⚠️ For research and laboratory use only. Not for human or animal use.

HGH FRAG 176-191

38,00 €

HGH Frag 176–191 is a small synthetic fragment derived from natural human growth hormone (HGH). It is often referred to as the “lipolytic fragment” for its ability to promote body fat reduction. Studies indicate that it may help lower blood sugar levels and support cartilage regeneration without stimulating bone growth, increasing IGF-1 levels, or altering insulin sensitivity.

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READ BEFORE PURCHASE

Each batch of HGH Fragment 176-191 undergoes rigorous quality testing to ensure stability when reconstituted according to appropriate guidelines, which require the use of acetic acid.

Failure to follow proper procedures or the use of unsuitable reagents may result in cloudiness or gelling.

No refunds or replacements are offered for post-purchase alterations resulting from handling or reconstitution beyond our control.

SKU: N/A Categories: Metabolic & Weight Loss, Lyophilized Peptides – Vials Brand: Pepticore Aminos

Laboratory analysis available (COA)Latest tested batch: PC-HGF5-1212U — 5mg

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HGH Fragment 176–191 – Research Peptide Derived from Human Growth Hormone

Synthetic peptide for research into lipid metabolism, lipolysis, energy regulation and connective tissue regeneration.

Che cos’è HGH Fragment 176–191

HGH Fragment 176–191 is a synthetic peptide derived from human growth hormone (HGH), representing a modified version of the hormone with targeted lipolytic effects. It is commonly known as the “lipolytic fragment” for its ability to promote fat degradation and regulate energy metabolism in animal research models. This peptide was developed to preserve the metabolic benefits of HGH while eliminating unwanted effects such as increased IGF-1 levels, bone or muscle growth, and altered insulin sensitivity.

Mechanism of Action and Biochemical Role

strong>Fragment 176–191 acts as the C-terminal portion of HGH, responsible for its lipolytic and hypoglycemic effects. Laboratory studies have shown that this fragment maintains the ability to stimulate fat burning and inhibit the formation of new adipose deposits without negatively affecting glucose levels or hormonal regulation. In animal models predisposed to obesity, the peptide produced a significant reduction in fat mass and an increase in metabolic activity, reducing lipid accumulation and improving cellular energy efficiency.

Experiments conducted on genetically modified mice confirmed that the fragment’s activity is mediated by beta-3 adrenergic receptors (ADRB3), which directly regulate lipolysis in adipose tissue and thermogenesis in skeletal muscle. However, the lipolytic effect of the peptide has also been observed in the absence of ADRB3, suggesting the existence of secondary metabolic pathways involved in energy balance and caloric expenditure.

Effects on Lipolysis and Body Weight

In obese murine models, HGH Fragment 176–191 has been shown to reduce body weight by up to 50% over a three-week treatment period compared to saline-treated controls. This effect was observed exclusively in obese animals, while lean mice exhibited no significant changes in body weight, indicating a selective action on excess adipose tissue.

This selective behavior opens new perspectives for the study of energy homeostasis, demonstrating that the fragment acts only when the organism presents abnormal lipid accumulation, without interfering with normal physiological metabolic processes. Results also suggest that the peptide’s activity may be linked to the activation of mitochondrial lipid metabolism and regulation of beta-oxidation.

Hypoglycemic Effects and Glucose Regulation

In vitro and in vivo research has shown that the C-terminal portion of HGH, from which Fragment 176–191 is derived, is responsible for most of the hormone’s hypoglycemic effects. Among the various fragments studied, 176–191 has proven to be the most effective in reducing blood glucose levels through a secondary and sustained increase in plasma insulin levels.

These findings have led researchers to explore the peptide’s potential use in studying glycemic regulation, prediabetes, and type 2 diabetes, although its applications remain strictly confined to the scientific and laboratory research setting.

Cartilage and Connective Tissue Regeneration

While the primary scientific focus on Fragment 176–191 has been its role in lipid metabolism, more recent studies have investigated its potential in cartilage regeneration. A 2015 study conducted in South Korea demonstrated that the fragment can enhance the effects of hyaluronic acid (HA) injections in promoting joint tissue growth and recovery.

In animal models, weekly injections of Fragment 176–191 increased markers of cartilage regeneration, while the combination with HA further amplified the results, showing improved mobility and a reduction in the clinical signs of osteoarthritis. These findings have opened new research pathways on the role of HGH fragments in joint repair and tissue reconstruction.

Safety Profile and Tolerability

One of the main strengths of Fragment 176–191 is its strong safety profile. Double-blind, placebo-controlled clinical studies have demonstrated that both oral and intravenous administration did not alter physiological or metabolic parameters. No changes were observed in glucose levels, glucose tolerance, insulin sensitivity, or IGF-1 values. Moreover, no significant adverse effects such as headache or edema were reported.

