Dietary Copper on the Onset of Puberty in Rats: Possible Mechanism.
Sun. Rui R; Wang. Zhongshen Z; Li. Cheng C; Li. Meng M; Yang. Wenyan W; Yang. Lianyu L
Error: Timeout.
Gonadorelin
GnRH, Luteinizing Hormone-Releasing Hormone, LHRH, Factrel
A synthetic decapeptide analog of GnRH that stimulates the pituitary gland to release FSH and LH, aiding in reproductive hormone regulation and fertility treatments.
The Role of Cytokines in the Development and Functioning of the Hypothalamic-Pituitary-Gonadal Axis in Mammals in Normal and Pathological Conditions.
Ignatiuk. Vasilina M VM; Sharova. Viktoria S VS; Zakharova. Liudmila A LA
Error: Timeout.
Triptorelin: The Need for Legal Protection Aimed at the Full Political and Social Integration of Gender Variant youth. A Comparison of Different Global realities.
Lacasella. G G; Volonnino. G G; Salducci. M M; Ottavian. M M; Spadazzi. F F; Karaboue. M A A MAA; Tr...
Error: Timeout.
A Study on the Timing of Resumption of Menstruation After Interruption/Termination of GnRH Agonist Therapy in Premenopausal Breast Cancer Patients.
Takei. Kahori K; Huang. Haipeng H; Sato. Hazuki H; Kashiwabara. Soichiro S; Samejima. Kouki K; Matsu...
Error: Timeout.
Investigating the Impact of <i>GNRH1</i> Polymorphism rs6185 in Women with Polycystic Ovary Syndrome through Association Study, Meta analysis and <i>In silico</i> Study.
Thapar. Pallvi P; Kaur. Mandeep M; Singh. Sukhjashanpreet S; Beri. Archana A; Kaur. Anupam A
Error: Malformed JSON response.
Acupuncture and the HPO Axis: A Review of Neuroendocrine Mechanisms With Implications for Ovarian Function.
Bu. Yu Y; Yan. Jinglan J; Zhang. Zhen Z; Xue. Song S; Chi. Funa F; Zheng. Yuanjia Y; Xia. Yucen Y; C...
Error: Timeout.
Adherence to adjuvant endocrine therapy including GnRH-analogues and survival: a population-based cohort study.
Eriksson Bergman. Louise L; Matikas. Alexios A; Liu. Xingrong X; Foukakis. Theodoros T
Error: Timeout.
Progestagens for pain symptoms associated with endometriosis.
Chen. Innie I; Kives. Sari S; Zakhari. Andrew A; Nguyen. Dong Bach DB; Goldberg. Hanna R HR; Choudhr...
Error: Timeout.
Hormonal lockdown: How mole-rat societies enforce infertility in helpers.
van Vuuren. A K Janse AKJ; Süess. T T; Finn. Kyle K; Hagenah. N N; Ganswindt. A A; Hart. D W DW...
Error: Timeout.
Safety and efficacy of relugolix combination therapy in symptomatic uterine fibroids.
De Angelis. Maria Chiara MC; Ambrosetti. Fedora F; Reppuccia. Sabrina S; Nardelli. Fabiola F; Zizolf...
Error: Timeout.
Metabolic and Anthropometric Changes and Adverse Effects in Finnish Adolescents Using Gender-Affirming Hormonal Treatment.
Vehmas. Nico N; Holopainen. Elina E; Savolainen-Peltonen. Hanna H
Error: Timeout.
Differential hypothalamic regulation of FSH and LH secretion from the fish pituitary by GnRH and CCK.
Mizrahi. Naama N; Shulman. Miriam M; Aiznkot. Tomer T; Atre. Ishwar I; Mor. Hadar H; Hollander-Cohen...
The hypothalamus-pituitary-gonad axis integrates environmental and internal signals to tune reproductive functions. We hypothesized that in fish, Gnrh predominantly stimulates luteinizing hormone (LH) secretion, while Cck selectively regulates follicle-stimulating hormone (FSH), thereby uncovering a novel role for Cck as a metabolic gatekeeper that links reproductive activity with nutritional status. In fish, the hypothalamus-pituitary-gonad axis governs reproduction in response to environmental and internal signals. FSH regulates gonadal growth, while LH controls maturation. Gonadotropin-releasing hormone (Gnrh) plays a key role in this process, while the role of the satiety hormone cholecystokinin (Cck) is under investigation. We hypothesized that Gnrh and Cck differentially regulate tilapia LH and FSH, reflecting distinct reproductive and metabolic roles. Gnrh receptor (r) 1 was localized to FSH cells and detected only in juvenile fish, while GnRrhr3 was found in LH cells across both juvenile and mature stages. GnRH stimulation significantly increased LH release, while FSH levels showed only a moderate rise. Structural analysis revealed that Gnrhr3 exhibits more stable and rapid ligand binding and activates protein kinase A and protein kinase C (PKC) pathways, whereas Gnrhr1 signals exclusively through the PKC/Ca2+ pathway. Elevated FSH levels and gnrhr 1 expression were observed during early vitellogenesis, coinciding with increased cck-rba expression in FSH cells. Cck-positive neurons originating in the brain were observed to terminate in the adenohypophysis, specifically near FSH-secreting cells. In addition, c ck-rba was exclusively expressed in FSH cells, and tilapia Cck injection significantly elevated plasma FSH levels while reducing food intake, highlighting the role of Cck in linking reproduction to nutritional status. Together, these findings indicate that Gnrh predominantly regulates LH secretion via Gnrhr3, while Cck, through Cck-rba, specifically controls FSH, linking reproduction to nutritional status. Cck acts as a metabolic gatekeeper, aligning gonadal development with energy availability and ensuring reproduction when energy is sufficient.