Research Brief
CJC-1295 No Dac: Mechanism of Action
Mecanismo de Acao
CJC-1295 (no DAC) functions como um(a) selective GHRH agonista do receptor que liga-se a hormonio do crescimento-releasing hormone receptors (GHRHr) on somatotroph cells no(a) anterior pituitary gland, initiating a cAMP-dependent cascata de sinalizacao que estimula hormonio do crescimento (GH) gene transcricao, synthesis, and pulsatile secretion.[7][8]
Primary Receptor Target & Binding Characteristics
| Property | Detail | Evidence |
|---|---|---|
| Primary Target | Growth Hormone-Releasing Hormone Receptor (GHRHr) on anterior pituitary somatotrophs | Teichman et al. (2006); Alba et al. (2006)[8] |
| Receptor Class | Class B1 (secretin family) G protein-coupled receptor (GPCR) | Established GHRH receptor pharmacology[7] |
| Binding Affinity | High affinity; mimics native GHRH structure with aprimorou stability from tetrasubstitution | Jetté et al. (2005)[4] |
| Binding Reversibility | Reversible binding; crucial for maintaining physiological balance and preventing GH axis overestimulacao | Pharmacokinetic profile[5] |
| Half-Life | ~30 minutes (vs. minutes for native GHRH; vs. 6–8 days for CJC-1295 with DAC) | Soule et al. (1994); Henninge et al. (2010)[2][1] |
| Selectivity | Highly selective for GHRHr on pituitary somatotrophs; possible low-level cross-reactivity dentro do(a) secretin receptor family | 86% homology with endogenous GHRH[7] |
| DPP-4 Resistance | D-Alanine at position 2 previne dipeptidyl peptidase-4 cleavage que rapidly degrades native GHRH | Jetté et al. (2005); Soule et al. (1994)[4][2] |
Downstream Signaling Cascade
| Step | Event | Molecular Detail |
|---|---|---|
| 1. Receptor Binding | CJC-1295 (no DAC) binds GHRHr on somatotroph cell surface | High-affinity, reversible "lock-and-key" interaction mimicking native GHRH[7] |
| 2. G-Protein Activation | Ligand-receptor interaction ativa stimulatory G-proteins (Gs) | Gsα subunit dissociates and ativa downstream effectors[7] |
| 3. cAMP Production | Gs ativa adenylyl cyclase; ATP is converted to cyclic AMP (cAMP) | Intracellular cAMP levels increase significantly (dose-dependente)[7][14] |
| 4. PKA Activation | Elevated cAMP ativa Protein Kinase A (PKA) fosforilacao cascades | PKA phosphorylates transcricao factors incluindo CREB[7] |
| 5. GH Gene Transcription | PKA cascade estimula GH gene transcricao and protein synthesis in somatotrophs | Increased GH mRNA and total pituitary RNA[7][8] |
| 6. Pulsatile GH Secretion | GH is released in a physiological pulse from anterior pituitary | ~30 min meia-vida produz pulsatile (not continuous) GH release[5][6] |
| 7. IGF-1 Stimulation | Released GH estimula the liver to produce Insulin-like Growth Factor-1 (IGF-1) | GH/IGF-1 axis ativacao drives downstream anabolic effects[8] |
Alternative Signaling Pathways
While the Gs/cAMP/PKA cascade is o(a) principal via de sinalizacao, CJC-1295 (no DAC) tambem pode engage the MAPK (mitogen-ativou protein kinase) and PI3K/Akt pathways, que contribute to anabolic effects (protein synthesis via mTOR), anti-apoptotico(a) signaling, and cellular proliferacao.[7]
Cellular and Tissue-Level Effects
| Effect | Detail | Evidence |
|---|---|---|
| Somatotroph Proliferation | Stimulates proliferacao of pituitary somatotroph cells; aumenta total pituitary RNA and GH mRNA | Alba et al. (2006) (DAC variant)[8] |
| GH/IGF-1 Axis | Stimulates pulsatile GH release; liver produz IGF-1; dose-dependente GH and IGF-1 elevation | Teichman et al. (2006) (DAC variant)[8] |
| Lipolysis | GH promove fat breakdown via hormone-sensitive lipase ativacao; inibe lipogenesis | GH/IGF-1 axis pharmacology[7] |
| Protein Synthesis | Enhances muscle protein synthesis via mTOR pathway ativacao downstream of GH/IGF-1 | GH secretagogue literature[12] |
| Tissue Repair | Accelerates cicatrizacao de feridas and connective reparo tecidual through sintese de colageno estimulacao | GH/IGF-1 axis regenerative properties[12] |
| DNA Damage (Pituitary) | Intense cAMP estimulacao by CJC-1295 in mouse pituitary cells induziu DNA damage (H2AX fosforilacao and comet assays) | Ben-Shlomo et al. (2020) (likely DAC variant)[14] |
Comparison: CJC-1295 No DAC vs. Related Compounds
| Parametro | CJC-1295 No DAC (Mod GRF 1-29) | CJC-1295 With DAC | Native GHRH(1-29) / Sermorelin |
|---|---|---|---|
| Half-Life | ~30 minutes | 6–8 days | Minutes |
| GH Release Pattern | Pulsatile (physiological) | Continuous (non-physiological) | Pulsatile (very brief) |
| DPP-4 Resistance | Yes (D-Ala² substitution) | Yes (D-Ala² substitution) | No (rapidly cleaved) |
| Albumin Binding | None | Covalent (via MPA-Lys linker) | None |
| Receptor Desensibilizacao Risk | Low (pulsatile depuracao) | Higher (chronic estimulacao) | Low (too brief to cause) |
| Clinical Trials | None identificado(a) for this specific compound | Phase I/II completed (Teichman 2006; Ionescu 2006) | aprovado(a) pela FDA (as Sermorelin, discontinued) |
Referencias
- Henninge J, Pepaj M, Hullstein I, Hemmersbach P. Identification of CJC-1295, a growth-hormone-releasing peptide, in an unknown pharmaceutical preparation. Drug Testing and Analysis, 2(11-12), 647-650, 2010.
