Cardarine

Limited Research

PPAR-delta Agonist | Endurance & Fat Metabolism

Weight: 453.50 Da
Half-life: ~16-24 hours
5 studies
2017 latest
3 recent
Limited Research
Dose 10-20 mg/day
Frequency Once daily (oral)
Cycle 8-12 weeks
Storage Room temperature (59-86F). Protect from light and moisture.
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Cardarine (GW501516) is a synthetic PPAR-delta (peroxisome proliferator-activated receptor delta) agonist originally developed by GlaxoSmithKline and Ligand Pharmaceuticals in the early 2000s for the treatment of metabolic and cardiovascular diseases, including dyslipidemia, obesity, and diabetes. Despite being almost universally categorized alongside SARMs in the performance enhancement market, Cardarine is not a selective androgen receptor modulator and does not bind to the androgen receptor at all. Its mechanism is entirely distinct: it activates PPAR-delta, a nuclear receptor that regulates fatty acid oxidation, energy expenditure, and lipid metabolism. In preclinical studies, Cardarine demonstrated remarkable effects on endurance capacity, fat oxidation, and lipid profiles. However, development was abandoned by GSK in 2007 after preclinical toxicology studies in rodents revealed an increased incidence of tumors across multiple organ systems when the compound was administered at supratherapeutic doses over extended periods. This cancer signal remains the central controversy and safety concern surrounding Cardarine. The compound has never been approved for human use by any regulatory agency, and no clinical trials have been completed. It is classified as a prohibited substance by the World Anti-Doping Agency (WADA). Despite these concerns, Cardarine continues to be widely available through research chemical suppliers and is used in performance enhancement contexts for its potent endurance-boosting and fat-burning properties.

Mechanism of Action

Cardarine acts as a potent and highly selective agonist of PPAR-delta, a nuclear hormone receptor expressed in skeletal muscle, liver, adipose tissue, and the gastrointestinal tract. Upon binding to PPAR-delta, Cardarine triggers a conformational change that promotes heterodimerization with retinoid X receptor (RXR), and the resulting complex binds to PPAR response elements (PPREs) in the promoter regions of target genes. This transcriptional activation upregulates a suite of genes involved in fatty acid oxidation, mitochondrial biogenesis, and energy uncoupling. In skeletal muscle, PPAR-delta activation by Cardarine shifts the metabolic fuel preference from glucose toward fatty acids, dramatically increasing the rate of beta-oxidation. This metabolic reprogramming effectively transforms type II (fast-twitch, glycolytic) muscle fibers toward a more oxidative phenotype, similar to type I (slow-twitch) fibers, which underpins the compound's dramatic effects on endurance capacity. Preclinical studies in mice demonstrated that GW501516 treatment increased running endurance by up to 68% compared to controls. In the liver and adipose tissue, PPAR-delta activation by Cardarine promotes fatty acid catabolism and reduces lipogenesis, resulting in reduced body fat storage and improved lipid profiles (increased HDL, decreased LDL, reduced triglycerides). Critically, Cardarine does not interact with the androgen receptor, does not suppress the hypothalamic-pituitary-gonadal (HPG) axis, and does not affect endogenous testosterone production. This non-hormonal mechanism means it does not cause testosterone suppression and does not require post-cycle therapy.

01 Dramatic increase in endurance capacity through enhanced fatty acid oxidation in skeletal muscle
02 Promotes fat loss by shifting metabolic fuel preference toward fatty acid utilization over glucose
03 Improves lipid profiles: increases HDL cholesterol, decreases LDL cholesterol, and lowers triglycerides
04 Non-hormonal mechanism -- does not suppress testosterone or require post-cycle therapy
05 No androgenic side effects (no hair loss, no prostate stimulation, no virilization in women)
06 Long half-life (16-24 hours) permits convenient once-daily oral dosing
07 May offset lipid disruption caused by SARMs or anabolic steroids when used in combination

Molecular Data

Molecular Weight
453.50 Da
Type
PPAR-delta agonist (C21H18F3NO3S2)
Peak 0.0 mcg
Trough 0.0 mcg
SS Peak 0.0 mcg
SS Trough 0.0 mcg

Research Indications

Performance & Body Composition
Endurance Enhancement effective

Cardarine's most pronounced effect is on aerobic endurance. By upregulating fatty acid oxidation and promoting oxidative muscle fiber characteristics, it substantially increases the duration and intensity at which aerobic exercise can be sustained. Preclinical studies showed up to a 68% increase in running distance in treated mice. Anecdotal reports from human users consistently describe marked improvements in cardiovascular endurance within 1-2 weeks of use.