These observations suggest that the fragment offers many of the metabolic benefits of HGH without the side effects associated with its prolonged use, such as insulin resistance, acromegaly, or hypertension. In animal models, the peptide showed no anabolic or proliferative activity, ensuring a stable and safe experimental profile.

Future Research Directions

Scientific interest in HGH Fragment 176–191 remains focused on three main areas: lipolysis, energy regulation, and connective tissue regeneration. Current studies aim to better understand how the fragment influences energy homeostasis, lipid metabolism, and cell recovery processes. Its biological selectivity makes it a valuable research model for exploring controlled fat-loss mechanisms without altering systemic hormonal balance.

The product is intended exclusively for scientific research and is not approved for human or veterinary use. All information provided is for educational and laboratory purposes only.

Sources and References

mg	5mg

Peptide Technical Data

Product Name	HGH Fragment 176–191 – Research Peptide Derived from Human Growth Hormone
CAS Number	221231-10-3
Sequence	Tyr–Ser–Arg–Ser–Arg–Leu–Arg–Asp–Asn–Leu–Cys–Gly–Phe–Tyr–Thr–Gly–Phe
Molecular Formula	C₇₈H₁₂₅N₂₃O₂₃S
Molecular Weight	1817.13 g/mol
Purity	≥98% (HPLC validated)
Synthesis Method	Solid-phase peptide synthesis (SPPS)
Format	Lyophilized powder
Appearance	White to off-white crystalline powder
Solubility	Soluble in water or acetic acid
Stability & Storage	−20°C for up to 24 months; post-reconstitution: 4°C ≤7 days; −20°C ≤3 months
Shipping Conditions	Ambient temperature; refrigerate upon receipt
Regulatory Status	For research use only; GMP-grade manufacturing

Disclaimer - For Research Use Only

The products offered by Pepticore Aminos are intended exclusively for research and laboratory use and are sold only to qualified professionals, institutions, or authorized entities. These products are not intended for human or veterinary consumption, nor for any application involving living organisms, including – but not limited to – diagnostic, therapeutic, or recreational purposes.

By making a purchase, the customer declares that:

they are a qualified professional or entity, possessing the necessary competence, training, and facilities for the safe handling of chemical reagents;
they will use the product in full compliance with all applicable local, national, and European Union laws and regulations;
they will adopt appropriate safety measures during all stages of handling, storage, and disposal.

Prohibited uses:

The product must not be used as an Active Pharmaceutical Ingredient (API) in the manufacturing or preparation of medicines intended for humans or animals;
Any direct administration or use on humans or animals is strictly prohibited;
Pepticore Aminos does not endorse or permit the use of its products for the production, testing, or development of illegal substances.

Regulatory compliance:

Pepticore Aminos does not claim or imply that its products are approved by the European Medicines Agency (EMA), the Food and Drug Administration (FDA), or any other regulatory authority. All information provided is for informational and scientific purposes only. These products are not intended to diagnose, treat, cure, or prevent any disease.

Liability:

L’acquirente si assume ogni responsabilità per la manipolazione, conservazione e utilizzo del prodotto in condizioni sicure e conformi alla legge.
Pepticore Aminos non potrà essere ritenuta responsabile per danni diretti o indiretti derivanti da un uso improprio, dallo stoccaggio non corretto o da un utilizzo non autorizzato del prodotto.
Pepticore Aminos si riserva il diritto di rifiutare la vendita a qualsiasi individuo o ente sospettato di uso improprio dei propri prodotti.

In case of doubts regarding the safe and lawful use of the product, it is recommended to consult a qualified professional experienced in laboratory research.

Storage

Storage Instructions

All Pepticore Aminos products are manufactured using a lyophilization (freeze-drying) process, which ensures product stability during shipping for up to 3–4 months.

Once reconstituted (mixed with bacteriostatic water), the peptides should be stored in the refrigerator to maintain stability. After reconstitution, they remain stable for up to 30 days.

What is Lyophilization

Lyophilization is a dehydration process, also known as cryodesiccation, in which peptides are first frozen and then exposed to low pressure. Under these conditions, the water in the vial sublimates directly from solid to gas, leaving behind a stable, white crystalline structure (lyophilized peptide).

The white powder can be stored at room temperature until reconstitution with bacteriostatic water.

Storage After Delivery

Keep peptides cool and protected from light. For use within a few days, weeks, or months, simple refrigeration at a temperature of < 4 °C (39 °F) is sufficient.

Lyophilized peptides are generally stable at room temperature for several weeks or longer; if use is expected within a few weeks or months, this storage condition is acceptable.

Long-Term Storage

For periods of several months or years, storage in a −80 °C (−112 °F) freezer is recommended as the optimal solution to preserve peptide stability.

For more information on proper storage techniques, visit:
Peptide Storage Information