes were studied. Rabbit preovulatory follicles were cultured with or without hCG (10(2) ng/ml), buserelin (10(2)-10(5) ng/ml), or leuprolide (10(2)-10(5) ng/ml) for 14 hours in vitro. GnRH agonists induced the resumption of meiosis in the follicle-enclosed oocytes in a dose-dependent manner. The percentage of oocytes achieving GVBD following treatment with 10(5) ng/ml buserelin (87.9 +/- 6.3%) or 10(5) ng/ml leuprolide (86.0 +/- 4.1%) did not differ significantly from hCG-treated control (87.3 +/- 3.8%). Mature oocytes initially were detected within 2 hours of GnRH agonist exposure. Concomitant addition of a GnRH antagonist at 10(4) ng/ml significantly blocked the stimulatory effect of GnRH agonist on oocyte maturation. GnRH agonists significantly stimulated both prostaglandin (PG) E2 (PGE2) and PGF2 alpha production by preovulatory follicles (p less than 0.01), but secreted prostanoid levels did not differ significantly among different concentrations of GnRH agonists. Meiotic maturation of follicle-enclosed oocytes following GnRH agonist exposure began 2 hours earlier than production of PGs. PG production stimulated by GnRH agonists was reduced significantly by indomethacin. However, oocyte maturity in the presence of GnRH agonist plus indomethacin did not differ significantly from that of GnRH agonist alone. GnRH agonistic analogues induce the resumption of meiosis in follicle-enclosed oocytes in rabbits by a mechanism other than PG stimulation.     

Epidural vs intramuscular administration of lecirelin, a GnRH analogue, for the resolution of follicular cysts in dairy cows

Bovine follicular cysts are an ovarian disorder of dairy cows associated with abnormal estrous behaviour and infertility. The treatment of choice is intramuscular administration of a GnRH analogue, which acts by triggering pituitary release of LH. However, the presence of GnRH and GnRH receptors on spinal cord and ovary in some species, and the kind of innervation of the ovary, let us hypothesize that GnRH and its analogues may also act when administered by epidural route, as happens for other drugs. Therefore the aim of this study was to compare the effects of epidural vs intramuscular administration of lecirelin (a GnRH analogue) on FC regression, estrus detection and pregnancy outcomes. The study was conducted on 220 Friesian cows affected by follicular cysts, divided among 4 groups: Group L(epid) and Group L(im) received, respectively 50 μg of lecirelin in the epidural space and intramuscular; Group C(epid) and Group C(im) were used as control groups. In Group L(epid), estrus induction and pregnancy rates were significantly higher than in Group L(im). The results of this study show that the epidural administration of lecirelin promoted the remission of follicular cysts and an improvement of reproductive parameters compared to intramuscular administration. Thus, an alternative therapeutical approach is available for FC treatment, in order to obtain an easier restoration of the ovarian activity, especially in those cases refractory to classical therapeutic approaches.     

GnRHs and GnRH receptors

GnRH is the pivotal hypothalamic hormone regulating reproduction. Over 20 forms of the decapeptide have been identified in which the NH2- and COOH-terminal sequences, which are essential for receptor binding and activation, are conserved. In mammals, there are two forms, GnRH I which regulates gonadotropin and GnRH II which appears to be a neuromodulator and stimulates sexual behaviour. GnRHs also occur in reproductive tissues and tumours in which a paracrine/autocrine role is postulated. GnRH agonists and antagonists are now extensively used to treat hormone-dependent diseases, in assisted conception and have promise as novel contraceptives. Non-peptide orally-active GnRH antagonists have been recently developed and may increase the flexibility and range of utility. As with GnRH, GnRH receptors have undergone co-ordinated gene duplications such that cognate receptor subtypes for respective ligands exist in most vertebrates. Interestingly, in man and some other mammals (e.g. chimp, sheep and bovine) the Type II GnRH receptor has been silenced. However, GnRH I and GnRH II still appear to have distinct roles in signalling differentially through the Type I receptor (ligand-selective-signalling) to have different downstream effects. The ligand-receptor interactions and receptor conformational changes involved in receptor activation have been partly delineated. Together, these findings are setting the scene for generating novel selective GnRH analogues with potential for wider and more specific application.     