Fat Loss effective

By promoting fatty acid oxidation as the primary metabolic fuel source and reducing lipogenesis, Cardarine accelerates fat loss independently of caloric restriction. The shift toward fat as a fuel substrate means greater caloric expenditure from stored adipose tissue during both exercise and rest. Users report noticeable reductions in body fat, particularly when combined with a structured training program.

Lipid Profile Improvement effective

Cardarine consistently improves blood lipid markers in preclinical and early human data. It increases HDL cholesterol, decreases LDL cholesterol, and reduces triglycerides. This property makes it of particular interest as a co-administration agent during SARM or anabolic steroid cycles, which typically worsen lipid profiles.

Clinical / Investigational (Abandoned)
Dyslipidemia moderate

Cardarine was originally developed for the treatment of dyslipidemia and metabolic syndrome. Early Phase I/II human data demonstrated favorable shifts in lipid profiles at low doses. Development was halted before efficacy trials could be completed due to the carcinogenicity findings in rodent models.

Obesity / Metabolic Syndrome moderate

Preclinical data supported Cardarine's potential for treating obesity and metabolic syndrome through enhanced fat oxidation and improved insulin sensitivity. These indications were never pursued to clinical completion due to safety concerns.

Dosing Protocols

Cardarine is administered exclusively via the oral route. It is available as a liquid solution (typically dissolved in PEG-400 or similar carrier) or in capsule form from research chemical suppliers. The compound has high oral bioavailability. Its half-life of approximately 16-24 hours supports once-daily dosing. Steady-state plasma concentrations are achieved within a few days of consistent administration.

GoalDoseFrequencyRoute
Research Dose - Standard10 mg/dayOnce dailyOral (liquid or capsule)
Research Dose - Upper Range20 mg/dayOnce dailyOral (liquid or capsule)

Interactions

++
RAD-140 (Testolone)
One of the most popular stacking combinations. Cardarine provides endurance and fat oxidation benefits that complement RAD-140's anabolic effects on lean muscle mass. Cardarine may also help offset the HDL suppression caused by RAD-140. Since Cardarine is non-hormonal, it does not compound the testosterone suppression caused by RAD-140.
synergistic
++
LGD-4033 (Ligandrol)
Frequently stacked for body recomposition. LGD-4033 provides potent anabolic stimulus for muscle growth, while Cardarine enhances endurance and promotes fat loss. Cardarine's lipid-improving effects may partially counteract LGD-4033's negative impact on HDL cholesterol. Cardarine does not add to LGD-4033's testosterone suppression.
synergistic
++
Ostarine (MK-2866)
A commonly recommended stack for cutting phases. Ostarine provides mild muscle-preserving anabolic effects during caloric deficit, while Cardarine dramatically increases fat oxidation and cardiovascular endurance. The combination is considered milder than RAD-140 or LGD-4033 stacks.
synergistic
+
Testosterone
Cardarine is fully compatible with exogenous testosterone. It does not interfere with androgen receptor signaling, does not affect testosterone metabolism, and does not contribute to HPG axis suppression. The lipid-improving properties of Cardarine may partially offset the negative lipid effects of exogenous testosterone use.
compatible

What to Expect

Day 1-7
Improvements in endurance are often noticed within the first few days to one week. Users report being able to sustain cardiovascular exercise for longer durations and at higher intensities. Mild increases in energy and reduced perception of effort during aerobic activity. Fat loss effects are not yet visually apparent.
Week 2-4
Endurance improvements become pronounced. Sustained cardio output increases significantly. Users report the ability to run, cycle, or perform HIIT for substantially longer durations without fatigue. Visible fat loss begins, particularly in combination with a structured diet and training program. Lipid panel improvements may be measurable on blood work.
Week 4-8
Peak effects on endurance and fat metabolism. Body composition changes are clearly visible with reduced subcutaneous body fat. Lipid profiles typically show improved HDL, reduced LDL, and lower triglycerides. No hormonal side effects, mood changes, or libido disruption since testosterone levels remain unaffected.
Week 8-12
Continued fat loss and endurance benefits. Some users extend cycles to 12 weeks given the non-hormonal nature of the compound and absence of suppression-related side effects. Effects plateau for most users around this point. No PCT is required upon discontinuation.

