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

IGF-1 LR3 1mg

110,00 €

IGF-1 LR3 (Insulin-Like Growth Factor-1 Long R3) is a synthetic and modified version of IGF-1 designed to have a significantly prolonged activity. Thanks to its extremely low affinity for IGF-binding proteins, it remains active up to 120 times longer than natural IGF-1, providing a longer half-life and a more stable activity profile. This allows the peptide to more effectively support cell division, tissue growth, and muscle repair processes, including the inhibition of myostatin, a protein that limits hypertrophy.

Recent research also indicates that IGF-1 LR3 may help modulate lipid metabolism, promoting a more efficient use of fats as an energy source, and suggests potential applications in the study of lactation, with promising results in supporting milk production in mothers with young offspring.

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SKU: N/A Categories: Lyophilized Peptides – Vials, Muscle Growth & Performance, Healing & Recovery, Longevity & Anti-Aging, Metabolic & Weight Loss Brand: Pepticore Aminos

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IGF-1 LR3 (Insulin-Like Growth Factor-1 Long R3)

IGF-1 LR3 (Insulin-Like Growth Factor-1 Long R3) is a modified and enhanced form of IGF-1, designed to offer a significantly longer duration of action and expanded biological effectiveness. The peptide is derived from natural IGF-1 but incorporates 13 additional amino acids at the N-terminal end and a key substitution of glutamic acid at position 3 with arginine. These structural modifications result in a greatly reduced affinity for IGF-binding proteins (IGFBPs), the proteins that normally limit the activity of circulating IGF-1. As a consequence, IGF-1 LR3 remains active in the bloodstream up to 120 times longer than the original molecule, making it one of the most potent and studied IGF derivatives in research.

IGFs are considered essential growth factors in processes of cell division, proliferation, differentiation, and cell-to-cell communication. IGF-1 LR3 substantially enhances these functions thanks to its prolonged half-life, providing a continuous and more stable growth signal to target cells. This characteristic makes it an extremely relevant research tool in fields such as muscle regeneration, endocrine research, energy metabolism, longevity, and myostatin modulation.

Mechanism of action on cell division

One of the most notable effects of IGF-1 LR3 is its ability to stimulate mitosis and cellular proliferation. Like IGF-1, the peptide acts primarily through the IGF-1R receptor, activating intracellular pathways such as PI3K/Akt and MAPK. These pathways directly regulate cellular growth and survival. However, the particular structure of IGF-1 LR3 enables the peptide to remain active much longer, generating a continuous and more intense pro-proliferative signal.

IGF-1 LR3 shows marked effects on connective tissues, including muscle and bone, but its activity has also been observed in cells of the liver, kidneys, nerves, skin, lungs, and blood. It is often described as a “maturation hormone” because it not only increases the number of cells but also promotes their differentiation, ensuring their ability to perform specialized functions.

A key distinction between IGF-1 LR3 and other anabolic factors is the way it acts on muscle tissue. It does not directly induce hypertrophy (an increase in cell size) but instead stimulates hyperplasia, meaning an increase in the total number of muscle cells. This characteristic makes IGF-1 LR3 of interest for studies focused on muscle growth driven by cellular expansion rather than enlargement of existing cells.

In comparative terms, a dose of IGF-1 LR3 produces approximately three times the cellular activation compared to the same amount of traditional IGF-1, making it one of the most effective versions available for biological research.

Fat metabolism and insulin sensitivity

IGF-1 LR3 exerts significant effects on glucose and lipid metabolism. The molecule can bind both the IGF-1R receptor and, to some extent, the insulin receptor. This dual binding enhances glucose uptake in muscle, liver, and nerve cells, lowers blood sugar levels, and triggers a cascade of metabolic responses.

Lower blood glucose stimulates adipose tissue and the liver to initiate lipolysis and the use of triglycerides and glycogen as energy sources. The net result is increased fat oxidation and an overall reduction of adipose stores. This combined action produces a state of controlled catabolism that contributes to body-weight modulation and improved metabolic efficiency.

Studies show that IGF-1 LR3 may also contribute to a reduction in the need for exogenous insulin in experimental diabetes models, with an average decrease of about 10% in insulin requirements. This suggests that IGF-1 LR3 may be an important research tool for understanding mechanisms involved in insulin resistance and potentially developing new approaches for the prevention of type 2 diabetes.

Interaction with Myostatin

One of the most interesting aspects of IGF-1 LR3 is its interaction with myostatin (or GDF-8), a protein that limits muscle growth and prevents uncontrolled hypertrophy. In conditions such as Duchenne muscular dystrophy (DMD), inhibition of myostatin could help slow muscle degeneration and preserve functionality.

Studies on murine models of DMD show that IGF-1 LR3 is able to counteract the negative effects of myostatin, protecting muscle cells from apoptosis and promoting differentiation processes mediated by the activation of the MyoD protein. MyoD is one of the main proteins responsible for muscular adaptation following exercise or tissue damage, and it plays a key role in hypertrophy and regeneration.

Thanks to its long persistence in the bloodstream, IGF-1 LR3 can exert this effect more efficiently than the native molecule, making it a significant candidate for research on degenerative muscle conditions and severe immobilization states.

IGF-1 LR3 and longevity

IGF-1 LR3 is actively studied in the field of aging biology due to its ability to promote tissue repair and maintenance. In animal models, IGF-1 is associated with improvements in regenerative capacity, cellular function, and, in some cases, a prolongation of lifespan.

Studies in cattle and pigs indicate that IGF-1 LR3 may counteract effects associated with cellular deterioration, while mouse research suggests a potential role in preventing or slowing conditions such as dementia, muscle atrophy, and nephropathies. Increased IGF-1 levels have been associated with greater vitality and reduced disability, making this research field increasingly relevant.

Glucocorticoid signaling

Another area of research involves the interaction of IGF-1 LR3 with glucocorticoids, hormones widely used to reduce inflammation, pain, and autoimmune responses. Although effective, glucocorticoids can cause muscle atrophy, increased body fat, and reduced bone density. Studies suggest that IGF-1 LR3 may help mitigate some of these side effects, supporting the preservation of muscle mass and bone structure during prolonged treatments.

Warning

IGF-1 LR3 is intended exclusively for scientific research. It is not intended for human, veterinary, or therapeutic use.

Scientific References

PubMed 24575400
Oxford Academic – Endocrinology
Oxford Academic – Endocrine Reviews

mg	1mg

Peptide Technical Data

Product Name	IGF1-LR3
CAS Number	946870-92-4
Sequence	MFPAMPLSSL FVNGPRTLCG AELVDALQFV CGDRGFYFNK PTGYGSSSRR APQTGIVDEC CFRSCDLRRL EMYCAPLKPA KSA
Molecular Formula	C400H625N111O115S9
Molecular Weight	9117.5 g/mol
PubChem CID	—
Synonyms	IGF-1 LR3, Long R3 IGF-1
Purity	≥99% (HPLC validated)
Synthesis Method	Recombinant peptide
Format	Lyophilized powder
Appearance	White to off-white powder
Solubility	Soluble in water, acetic acid, and mild buffers
Stability & Storage	−20°C long-term; post-reconstitution: 4°C ≤7 days; −20°C ≤3 months
Regulatory Status	Research use only; not for human consumption

Disclaimer - 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