• péptidos de investigación fabricados en EE. UU.
Informe de prueba #ghk con
Informe de prueba #ghk con

GHK-Con 50 mg de péptido de cobre

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Gratis (1) 30 ml de agua bacteriostática
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GHK-CuEs un péptido natural en el plasma sanguíneo, la orina y la saliva humanos. La investigación en animales revela que el GHK-Cu puede mejorar la cicatrización de heridas, la función inmune y la salud de la piel al estimular el colágeno, los fibroblastos y promover el crecimiento de los vasos sanguíneos. Ha habido evidencia que ha demostrado que actúa como una señal de retroalimentación que se genera después de una lesión tisular. También suprime el daño de los radicales libres y, por tanto, es un potente antioxidante.

Uso del producto:Este PRODUCTO ESTÁ DISEÑADO ÚNICAMENTE COMO SUSTANCIA QUÍMICA DE INVESTIGACIÓN.Esta designación permite el uso de productos químicos de investigación estrictamente para pruebas in vitro y experimentación de laboratorio únicamente. Toda la información del producto disponible en este sitio web tiene fines educativos únicamente. La introducción corporal de cualquier tipo en personas o animales está estrictamente prohibida por la ley. Este producto sólo debe ser manipulado por profesionales calificados y con licencia. Este producto no es un medicamento, alimento o cosmético y no puede ser mal etiquetado, mal utilizado o etiquetado erróneamente como medicamento, alimento o cosmético.

GHK-Cu

GHK-Cu es un péptido natural aislado por primera vez del plasma sanguíneo humano. Desde entonces también se ha identificado en la orina y la saliva. La investigación sobre GHK-Cu ha descubierto que el péptido corto tiene beneficios sustanciales en la cicatrización de heridas y la función inmune. Tiene propiedades antienvejecimiento y se ha descubierto que suprime el daño de los radicales libres, aumenta la síntesis de proteínas, combate las bacterias y aumenta la salud de la piel y los fibroblastos de la piel.

Estructuras

Secuencia:Gly-His-Lys.Cu.xHAc
Fórmula molecular:C14H23CuN6O4
Peso molecular:340,384 g/mol
CID de PubChem: 73587
Número CAS:89030-95-5

Investigación GHK-Cu

1. GHK-Cu y curación de la piel

GHK-Cu es una parte natural de la sangre humana y, como tal, se ha descubierto que desempeña un papel integral en las vías de regeneración de la piel. La investigación en cultivos de piel ha descubierto que el GHK estimula la síntesis y descomposición del colágeno, los glucosaminoglicanos y otros componentes de la matriz extracelular como los proteoglicanos y el sulfato de condroitina. Al menos parte de este efecto está mediado por los beneficios de reclutamiento positivos que tiene el GHK-Cu en los fibroblastos, las células inmunitarias y las células endoteliales. El péptido atrae estas células al sitio de la lesión y parece coordinar su actividad para reparar el daño.[1].

GHK-Cu is a common component of skin-care and cosmetic products. It improves elasticity of the skin while tightening and firming. It has also been shown to reduce damage due to sunlight, reduce hyperpigmentation, and reduce the appearance of fine lines and wrinkles[1]. The ability of GHK-Cu to modulate collagen synthesis is important in reducing the appearance of scars, preventing hypertrophic healing from taking place, smoothing rough skin, and repair the structure of aged skin. These roles of GHK-Cu are mediated partly though its ability to boost levels of transforming growth factor-Β[2]. It is likely that the peptide works through several different biochemical pathways and that it has effects and the level of gene transcription[3].

Research in mice shows that GHK-Cu increases the rate of healing following burn by as much as 33%. It appears that besides recruiting immune cells and fibroblasts to the site of injury, GHK-Cu also encourages the growth of blood vessels[4]. Burned skin is often slow to regrow blood vessels due the cauterization effect, so these findings open up a new pathway for improving wound care in burn units and accelerating healing.

2. GHK-Cu and Bacteria

The invasion of tissue by foreign pathogens is one of the primary reasons that wounds are slow to heal or do not heal at all. Bacterial and fungal infections are particularly problematic in burn patients and in those with compromised immune systems (e.g. diabetes, HIV). GHK-Cu, when combined with certain fatty acids, creates a potent antimicrobial compound that is active against a number of bacteria and fungi known to complicate wound healing[5].