Assessment of acrosomal status in rat spermatozoa: studies on carbohydrate and non-carbohydrate agonists

In the mouse and several other species, including man, capacitated acrosome-intact spermatozoa interact with natural [soluble zona pellucida (ZP) and progesterone (P4)] and synthetic [neoglycoproteins (ngps) and calcium (Ca(2+)) ionophore] agonists, prior to the initiation of a Ca(2+)-dependent signal transduction cascade. The net result is the fusion of the sperm plasma membrane overlying the outer acrosomal membrane at multiple sites and exocytosis of acrosomal contents [i.e., induction of the acrosome reaction (AR)]. This step is believed to be a prerequisite that enables the acrosome-reacted spermatozoon to penetrate the ZP and fertilize the egg. Although the rat is one of the most commonly used laboratory animals, very little is known about the chemical nature of agonists that induce the AR in this species. The lack of this information is primarily due to the fact that the rat sperm acrosome is a relatively thin structure. Thus, it is difficult to assess the status of the sperm acrosome in this species. In this report, we describe the use of a Coomassie brilliant blue dye staining procedure to assess the status of the rat sperm acrosome by light microscopy. The procedure is highly reproducible and has allowed us to determine the effects of carbohydrate (ngps and mouse ZP) and noncarbohydrate (P4 and Ca(2+) ionophore) agonists on capacitated spermatozoa. In addition, we have used a pharmacological approach to examine the functional significance of calmodulin (CaM), a Ca(2+)-binding protein, in induction of the AR in spermatozoa. Data presented in this report demonstrate that several ngps, solubilized mZP, P4, and Ca(2+) ionophores induce the AR in rat spermatozoa. Furthermore, we demonstrate that, whereas CaM antagonists blocked P4-induced AR, most of the inhibitors used had no significant effect on the Ca(2+) ionophore-induced (nonphysiological) AR.     

Gonadotropin-releasing hormone (GnRH) and its natural analogues: a review

The pivotal role of gonadotropin-releasing hormone (GnRH) during the hormonal regulation of reproductive processes is indisputable. Likewise, many factors are known to affect reproductive function by influencing either GnRH release from hypothalamus or pituitary gland responsiveness to GnRH. In veterinary medicine, GnRH and its agonists (GnRHa) are widely used to overcome reduced fertility by ovarian dysfunction, to induce ovulation, and to improve conception rate. GnRHa are, moreover, integrative part of other pro-fertility treatments, e.g. for synchronization of the estrous cycle or stimulation for embryo transfer. Additionally, continuous GnRH which shows desensitizing effects of the pituitary-ovarian axis has been recommended for implementation in anti-fertility treatments like inhibition of ovulation or reversible blockade of the estrous cycle. Just as much, another group of GnRH analogues, antagonists, are now in principle disposable for use. For a few decades, GnRH was thought to be a unique structure with a primary role in regulation gonadotropins. However, it became apparent that other homologous ligands of the GnRH receptor (GnRHR) exist. In the meantime, more than 20 natural variants of the mammalian GnRH have been identified in different species which may compete for binding and/or have their own receptors. These GnRH forms (GnRHs) have apparently common and divergent functions. More studies on GnRHs should contribute to a better understanding of reproductive processes in mammals and interactions between reproduction and other physiological functions. Increased information on GnRHs might raise expectations in the application of these peptides in veterinary practice. It is the aim of this review to discuss latest results from evolutionarily based studies as well as first experimental tests and to answer the question how realistic might be the efforts to develop effective and animal friendly practical applications for endogenous GnRHs and synthetic analogues.     

Current knowledge on the nucleotide agonists for the P2Y2 receptor

P2Y receptors are G-protein-coupled receptors (GPCRs) for extracellular nucleotides. There are eight mammalian P2Y receptor subtypes (P2Y1, P2Y2, P2Y4, P2Y6, P2Y11, P2Y12, P2Y13, and P2Y14). P2Y2 receptors are widely expressed and play important roles in multiple functionalities. Diquafosol tetrasodium, known as INS365, which was the first P2Y2 receptor agonists that had been approved in April 2010 and launched in Japan by Santen Pharmaceuticals. Besides, a series of similar agonists for the P2Y2 receptor are undergoing development to cure different diseases related to the P2Y2 receptor. This article illustrated the structure and functions of the P2Y2 receptor and focused on several kinds of agonists about their molecular structures, research progress and chemical synthesis methods. Last but not the least, we summarized the structures-activity relationship (SAR) of agonists for the P2Y2 receptor and expected more efficient agonists for the P2Y2 receptor.     

Potent GnRH agonists containing L-amino acid derivatives in the six position

New agonists related to gonadotropin-releasing hormone (GnRH) have been synthesized that are comparable in potency to the GnRH and its superagonists for release of LH and estrus suppression without substitutions with D- or unnatural amino acids in position 6. We now report a series of L-beta-aspartyl-6 GnRH analogs containing only naturally occurring L-amino acids in the whole sequence, exhibiting considerable in vivo biological activity. Dose and time dependent LH release capability of the different analogs in adult male mice, estrus suppression comparisons and blockade of ovulation in female rats are given. The incorporation of L-Asp-OMe and L-Asp-OBzl in position 6 of GnRH resulted in the most potent GnRH agonists (to 12-20xGnRH potency) in this series inducing a biphasic biological response similar to the D-amino acid-6 substituted superactive GnRH analogs. A correlation between the LH releasing potencies of the analogs and their HPLC retention times was also investigated. Peptide synthesis were achieved using either solid phase or solution phase methodology.     

