PeptidesCategoriesResearch

GnRH (Gonadotropin-Releasing Hormone)

GnRH is a hypothalamic decapeptide that serves as the master regulator of vertebrate reproduction, controlling LH and FSH release from the anterior pituitary through pulsatile signaling via the GnRH receptor on gonadotroph cells.

GnRH (Gonadotropin-Releasing Hormone) is a hypothalamic decapeptide that functions as the master regulator of the reproductive endocrine axis. First isolated and characterized by Andrew Schally and Roger Guillemin — work that earned the 1977 Nobel Prize in Physiology or Medicine — GnRH is released in a pulsatile manner from hypothalamic neurons into the hypophyseal portal circulation, where it binds GnRH receptors (GnRHR) on anterior pituitary gonadotroph cells to stimulate synthesis and secretion of luteinizing hormone (LH) and follicle-stimulating hormone (FSH).

Overview

GnRH is the apex signaling molecule of the hypothalamic-pituitary-gonadal (HPG) axis. Synthesized in a distributed network of approximately 1,000-2,000 neurons primarily located in the preoptic area and mediobasal hypothalamus, GnRH neurons integrate upstream signals from kisspeptin/KNDy neurons, metabolic sensors, stress pathways, and circadian inputs to generate coordinated pulsatile release. The frequency and amplitude of GnRH pulses differentially regulate LH and FSH: high-frequency pulses (~1 per 60-90 minutes) favor LH secretion, while lower-frequency pulses favor FSH. Continuous, non-pulsatile GnRH exposure paradoxically suppresses gonadotropin release through receptor downregulation, a phenomenon exploited therapeutically with GnRH agonist drugs.

Mechanism of Action

GnRH binds the GnRH receptor (GnRHR), a Gq/11-coupled GPCR expressed on anterior pituitary gonadotroph cells. Receptor activation triggers phospholipase C-mediated hydrolysis of PIP2, generating IP3 and DAG. IP3 drives intracellular calcium release, while DAG activates protein kinase C, together stimulating LH and FSH synthesis and secretion. Unlike most GPCRs, the GnRHR lacks a cytoplasmic C-terminal tail, which reduces beta-arrestin-mediated desensitization and allows sustained signaling during pulsatile exposure. However, continuous agonist exposure causes receptor internalization and downregulation at the transcriptional level, leading to the paradoxical suppression that defines GnRH agonist pharmacology.

Reconstitution Calculator

GnRH (Gonadotropin-Releasing Hormone)

**GnRH (Gonadotropin-Releasing Hormone)** is a hypothalamic decapeptide that fun

Draw Volume
0.400mL
Syringe Units
40units
Concentration
250mcg/mL
Doses / Vial
5doses
Vial Total
500mcg
Waste / Vial
0mcg
Syringe Cap.
100units · 1mL
How to reconstitute
Gather & prepare
1/6Gather & prepare

Set up a clean workspace with all supplies ready.

1.Wash hands thoroughly, put on disposable gloves
2.Your 0.5mg peptide vial (lyophilized powder)
3.Bacteriostatic water (you'll need 2mL)
4.A 3–5mL syringe with 21–25 gauge needle for reconstitution
5.Alcohol swabs (70% isopropyl)
Use bacteriostatic water (0.9% benzyl alcohol) for multi-dose vials. Sterile water is only safe for single-use.
Supply Planner

7x / week for weeks

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60%
6vials
28 doses5 days/vial2 leftover
Cost Breakdown
Vial price
$0.00per dose
$0.00 /week$0 /month
Store 2-8°C30 day shelf lifeSwirl gentlyFor research purposes only

Research

Endometriosis Treatment

LHRH agonists create a hypoestrogenic state that causes regression of endometriotic implants. Henzl et al. (1988) demonstrated that nafarelin nasal spray was effective for endometriosis pain relief. Treatment is typically limited to 6 months due to bone density concerns from prolonged estrogen deprivation, though add-back therapy (low-dose estrogen/progestin) extends the treatment window.

Central Precocious Puberty

LHRH agonists are first-line therapy for central precocious puberty (CPP), suppressing premature activation of the HPG axis to preserve adult height potential and allow age-appropriate psychosocial development. Carel et al. (2009) reviewed long-term outcomes, confirming safety and efficacy of treatment for up to several years with recovery of normal puberty upon discontinuation.

IVF Downregulation Protocols

In assisted reproduction, LHRH agonists are used in the "long protocol" to achieve pituitary downregulation before controlled ovarian stimulation. Starting in the mid-luteal phase of the preceding cycle, daily LHRH agonist administration suppresses endogenous gonadotropin release, preventing premature LH surges during stimulation. The "short/flare" protocol exploits the initial gonadotropin surge to supplement exogenous FSH stimulation Daya (2000).

