HCG – 5000iu

$50.00

Human Chorionic Gonadotropin (HCG) is a glycoprotein hormone that has been widely studied for its role in the reproductive system. In research contexts, HCG is often utilized to investigate its effects on the stimulation of gonadal steroidogenesis and the regulation of luteinizing hormone (LH) and follicle-stimulating hormone (FSH) activity. Researchers have focused on HCG’s ability to mimic LH, thereby influencing the function of the corpus luteum and promoting the production of progesterone. HCG is also used in studies exploring its impact on cellular differentiation and growth within reproductive tissues. Its unique properties make HCG a valuable tool for advancing our understanding of reproductive biology and endocrinology.

5000iu – Lyophilized *MUST BE RECONSTITUTED FOR RESEARCH APPLICATIONS*

HCG 5000iu (Human Chorionic Gonadotropin) is a premium, high-purity synthetic glycoprotein hormone engineered to study gonadal steroidogenesis, LH receptor binding affinity, and endocrine pathway regulation. By binding directly to LHCGR receptors and mimicking native luteinizing hormone activity, this stable 5000iu formulation serves as an elite investigative tool for tracking testosterone/progesterone synthesis, cellular differentiation, and hormonal feedback loops in laboratory models.

Supplied as a stable, premium-grade lyophilized powder in a single 5000iu vial. Restricted strictly to laboratory and in vitro evaluation.

Description

Eterna Peptides presents premium-grade HCG (5000iu) lyophilized powder, an advanced high-purity synthetic variant of Human Chorionic Gonadotropin. Composed of a complex glycoprotein structure with distinct alpha ($\alpha$) and beta ($\beta$) subunits, HCG is widely recognized within endocrine research for its profound ability to mirror endogenous gonadotropins, serving as an essential investigative tool for tracking hormone synthesis pathways and cellular differentiation mechanics.

### Mechanism of Action
HCG interacts directly with targeted cellular receptors to explore the modulation of the endocrine system:
* **Luteinizing Hormone (LH) Mimicry:** HCG shares structural homology with native Luteinizing Hormone. It binds with high affinity to the shared LH/human chorionic gonadotropin receptor ($LHCGR$), triggering an intracellular signaling cascade that stimulates the production of vital gonadal steroid hormones.
* **Gonadal Steroidogenesis Catalyst:** In laboratory models, HCG is extensively studied for its capacity to upregulate cyclic adenosine monophosphate ($cAMP$) pathways. This cascade drives downstream signaling that induces the expression of steroidogenic enzymes required for progesterone and testosterone baseline synthesis.
* **Follicle and Corpus Luteum Regulation:** It assists researchers in analyzing structural luteal maintenance, cellular growth thresholds, and ovulatory signaling mechanisms within reproductive biology frameworks.
* **Homeostatic Hormone Balancing:** Preclinical models evaluate HCG’s ability to maintain baseline upstream hormonal signaling when primary endocrine loops have been disrupted by metabolic or chemical stressors.

### Research Applications
In preclinical and in vitro laboratory models, HCG 5000iu vials are actively utilized to investigate:
* Stimulating gonadal steroidogenesis and tracking downstream testosterone and progesterone synthesis.
* The molecular mechanics of cellular differentiation, follicular growth, and corpus luteum preservation.
* Endocrine feedback loops, pituitary axis interactions, and regulatory receptor sensitivity adaptations.
* The comparative baseline stability and reconstitution kinetics of high-capacity glycoprotein hormones.

Our HCG vials are manufactured under strict laboratory quality control guidelines to ensure absolute compound standardization, high structural purity, and dependable experimental reproducibility across all research setups.


*Disclaimer: This product is sold strictly for laboratory research and development use only. It is not intended for human consumption, diagnostic, or therapeutic purposes.*

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