Direct effect of a gonadotropin-releasing hormone agonist on the growth of canine mammary tumour cells

Gonadotropin-releasing hormone (GnRH) agonist exert "in vivo" an inhibitory action on the growth of hormone-dependent canine mammary tumours (Lombardi et al. [1999] J. Vet. Pharmacol Ther. 22(1):56-61). The present experiments have been performed "in vitro" in order to investigate the mechanisms involved in this direct antiproliferative action of GnRH agonists. In particular, the aim was to study whether these compounds might exert their antiproliferative effect by interfering with the stimulatory action of epidermal growth factor (EGF). To this purpose, the effects of GnRH agonist, Goserelin (GnRH-A), on the mitogenic action of EGF, on EGF-activated intracellular signaling mechanisms (intracellular calcium and nitric oxide production) as well as on ATP induced cell proliferation and signalling, and on the binding of EGF receptors have been evaluated in primary culture of canine mammary tumour cells. The results of these "in vitro" studies show that GnRH-A counteracts the mitogenic action of EGF and ATP, decreases the EGF/ATP-induced calcium signalling and reduces EGF binding, probably by means of NO-induced [Ca2+]i downregulation. These data suggest that GnRH agonists may inhibit the proliferation of the tumour cells by interfering with the stimulatory action of EGF.     

Effects of hormonal treatments on reproductive performance and embryo production

Developments in the use of drugs to improve reproduction and embryo production have focused on estrus and ovulation synchronization protocols and embryonic survival. Protocols for synchronization of ovulation eliminate the need for detection of estrus and allow timed insemination of all cows enrolled. Various estrogenic, progestational, GnRH and PGF2 alpha-like drugs are used to synchronize follicle development, CL regression and induction of ovulation. Strategies are discussed to optimize such programs to maximize herd pregnancy rates. Use of bovine Somatotrophin (bST) in combination with the Ovsynch protocol resulted in increased pregnancy rates, indicating possible effects on oocyte and embryonic development. Treatment of embryo donor cows with bST reduced the proportion of unfertilized oocytes and increased the number of transferable embryos. Furthermore, bST increased pregnancy rate when given to the recipient. Sub-luteal plasma progesterone concentrations after insemination have been associated with lower pregnancy rates. Injection of hCG on day 5 post-insemination resulted in induction of an accessory CL, increased plasma progesterone concentrations and increased conception rates. Strategies involving the use of sustained GnRH agonists to enhance CL development and alter follicular development are considered for future programs to enhance pregnancy rates.     

Peripheral benzodiazepine receptor agonists exhibit potent antiapoptotic activities

The peripheral benzodiazepine receptor (PBR) has been implicated in several mitochondrial functions but the exact physiological role of this receptor is still under debate. Since the mitochondria have been attributed a central role in cell death, we have determined the effects of various PBR agonists and antagonists on the apoptosis of the human lymphoblastoid cell line U937. On this cell type, the PBR agonist Ro5-4864 was found to strongly protect the cells against apoptosis induced by TNFalpha. The antiapoptotic effect of PBR agonists was due to a selective interaction with the PBR as demonstrated by: (1) a close correlation between the antiapoptotic activity of various PBR agonists and their respective affinity for the PBR determined on the same cells, (2) a lack of effect of central benzodiazepine receptors agonists such as clonazepam on cell survival, (3) the lack of an antiapoptotic activity of Ro5-4864 on wild-type Jurkat cells (lacking the PBR receptor) and the reappearance of this effect on PBR-transfected Jurkat cells, and (4) the blockade of the antiapoptotic effect of PBR agonists by a selective PBR antagonist. The present results therefore indicate that PBR agonists are potent antiapoptotic compounds and show that this effect might represent a major function for this enigmatic receptor.     

Phosphatase-resistant analogues of lysophosphatidic acid: agonists promote healing, antagonists and autotaxin inhibitors treat cancer

Isoform-selective agonists and antagonists of the lysophosphatidic acid (LPA) G protein-coupled receptors (GPCRs) have important potential applications in cell biology and therapy. LPA GPCRs regulate cancer cell proliferation, invasion, angiogenesis, and also biochemical resistance to chemotherapy- and radiotherapy-induced apoptosis. LPA and its analogues also are feedback inhibitors of the enzyme lysophospholipase D (lysoPLD, a.k.a., autotaxin, ATX), a central regulator of invasion and metastasis. For cancer therapy, the optimal therapeutic profile would be a metabolically-stabilized, pan-LPA receptor antagonist that also inhibited lysoPLD. For protection of gastrointestinal mucosa and lymphocytes, LPA agonists would be desirable to minimize or reverse radiation or chemical-induced injury. Analogues of lysophosphatidic acid (LPA) that are chemically modified to be less susceptible to phospholipases and phosphatases show activity as long-lived receptor-specific agonists and antagonists for LPA receptors, as well as inhibitors for the lysoPLD activity of ATX.