Prostate Cancer and Androgen Deprivation

The landmark work by Schally et al. (1980) and Labrie et al. (1980) demonstrated that LHRH agonist administration could achieve medical castration equivalent to orchiectomy in men with advanced prostate cancer. This transformed prostate cancer management by providing a reversible, non-surgical alternative. Huggins & Hodges (1941) had established the androgen dependence of prostate cancer decades earlier, but LHRH agonists made androgen deprivation practical and widely accessible.

Pulsatile GnRH and Differential Gonadotropin Regulation

The seminal work by Knobil (1980) demonstrated that pulsatile GnRH delivery is essential for sustained gonadotropin secretion in primates, while continuous infusion leads to suppression. Subsequent studies established that pulse frequency differentially regulates LH versus FSH through distinct transcription factor activation: high-frequency pulses activate Egr-1, which drives LH-beta transcription, while low-frequency pulses activate AP-1, favoring FSH-beta expression Kaiser et al. (1997).

GnRH Receptor Pharmacology

The GnRHR was cloned and characterized in the early 1990s, revealing its unique structural features among GPCRs. Millar et al. (2004) provided a comprehensive review of GnRHR signaling, demonstrating the receptor's coupling to multiple downstream cascades including MAPK/ERK, JNK, and p38 pathways beyond the canonical Gq/11-PLC axis. The absence of the C-terminal tail was shown to confer resistance to rapid desensitization, explaining the requirement for continuous agonist exposure to achieve receptor downregulation.

GnRH in Puberty and Development

GnRH neuron activity is quiescent during childhood and reactivates at puberty onset. Seminara et al. (2003) and de Roux et al. (2003) identified loss-of-function mutations in KISS1R (GPR54) as a cause of hypogonadotropic hypogonadism, establishing the kisspeptin-GnRH pathway as the critical gatekeeper for puberty. GnRH neuron migration from the olfactory placode during embryonic development, when disrupted, causes Kallmann syndrome — the combination of hypogonadotropic hypogonadism and anosmia.

Agonist vs Antagonist Therapeutics

GnRH agonists (leuprolide, goserelin, triptorelin) exploit the paradoxical suppression mechanism: initial flare followed by sustained downregulation of the GnRH receptor, achieving medical castration within 2-4 weeks. GnRH antagonists (cetrorelix, ganirelix, degarelix) block the receptor immediately without flare, providing faster onset of suppression. Conn & Crowley (1994) reviewed the clinical development of both drug classes.

Safety Profile

Endogenous GnRH has an extremely short half-life (2-4 minutes), and exogenous administration (as gonadorelin) produces transient, rapidly reversible effects. Pulsatile GnRH therapy is well-tolerated with minimal side effects beyond injection-site reactions. The safety concerns associated with GnRH pharmacology are primarily related to synthetic agonist and antagonist analogs used in chronic dosing: hot flashes, bone density loss, mood changes, and cardiovascular effects from sustained hypogonadism. Native GnRH itself, when delivered in physiological pulsatile patterns, restores rather than disrupts endocrine function.

Pharmacokinetic Profile

GnRH (Gonadotropin-Releasing Hormone) — Pharmacokinetic Curve

Intravenous injection, Subcutaneous injection, Intranasal
0%25%50%75%100%0m3m6m9m12m15mTimeConcentration (% peak)T_max 1mT_1/2 3m
Half-life: 3mT_max: 2mDuration shown: 15m

Quick Start

Route
Intravenous injection, Subcutaneous injection, Intranasal

Molecular Structure

2D Structure
GnRH (Gonadotropin-Releasing Hormone) molecular structure
Molecular Properties
Formula
C55H75N17O13
Weight
1182 Da
CAS
33515-09-2
PubChem CID
638793
Exact Mass
1181.5730 Da
LogP
-2.4
TPSA
475 Ų
H-Bond Donors
16
H-Bond Acceptors
15
Rotatable Bonds
31
Complexity
2390
Identifiers (SMILES, InChI)
InChI
InChI=1S/C55H75N17O13/c1-29(2)19-38(49(80)67-37(9-5-17-60-55(57)58)54(85)72-18-6-10-43(72)53(84)62-25-44(56)75)66-46(77)26-63-47(78)39(20-30-11-13-33(74)14-12-30)68-52(83)42(27-73)71-50(81)40(21-31-23-61-35-8-4-3-7-34(31)35)69-51(82)41(22-32-24-59-28-64-32)70-48(79)36-15-16-45(76)65-36/h3-4,7-8,11-14,23-24,28-29,36-43,61,73-74H,5-6,9-10,15-22,25-27H2,1-2H3,(H2,56,75)(H,59,64)(H,62,84)(H,63,78)(H,65,76)(H,66,77)(H,67,80)(H,68,83)(H,69,82)(H,70,79)(H,71,81)(H4,57,58,60)/t36-,37-,38-,39-,40-,41-,42-,43-/m0/s1
InChIKeyXLXSAKCOAKORKW-AQJXLSMYSA-N

Research Protocols

subcutaneous Injection

Absorption Native GnRH is administered intravenously or subcutaneously.