Research in diabetic patients has shown that GHK-Cu is superior to standard care regimens alone in the treatment of diabetic ulcers. Patients given both standard care and GHK-Cu showed a ~40% increase in wound closure and a 27% decrease in rates of infection compared to control groups[6]. Similar results were seen in patients with ischemic open wounds[7].

3. GHK-Cu, Cognition and Nervous System Function

The death of neurons due to degenerative diseases like Alzheimer’s is poorly understood. This makes it difficult to develop treatments and those that are available are generally of limited efficacy. Research, however, suggests that GHK-Cu can counter the age-associated decline in neuron function that often underlies these diseases. Research shows that GHK-Cu can improve angiogenesis in the nervous system, boost nerve outgrowth, and reduce inflammation in the central nervous system. There is even evidence that GHK-Cu can reset pathological gene expression and help to recreate a state of health in dysfunctional systems[8].

GHK-Cu is found in high concentrations in the brain, though levels of the peptide decline with age. There is a thought, among scientists, that GHK-Cu may protect nervous system tissues against natural insults such as gene dysregulation and that it is the decline in GHK-Cu with age, and not the onset of new disease processes, that actually leads to neurodegeneration.

GHK-Cu Levels in various tissues
Source: PubMed

Research in rats indicates that one possible mechanism by which GHK-Cu protects brain tissue is by preventing apoptosis. This action appears to be mediated through the well-known miR-339-59/VEGFA pathway, which is active following brain bleeds and stroke. In the rat models, GHK-Cu improves neurological deficits in the brain, reduce swelling, and inhibited the death of neurons that is commonly bought about by overexpression of miR-339-5p[9].

4. GHK-Cu and Side Effects of Chemotherapy

Research in mice shows that GHK-Cu can protect the lungs against fibrosis that occurs following therapy with the cancer drug bleomycin[10]. This could pave the way for using GHK-Cu as a chemotherapy adjuvant that allows doses of these life-saving medications to be increased without risk of increased side effects. The study when a step farther, than usual, by identifying the likely pathway by which GHKC-Cu protects against fibrosis. It appears that the peptide regulations TNF-alpha dn IL-6 levels, both of which act as inflammatory molecules and affect the extracellular matrix and smooth muscle of the lung. By reducing inflammation in the lungs, GHK-Cu prevents fibrotic remodeling from taking place and improves collagen deposition.

Similar benefit of GHK-Cu in protecting lungs was found in mouse models of acute respiratory distress syndrome (ARDS), an inflammatory lung condition that can develop rapidly and be fatal. ARDS is associated with injury, infection, and certain drugs like those used in chemotherapy. Once again, GHK-Cu appeared to mediate its effects through decreased TNF-alpha and IL-6 expression[11].

5. GHK-Cu and Pain Reduction

In rat models, the administration of GHK-Cu had a dose-dependent effect on pain-induced behavior. The peptide appears to have analgesic effects that are produced through increased levels of the natural painkiller L-lysine[12]. Similar research has found that the peptide can also increase levels of L-arginine, another analgesic amino acid[13]. These findings open up new avenues for pain control that do not rely on addictive opiate medications or NSAIDs, which have been found to have negative effects on the heart.

GHK-Cu exhibits minimal side effects, low oral and excellent subcutaneous bioavailability in mice. Per kg dosage in mice does not scale to humans. GHK-Cu for sale at

Peptide Gurus is limited to educational and scientific research only, not for human consumption. Only buy GHK-Cu if you are a licensed researcher.

Article Author

The above literature was researched, edited and organized by Dr. Logan, M.D. Dr. Logan holds a doctorate degree from Case Western Reserve University School of Medicine and a B.S. in molecular biology.

Scientific Journal Author

Loren Pickart, Ph.D. has released 109 publications and is developing patents and analyzing GHK’s effects on human gene expression of 4,192 genes. In addition to GHK’s published potential uses on skin inflammation, metastatic cancer and COPD, it appears to have beneficial effects on other tissue systems such as the nervous system, gastrointestinal system, and mitochondrial system. His brief but detailed autobiography dives into the motivations and background behind his dedicating to skin, anti-aging, and life-long training.