- Soule S, King JA, Millar RP. Incorporation of D-Ala2 in hormonio do crescimento-releasing hormone-(1-29)-NH2 aumenta the meia-vida and diminui metabolic depuracao in normal men. The Journal of Clinical Endocrinology and Metabolism, 79(4), 1208-1211, 1994.
- Hartvig RA, Holm NB, Dalsgaard PW, Reitzel LA, Müller IB, Linnet K. Identification of peptide and protein doping related drug compounds confiscated in Denmark between 2007-2013. Scandinavian Journal of Forensic Science, 20(2), 42-49, 2014.
- Jetté L, et al. Human Growth Hormone-Releasing Factor (hGRF)1-29-Albumin Bioconjugates Activate the GRF Receptor no(a) Anterior Pituitary in Rats: Identification of CJC-1295 como um(a) Long-Lasting GRF Analog. Endocrinology, 146(7), 3052-3058, 2005.
- Lance VA, Murphy WA, Sueiras-Diaz J, Coy DH. Super-active analogs of hormonio do crescimento-releasing factor (1-29)-amide. Biochemical and Biophysical Research Communications, 119(1), 265-272, 1984.
- Van Hout MC, Hearne E. Netnography of Female Use do(a) Synthetic Growth Hormone CJC-1295: Pulses and Potions. Substance Use & Misuse, 51(1), 73-84, 2016.
- Sigalos JT, Pastuszak AW. The Safety and Efficacy of Growth Hormone Secretagogues. Sexual Medicine Reviews, 6(1), 45-53, 2018.
- Teichman SL, Neale A, Lawrence B, Gagnon C, Castaigne JP, Frohman LA. Prolonged estimulacao of hormonio do crescimento (GH) and insulin-like fator de crescimento I secretion by CJC-1295, a long-acting analog of GH-releasing hormone, in adultos saudaveis. The Journal of Clinical Endocrinology & Metabolism, 91(3), 799-805, 2006.
- Food and Drug Administration. FDA Evaluation of CJC-1295 Related Substancia Farmaceutica a Granels. FDA Briefing Document: Pharmacy Compounding Advisory Committee (PCAC) Meeting, December 4, 2024.
- Food and Drug Administration. Final Summary Minutes do(a) Pharmacy Compounding Advisory Committee Meeting. Center for Drug Evaluation and Research, December 4, 2024.
- World Anti-Doping Agency. The 2024 Lista de Substancias Proibidas: International Standard. World Anti-Doping Code, 2024.
- Sinha DK, Balasubramanian A, Tatem AJ, Kovac JR, Pastuszak AW, Lipshultz LI. Beyond the androgen receptor: the role of hormonio do crescimento secretagogues no(a) modern management of composicao corporal in hypogonadal males. Translational Andrology and Urology, 9(Suppl 2), S149-S159, 2020.
- Fabresse N, Grassin-Delyle S, Etting I, Alvarez JC. Identification of a GHRH peptide analogue, the CJC-1295, using LC-HRMS/MS. Toxicologie Analytique et Clinique, 29(2), 205-211, 2017.
- Ben-Shlomo A, et al. DNA damage and hormonio do crescimento hypersecretion in pituitary somatotroph adenomas. The Journal of Clinical Investigation, 130(11), 5738-5755, 2020.
- Ionescu M, Frohman LA. Pulsatile secretion of hormonio do crescimento (GH) persists during continuous estimulacao by CJC-1295, a long-acting GH-releasing hormone analog. The Journal of Clinical Endocrinology & Metabolism, 91(12), 4792-4797, 2006.
- Memdouh S, Gavrilović I, Ng K, Cowan D, Abbate V. Advances no(a) detection of hormonio do crescimento releasing hormone synthetic analogs. Drug Testing and Analysis, 13(11-12), 1871-1887, 2021.
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