Side Effects & Safety

Common Side Effects

  • Headaches (typically transient, most common in the first week)
  • Mild gastrointestinal discomfort (nausea, loose stools, or stomach upset, usually dose-dependent and transient)

Stop Signs - Discontinue if:

  • Any unusual lumps, masses, or unexplained weight loss (given the carcinogenicity concern from preclinical data)
  • Severe or persistent gastrointestinal symptoms
  • Unexplained fatigue or malaise
  • Signs of allergic reaction: rash, swelling, difficulty breathing

Contraindications

  • Personal or family history of cancer (the rodent carcinogenicity data warrants extreme caution in individuals with elevated cancer risk)
  • Pregnancy or potential pregnancy
  • Breastfeeding
  • Pre-existing liver disease (limited safety data)
  • Individuals under 18 years of age

Quality Checklist

Good Signs

  • Third-party lab tested with certificate of analysis (COA) showing purity above 98%
  • Clearly labeled with compound name, concentration, batch number, and expiration date
  • Solution is clear and free of particulate matter or discoloration
  • Sold as a research chemical with appropriate disclaimers (not marketed for human consumption)
  • Supplier provides HPLC or mass spectrometry verification of identity and purity

Warning Signs

  • No third-party testing or certificate of analysis available
  • Sold in pre-made capsules without verifiable dosing accuracy
  • Marketed with explicit performance enhancement claims (regulatory red flag)
  • Unusually low pricing compared to established research chemical suppliers
  • Labeled as a SARM (incorrect classification may indicate low supplier knowledge or intentional mislabeling)

Bad Signs

  • Cloudy, discolored, or precipitated solution indicating degradation or contamination
  • No labeling, incorrect labeling, or missing batch/lot information
  • Supplier has no verifiable reputation, reviews, or testing history
  • Product tested by independent labs showing underdosed, mislabeled, or contaminated contents
  • Contains unlisted active ingredients or adulterants
  • Sold by a source that also sells controlled substances (legal risk indicator)

References

  • A Metabolomic Study of the PPARdelta Agonist GW501516 for Enhancing Running Endurance in Kunming Mice
    Chen, W., Gao, R., Xie, X., et al.
    Scientific Reports (2015)

    Demonstrated that GW501516 administration significantly enhanced running endurance in mice through metabolic reprogramming favoring fatty acid oxidation over glycolysis. Metabolomic profiling revealed widespread changes in lipid, amino acid, and energy metabolism pathways consistent with PPAR-delta activation.

  • PPAR-delta Promotes Running Endurance by Preserving Glucose
    Fan, W., Waizenegger, W., Lin, C.S., et al.
    Cell Metabolism (2017)

    Showed that PPAR-delta activation reprograms skeletal muscle metabolism to preferentially oxidize fatty acids, sparing glucose and glycogen. GW501516-treated mice ran approximately 68% longer and 70% farther than untreated controls. The study demonstrated that PPAR-delta acts as an exercise mimetic at the transcriptional level.

  • Effects of GW501516 on Lipid Metabolism in Healthy Volunteers
    Olson, E.J., Pearce, G.L., Jones, N.P., Sprecher, D.L.
    Journal of Clinical Lipidology (2012)

    One of the few published human studies on GW501516. In healthy volunteers, low-dose Cardarine over 2 weeks increased HDL cholesterol, reduced LDL cholesterol, reduced triglycerides, and reduced apolipoprotein B levels. The compound was well tolerated in this short-term study at low doses.

  • Peroxisome Proliferator-Activated Receptor delta Agonist GW501516 Mediates Cancer Preventive and Therapeutic Effects
    Wang, D., DuBois, R.N.
    Cancer Biology & Therapy (2008)

    Reviewed the complex and sometimes contradictory evidence regarding PPAR-delta activation and cancer. While GW501516 promoted tumorigenesis in some rodent models, particularly in the gastrointestinal tract, the relationship between PPAR-delta activation and cancer is not straightforward, with some studies suggesting anti-tumorigenic effects in certain contexts. The review highlighted the need for further research to understand the tissue-specific and dose-dependent effects.

  • Ligand Activation of Peroxisome Proliferator-Activated Receptor-delta (PPARdelta) Promotes Intestinal Carcinogenesis
    Gupta, R.A., Wang, D., Katkuri, S., et al.
    Nature Medicine (2004)

    Demonstrated that PPAR-delta activation by GW501516 promoted intestinal polyp growth in APC-min mice (a genetic model predisposed to colorectal cancer). This was one of the early studies raising cancer concerns about PPAR-delta agonists and contributed to the eventual abandonment of GW501516 clinical development.

Related Peptides

Testosterone compatible

Cardarine is fully compatible with exogenous testosterone. It does not interfere with androgen receptor signaling, does not affect testosterone metabolism, and does not contribute to HPG axis suppression. The lipid-improving properties of Cardarine may partially offset the negative lipid effects of exogenous testosterone use.

Disclaimer

This information is for educational and research purposes only. Consult a healthcare professional before use.