Loren Pickart, Ph.D is being referenced as one of the leading scientists involved in the research and development of GHK-Cu. In no way is this doctor/scientist endorsing or advocating the purchase, sale, or use of this product for any reason. There is no affiliation or relationship, implied or otherwise, between

Peptide Gurus and this doctor. The purpose of citing the doctor is to acknowledge, recognize, and credit the exhaustive research and development efforts conducted by the scientists studying this peptide. Loren Pickart, Ph.D is listed in [1] [3] and [8] under the referenced citations.

Referenced Citations

  1. L. Pickart, J. M. Vasquez-Soltero, and A. Margolina, “GHK Peptide as a Natural Modulator of Multiple Cellular Pathways in Skin Regeneration,” BioMed Res. Int., vol. 2015, p. 648108, 2015. [BioMed Research International]
  2. A. Gruchlik, E. Chodurek, and Z. Dzierzewicz, “Effect of GLY-HIS-LYS and its copper complex on TGF-β secretion in normal human dermal fibroblasts,” Acta Pol. Pharm., vol. 71, no. 6, pp. 954–958, Dec. 2014. [PubMed]
  3. L. Pickart and A. Margolina, “Regenerative and Protective Actions of the GHK-Cu Peptide in the Light of the New Gene Data,” Int. J. Mol. Sci., vol. 19, no. 7, Jul. 2018. [PubMed]
  4. X. Wang et al., “GHK-Cu-liposomes accelerate scald wound healing in mice by promoting cell proliferation and angiogenesis,” Wound Repair Regen. Off. Publ. Wound Heal. Soc. Eur. Tissue Repair Soc., vol. 25, no. 2, pp. 270–278, 2017. [PubMed]
  5. M. Kukowska, M. Kukowska-Kaszuba, and K. Dzierzbicka, “In vitro studies of antimicrobial activity of Gly-His-Lys conjugates as potential and promising candidates for therapeutics in skin and tissue infections,” Bioorg. Med. Chem. Lett., vol. 25, no. 3, pp. 542–546, Feb. 2015. [Science Direct]
  6. G. D. Mulder et al., “Enhanced healing of ulcers in patients with diabetes by topical treatment with glycyl-l-histidyl-l-lysine copper,” Wound Repair Regen. Off. Publ. Wound Heal. Soc. Eur. Tissue Repair Soc., vol. 2, no. 4, pp. 259–269, Oct. 1994. [PubMed]
  7. S. O. Canapp et al., “The effect of topical tripeptide-copper complex on healing of ischemic open wounds,” Vet. Surg. VS, vol. 32, no. 6, pp. 515–523, Dec. 2003. [PubMed]
  8. L. Pickart, J. M. Vasquez-Soltero, and A. Margolina, “The Effect of the Human Peptide GHK on Gene Expression Relevant to Nervous System Function and Cognitive Decline,” Brain Sci., vol. 7, no. 2, Feb. 2017. [PubMed]
  9. H. Zhang, Y. Wang, and Z. He, “Glycine-Histidine-Lysine (GHK) Alleviates Neuronal Apoptosis Due to Intracerebral Hemorrhage via the miR-339-5p/VEGFA Pathway,” Front. Neurosci., vol. 12, p. 644, 2018. [PubMed]
  10. X.-M. Zhou et al., “GHK Peptide Inhibits Bleomycin-Induced Pulmonary Fibrosis in Mice by Suppressing TGFβ1/Smad-Mediated Epithelial-to-Mesenchymal Transition,” Front. Pharmacol., vol. 8, p. 904, 2017. [PubMed]
  11. J.-R. Park, H. Lee, S.-I. Kim, and S.-R. Yang, “The tri-peptide GHK-Cu complex ameliorates lipopolysaccharide-induced acute lung injury in mice,” Oncotarget, vol. 7, no. 36, pp. 58405–58417, Sep. 2016. [PubMed]
  12. L. А. Sever’yanova and M. E. Dolgintsev, “Effects of Tripeptide Gly-His-Lys in Pain-Induced Aggressive-Defensive Behavior in Rats,” Bull. Exp. Biol. Med., vol. 164, no. 2, pp. 140–143, Dec. 2017. [Springer]
  13. L. А. Sever’yanova and D. V. Plotnikov, “Binding of Glyprolines to L-Arginine Inverts Its Analgesic and Antiagressogenic Effects,” Bull. Exp. Biol. Med., vol. 165, no. 5, pp. 621–624, Sep. 2018. [PubMed]

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