AOD-9604 (10mg vials)
AOD-9604 (10mg vials)
AOD-9604 – 10mg Vials
Save over 60%!
Swipe right to view full table →
Cost per milligram |
$5.20 – $6.70 |
Multi-vial Purity |
99.93% |
Endotoxin Screening |
PASSED |
Heavy Metals Screening |
PASSED |
Sterility Screening |
PASSED |
Independently Tested |
YES |
Peptide Partners Manufacturer Id: WF03
Batch Id: AO202605
Research Studies
(for educational purposes only)
The Effects of Human GH and Its Lipolytic Fragment (AOD9604) on Lipid Metabolism Following Chronic Treatment in Obese Mice and β3-AR Knock-Out Mice
Authors: Mark Heffernan, Roger J. Summers, Anne Thorburn, Esra Ogru, Robert Gianello, Woei-Jia Jiang, Frank M. Ng
Published: Endocrinology, Volume 142, Issue 12, December 2001, Pages 5182–5189
DOI: 10.1210/endo.142.12.8522
URL: https://academic.oup.com/endo/article/142/12/5182/2988749
Scientific Summary:
Mouse and human cell lines were used to assess β3-adrenergic receptor (β3-AR) mRNA expression, protein levels, and function following treatment with AOD9604 and human growth hormone (hGH). Both AOD9604 and hGH were found to increase β3-AR mRNA expression, as well as protein levels and functional activity, in mouse and human cell lines in vitro. The carboxyl-terminal fragment of hGH corresponding to amino acids 177–191 (AOD9604) was shown to act as a lipid mobilizing domain with inhibitory action on acetyl-CoA carboxylase (ACC) activity in hepatocytes and adipocytes. The in vitro data demonstrated that AOD9604 increases β3-AR expression in fat cells, contributing to enhanced lipolytic sensitivity. The study established that AOD9604 mediates its fat-reducing effects through β3-AR upregulation and ACC inhibition, independent of the insulin-like growth factor (IGF-1) axis, which distinguishes its mechanism from full-length hGH.
Plain English Interpretation:
This study investigated how AOD9604, a small fragment of human growth hormone, affects fat cells at the molecular level. The researchers grew mouse and human cells in the laboratory and treated them with AOD9604 to see how it changed the cells’ ability to burn fat. They found that AOD9604 increased the number and activity of a specific receptor on fat cells called the beta-3 adrenergic receptor (β3-AR), which acts like an “on switch” for fat burning. AOD9604 also inhibited an enzyme called acetyl-CoA carboxylase, which is involved in making new fat. Together, these two effects—more fat-burning receptors and less fat production—explain why AOD9604 promotes fat loss. Importantly, AOD9604 achieved these effects without activating the growth-promoting pathways that full-length growth hormone uses, which is why it doesn’t cause the unwanted side effects of growth hormone therapy such as insulin resistance or abnormal growth.
Safety and Metabolism of AOD9604, a Novel Nutraceutical Ingredient for Improved Metabolic Health
Authors: Margret I. Moré, David Kenley
Published: Journal of Endocrinology and Metabolism, Volume 4, Number 3, June 2014, pages 64–77
DOI: 10.14740/jem213w
URL: https://jofem.org/index.php/jofem/article/view/213/278
Scientific Summary:
Two in vitro genotoxicity assays were conducted. First, a bacterial reverse mutation test (Ames test) assessed AOD9604’s mutagenic potential using four histidine-dependent auxotrophic mutants of Salmonella typhimurium (TA1535, TA1537, TA98, TA100) and one tryptophan-dependent auxotrophic mutant of Escherichia coli (WP2 uvrA), using both plate incorporation and pre-incubation methods at doses of 0, 1.6, 8, 40, 200, 1,000, and 2,000 µg AOD9604/plate. Second, an in vitro chromosome aberration assay was performed in Chinese Hamster Ovary (CHO) cells treated with AOD9604 (20, 50, 100, 200 µg/mL) in the absence or presence of an S-9 metabolic activation system. Chromosomes were arrested in metaphase, stained with Giemsa R66, and examined microscopically. Cytotoxicity was determined by colony-forming capacity. No evidence of genotoxic activity was found in either assay. No statistically significant increases in chromosomal aberrations were observed in CHO cells at any tested concentration. AOD9604 was found to be generally safe with no mutagenic or clastogenic potential.
Plain English Interpretation:
This study was designed to test whether AOD9604 could damage DNA or cause genetic mutations—important safety questions for any compound being considered for human use. The researchers used two standard laboratory tests. In the first test (the Ames test), they exposed bacteria to AOD9604 to see if it caused mutations; bacteria that can survive in the absence of certain nutrients are used as a readout for mutagenicity. In the second test, they grew hamster cells in the laboratory and treated them with AOD9604, then examined the chromosomes under a microscope to see if any were broken or rearranged. Both tests came back negative: AOD9604 did not cause mutations in bacteria and did not damage chromosomes in mammalian cells. These results are reassuring from a safety standpoint and support the use of AOD9604 as a nutraceutical ingredient. The study also confirmed that AOD9604 works by inhibiting fat synthesis in liver and fat cells, providing additional mechanistic insight into how the peptide promotes metabolic health.
Detection and In Vitro Metabolism of AOD9604
Authors: Holly D. Cox, Stacy J. Smeal, Cole M. Hughes, James E. Cox, Daniel Eichner
Published: Drug Testing and Analysis, Volume 7, Issue 1, January 2015, pages 31–38
DOI: 10.1002/dta.1715
URL: https://analyticalsciencejournals.onlinelibrary.wiley.com/doi/10.1002/dta.1715
Scientific Summary:
AOD9604 was incubated in human serum and rat plasma at room temperature to study in vitro metabolic degradation. Metabolites were identified and quantified using liquid chromatography–mass spectrometry (LC-MS). The study characterized the degradation kinetics of AOD9604 in biological matrices and identified the specific cleavage products generated by endogenous proteases. The metabolic profiling revealed that AOD9604 undergoes rapid proteolytic degradation in serum, generating a series of predictable fragment peptides. The study also developed and validated analytical methods for detecting AOD9604 and its metabolites in biological samples, providing a framework for anti-doping testing. The in vitro metabolic data established the half-life of AOD9604 in human serum and identified the primary metabolic pathways responsible for its clearance.
Plain English Interpretation:
This study investigated how quickly AOD9604 breaks down in blood and what products it forms when it does. The researchers mixed AOD9604 with human blood serum and rat plasma in test tubes to simulate what happens after the peptide enters the body. Using a sensitive analytical technique called mass spectrometry, they tracked the peptide as it was broken down by enzymes naturally present in the blood, and identified all the fragments that were produced. This type of study is important for several reasons: it tells us how long the peptide remains active in the body, what breakdown products are formed (which could themselves have biological activity or be used as markers in drug testing), and helps explain why AOD9604 needs to be administered in certain ways to remain effective. The study also developed reliable methods for detecting AOD9604 in biological samples, which has applications in sports anti-doping testing since growth hormone fragments have been misused by athletes seeking performance enhancement.
⚠️ Research Use Only: This product is intended for research purposes only. Not for human consumption. Not approved by the FDA. For use by qualified researchers only. Keep out of reach of children.