Archive for August, 2012


The short answer is: YES, you can, but be careful. Some  info below.

There are more and more far east providers of Aicar who offer the substance at fractions of huge worldwide chem manufacturers cost. Most of them has lower purity, check COA and HPLC results.

AICAR is a potent AMPK activator for research. Current price at Sigma-Aldrich for 98% purity Aicar is 300 USD for 25 milligrams!

AICAR ≥98% (HPLC), powder CAS no. 2627-69-2

5-Aminoimidazole-4-carboxamide 1-β-D-ribofuranoside, Acadesine, N1-(β-D-Ribofuranosyl)-5-aminoimidazole-4-carboxamide

So, how can you buy approximately 1 gram for the same price? – you buy from a smaller, non-worldwide, not so high rated raw chemical supplier THROUGH US.

1000 mg Aicar for $299  http://superhumangear.com/store_wp/shop/performance/aicar-acadesine-1000-mg-special-deal/

There are many peptide and body building sites that sell Aicar in 100 mg doses at around $100. Our price is half of that – but we don’t dilute it into liquid, you get the raw powder – and you can start experimenting with it.

100 mg Aicar for 59 dollars ONLY http://superhumangear.com/store_wp/shop/performance/aicar-100-mg-vial-lowest-price-blowout-deal/ 

Please note that 100 mg is barely enough for any research if done on mammals. It can be used as a sample or test project on cell cultures. The smallest recommended amount you can test mammals with is 1 gram.

 

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BUY CHEAP GW1516 research material

We are proud to announce that we carry GW1516

This substance drags a lot of attention and currently undergoes a lot of testing. It is a PPAR-β/δ agonist that acts synergistically with exercise to increase running endurance after 4 weeks.

$160 per gram so once again we will bring you the latest research materials at the most affordable prices! Product is shipped in a sealed foil bag.

Researchers at the Salk Institute have shown that agonists of both AMP-activated protein kinase (AMPK ) and a peroxisome proliferator-activated receptor (PPAR) can mimic some of the beneficial effects of exercise in mice. In a treadmill running test, the PPAR-β/δ agonist, GW 1516 (GW 501516), acted synergistically with exercise to increase running endurance after 4 weeks. The AMPK agonist, AICAR, surprisingly enhanced running endurance even in sedentary mice, also after 4 weeks dosing. PPAR-δ and AMPK agonists have the potential to treat diseases such as diabetes, where exercise has been shown to be beneficial and to offer protection against obesity, but also have the more controversial potential to increase endurance in athletes.
GW1516
Like exercise, AICAR and GW1516 trigger a variety of changes that contribute improved endurance and the ability of muscle cells to burn fat. A phase II clinical trial of GW1516 for the potential treatment of dyslipidemia has been completed.

GW-501516 (also known as GW-501,516, GW1516 or GSK-516) is a PPARδ modulator compound being investigated for drug use by GlaxoSmithKline.[1][2] It activates the same pathways activated through exercise, including PPARδ and AMP-activated protein kinase. It is being investigated as a potential treatment for obesity, diabetes, dyslipidemia and cardiovascular disease.[3][4] GW-501516 has a synergistic effect when combined with AICAR: the combination has been shown to significantly increase exercise endurance in animal studies more than either compound alone. [5][6]

GW-50156 regulates fat burning through a number of widespread mechanisms;[7] it increases glucose uptake in skeletal muscle tissue and increases muscle gene expression, especially genes involved in preferential lipid utilization.[8][9][10] This shift changes the body’s metabolism to favor burning fat for energy instead of carbohydrates or muscle protein, potentially allowing clinical application for obese patients to lose fat effectively without experiencing muscle catabolism or the effects and satiety issues associated with low blood sugar.[11] GW-501516 also increases muscle mass, which improved glucose tolerance and reduced fat mass accumulation even in mice fed a very high fat diet, suggesting that GW-501516 may have a protective effect against obesity [12]

It has been demonstrated at oral doses of 5 mg a day to reverse metabolic abnormalities in obese men with pre-diabetic metabolic syndrome, most likely by stimulating fatty acid oxidation.[13] Treatments with GW-501516 have been shown to increase HDL cholesterol by up to 79% in rhesus monkeys and the compound is now undergoing Phase II trials to improve HDL cholesterol in humans.[14]

Concerns were raised prior to the 2008 Beijing Olympics that GW-501516 could be used by athletes as a performance enhancing drug which was not currently controlled by regulations or detected by standard tests. One of the main researchers from the study on enhanced endurance consequently developed a urine test to detect the drug, and made it available to the International Olympic Committee.[15] The World Anti-Doping Agency has also begun work on a test for GW-501516 and other related PPARδ modulators,[16] and they have been added to the prohibited list from 2009 onwards.[17] The compound has yet to be named a controlled or prohibited substance by any nation’s drug enforcement or regulation agency. To date, no athlete is known to have tested positive for the substance, though the increase in endurance, muscle fiber performance, fat loss and metabolism suggests GW-501516 has the potential for ergogenic use and abuse.

 

Abstract

The beta-thymosins are a family of highly conserved polar 5 kDa peptides originally thought to be thymic hormones. About 10 years ago, thymosin beta(4) as well as other members of this ubiquitous peptide family were identified as the main intracellular G-actin sequestering peptides, being present in high concentrations in almost every cell. beta-Thymosins bind monomeric actin in a 1:1 complex and act as actin buffers, preventing polymerization into actin filaments but supplying a pool of actin monomers when the cell needs filaments. Changes in the expression of beta-thymosins appear to be related to the differentiation of cells. Increased expression of beta-thymosins or even the synthesis of a beta-thymosin normally not expressed might promote metastasis possibly by increasing mobility of the cells. Thymosin beta(4) is detected outside of cells in blood plasma or in wound fluid. Several biological effects are attributed to thymosin beta(4), oxidized thymosin beta(4), or to the fragment, acSDKP, possibly generated from thymosin beta(4). Among the effects are induction of metallo-proteinases, chemotaxis, angiogenesis and inhibition of inflammation as well as the inhibition of bone marrow stem cell proliferation. However, nothing is known about the molecular mechanisms mediating the effects attributed to extracellular beta-thymosins.

PMID:
11311852
[PubMed – indexed for MEDLINE]

BUY THYMOSIN BETA 4 HERE

Cell Biology Section, NIH, NIDCR, Building 30, Room 433, 30 Convent Dr. MSC 4370, Bethesda, MD 20892, USA.

Abstract

Thymosin beta 4 is a small 43-amino-acid molecule that has multiple biological activities, including promotion of cell migration angiogenesis, cell survival, protease production, and wound healing. We have found that thymosin beta 4 promotes hair growth in various rat and mice models including a transgenic thymosin beta 4 overexpressing mouse. We have also determined the mechanism by which thymosin beta 4 acts to promote hair growth by examining its effects on follicle stem cell growth, migration, differentiation, and protease production.

PMID:
17947589
[PubMed – indexed for MEDLINE]