GoalDoseFrequency
General Research Protocol5-25 mcg, 100 mcgPer protocol

intravenous Injection

Absorption Native GnRH is administered intravenously or subcutaneously.

GoalDoseFrequency
General Research Protocol5-25 mcgPer protocol
General Research Protocol100 mcgPer protocol

intranasal Injection

Intranasal formulations exist but have variable bioavailability (1-3%).

GoalDoseFrequency
General Research Protocol5-25 mcgPer protocol
General Research Protocol100 mcgPer protocol
General Research Protocol7.5 mg, 22.5 mg, 45 mg, 50 mg, 3.6 mg, 5 mg, 0.5-1.0 mg, 0.25 mgDaily

oral

Native LHRH is not orally bioavailable.

GoalDoseFrequency
General Research Protocol5-25 mcgPer protocol
General Research Protocol100 mcgPer protocol
General Research Protocol50 mgDaily
General Research Protocol5 mgDaily

Interactions

Peptide Interactions

Kisspeptincompatible

Kisspeptin acts as the endogenous activator of GnRH neurons. Dhillo et al. (2005) demonstrated that exogenous kisspeptin administration produces GnRH-dependent LH release. Combined assessment using both kisspeptin and GnRH challenge tests allows differentiation of hypothalamic vs. pituitary cause...

What to Expect

What to Expect

Onset

Rapid onset expected; half-life of 2-4 minutes (IV) indicates fast-acting pharmacokinetics

1 hour

The GnRH stimulation test involves a single IV bolus of gonadorelin (100 mcg) with LH and FSH measurements at 0, 30, and 60 minutes.

Week 1-2

Within 1-2 weeks of continuous agonist exposure, LH and FSH fall to castrate levels — a phenomenon called downregulation that is exploited...

Week 2-3

GnRH agonists (leuprolide, goserelin, triptorelin) exploit the paradoxical suppression mechanism: initial flare followed by sustained downregulation...

Ongoing

Continued use as directed

Quality Indicators

What to look for

  • Well-established safety profile
  • Extensive peer-reviewed research base
  • Oral administration available

Caution

  • Short half-life may require frequent dosing
  • Injection site reactions reported

Frequently Asked Questions

References (10)

  1. [10]
    Herbison — The GnRH pulse generator Endocr. Rev. (2024)
  2. [12]
    Millar & Newton — Current and future applications of GnRH, kisspeptin, and neurokinin B Nat. Rev. Endocrinol. (2023)
  3. [1]
    Schally et al *Science*, 173(4001), 1036-1038 Science (1971)
  4. [2]
    Knobil *Recent Prog Recent Prog. Horm. Res. (1980)
  5. [4]
    Kaiser et al *Proc Proc. Natl. Acad. Sci. (1997)
  6. [11]
    Lehman et al — Revisiting the GnRH pulse generator paradigm Front. Endocrinol. (2022)
  7. [3]
    Conn & Crowley *N N. Engl. J. Med. (1994)
  8. [8]
    Schally *Peptides*, 20(10), 1247-1262 Peptides (1999)
  9. [5]
    Millar et al *Endocr Endocr. Rev. (2004)
  10. [9]
    Martin et al *J J. Clin. Endocrinol. Metab. (1990)
Updated 2026-03-08Reviewed by Tides Research Team9 citationsSources: peptide-wiki-mdx, pubchem, peptide-wiki-mdx-v2

Glucagon

Glucagon is a 29-amino acid counter-regulatory peptide hormone produced by pancreatic alpha cells that raises blood glucose through hepatic glycogenolysis and gluconeogenesis. It is used therapeutically for severe hypoglycemia, GI imaging, and beta-blocker/calcium channel blocker overdose, with emerging research into dual GLP-1/glucagon receptor agonists for obesity and metabolic disease.

Gonadorelin

Gonadorelin (GnRH) is a decapeptide gonadotropin-releasing hormone that stimulates LH and FSH release, with clinical applications in fertility assessment and research into breast cancer, prostate cancer, and Alzheimer's disease.

On this page

Overview
Reconstitution Calculator
Mechanism of Action
Research
Endometriosis Treatment
Central Precocious Puberty
IVF Downregulation Protocols
Prostate Cancer and Androgen Deprivation
Pulsatile GnRH and Differential Gonadotropin Regulation
GnRH Receptor Pharmacology
GnRH in Puberty and Development
Agonist vs Antagonist Therapeutics
Safety Profile
Pharmacokinetic Profile
Quick Start
Molecular Structure
Research Protocols
Interactions
What to Expect
Quality Indicators
FAQ
References
Related Peptides