GW-0742 (10mg/90cnt)
GW-0742 (900mg/30ml) | The High-Affinity PPARδ Agonist
GW-0742 is a potent, selective PPARδ (Peroxisome Proliferator-Activated Receptor delta) agonist, closely related to GW-501516 (Cardarine). While they share a similar chemical lineage, GW-0742 is researched for its significantly higher binding affinity and increased potency in activating metabolic pathways. In biological research, it is primarily utilized to study advanced lipid metabolism, cardiac hypertrophy, and acute inflammatory responses.
Mechanism of Action
GW-0742 functions by directly activating the PPARδ receptors, which serve as master regulators of energy expenditure:
Enhanced Lipid Oxidation: It shifts the cellular preference from glucose to fatty acids, drastically increasing the rate at which stored body fat is burned for energy.
GLUT4 Translocation: Like its predecessor, it increases the expression of glucose transporters, improving insulin sensitivity and skeletal muscle nutrient uptake.
Cardiovascular Modulation: Research suggests GW-0742 may have a specific impact on heart tissue, with studies exploring its ability to reduce cardiac hypertrophy (enlargement) under stress.
Mitochondrial Upregulation: It promotes mitochondrial biogenesis, increasing the density of "power plants" within the muscle cells to sustain higher workloads.
Fitness & Performance Research Benefits
In endurance and body composition research, GW-0742 is studied as an evolved version of metabolic signaling:
Superior Endurance Thresholds: Research models often show a rapid increase in VO2 max and time-to-exhaustion, making it a critical subject for cardiovascular performance studies.
Rapid Metabolic Recomposition: By aggressively promoting fat oxidation, it is investigated for its ability to reduce adipose tissue while maintaining muscle mass in caloric deficits.
Anti-Inflammatory Properties: It is studied for its ability to reduce systemic inflammation, particularly in the gut and joints, which can be beneficial for high-intensity recovery research.
Cardiac Health Research: Unlike many performance compounds that stress the heart, GW-0742 is researched for its potential cardioprotective effects in specific injury models.
Synergistic Potential: Researchers often look at how GW-0742 interacts with AICAR or Stenabolic to create a comprehensive "exercise mimetic" environment.
Technical Specifications
Chemical Name: [4-[[[2-[3-fluoro-4-(trifluoromethyl)phenyl]-4-methyl-5-thiazolyl]methyl]thio]-2-methylphenoxy]acetic acid
Concentration: 30mg/mL (900mg total per 30mL bottle).
Molecular Formula:
$$C_{21}H_{17}F_{4}NO_{3}S_{2}$$
Purity: $>98\%$ (HPLC verified).
Molecular Weight: 471.5 g/mol.
Format: Liquid solution (Research Grade).
Storage: Store at room temperature (15-30°C). Keep away from direct light and avoid extreme temperature fluctuations.
Research Disclaimer: This product is intended for laboratory research purposes only. It is not approved for human consumption. GW-0742 is a prohibited substance under WADA regulations (S4. Hormone and Metabolic Modulators).GW-0742 (900mg/30ml) | The High-Affinity PPARδ Agonist
GW-0742 is a potent, selective PPARδ (Peroxisome Proliferator-Activated Receptor delta) agonist, closely related to GW-501516 (Cardarine). While they share a similar chemical lineage, GW-0742 is researched for its significantly higher binding affinity and increased potency in activating metabolic pathways. In biological research, it is primarily utilized to study advanced lipid metabolism, cardiac hypertrophy, and acute inflammatory responses.
Mechanism of Action
GW-0742 functions by directly activating the PPARδ receptors, which serve as master regulators of energy expenditure:
Enhanced Lipid Oxidation: It shifts the cellular preference from glucose to fatty acids, drastically increasing the rate at which stored body fat is burned for energy.
GLUT4 Translocation: Like its predecessor, it increases the expression of glucose transporters, improving insulin sensitivity and skeletal muscle nutrient uptake.
Cardiovascular Modulation: Research suggests GW-0742 may have a specific impact on heart tissue, with studies exploring its ability to reduce cardiac hypertrophy (enlargement) under stress.
Mitochondrial Upregulation: It promotes mitochondrial biogenesis, increasing the density of "power plants" within the muscle cells to sustain higher workloads.
Fitness & Performance Research Benefits
In endurance and body composition research, GW-0742 is studied as an evolved version of metabolic signaling:
Superior Endurance Thresholds: Research models often show a rapid increase in VO2 max and time-to-exhaustion, making it a critical subject for cardiovascular performance studies.
Rapid Metabolic Recomposition: By aggressively promoting fat oxidation, it is investigated for its ability to reduce adipose tissue while maintaining muscle mass in caloric deficits.
Anti-Inflammatory Properties: It is studied for its ability to reduce systemic inflammation, particularly in the gut and joints, which can be beneficial for high-intensity recovery research.
Cardiac Health Research: Unlike many performance compounds that stress the heart, GW-0742 is researched for its potential cardioprotective effects in specific injury models.
Synergistic Potential: Researchers often look at how GW-0742 interacts with AICAR or Stenabolic to create a comprehensive "exercise mimetic" environment.
Technical Specifications
Chemical Name: [4-[[[2-[3-fluoro-4-(trifluoromethyl)phenyl]-4-methyl-5-thiazolyl]methyl]thio]-2-methylphenoxy]acetic acid
Storage: Store at room temperature (15-30°C). Keep away from direct light and avoid extreme temperature fluctuations.
Research Disclaimer: This product is intended for laboratory research purposes only. It is not approved for human consumption. GW-0742 is a prohibited substance under WADA regulations (S4. Hormone and Metabolic Modulators).
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