5-Amino 1-MQ (5mg – 10mg)
Price range: $65.00 through $75.00
5-Amino-1MQ is a lab-tested NNMT inhibitor research compound studied for NAD⁺ metabolism, lipid regulation, and muscle function pathways. Available in 5mg and 10mg lyophilized vials. Purity >99% verified by third-party HPLC testing. USA domestic fulfillment.
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5-Amino-1MQ: Metabolism, and Muscle-Function Research
5-Amino-1-methylquinolinium (5-amino-1MQ) is a small-molecule inhibitor of nicotinamide N-methyltransferase (NNMT)—an enzyme that consumes methyl groups from S-adenosyl-methionine (SAM) to convert nicotinamide (NAM) into 1-methylnicotinamide (1-MNA). In cell and rodent models, NNMT inhibition preserves intracellular NAM and SAM, increases NAD⁺ availability, and shifts lipid metabolism, translating into reduced adiposity, smaller adipocytes, and lower cholesterol without suppressing food intake. Recent work also reports improved muscle strength and regenerative capacity in aged mice treated with NNMT inhibitors. PubMed+2PubMed+2
Molecular Identity & Rationale
Compound: 5-amino-1-methylquinolinium (commonly “5-amino-1MQ”).
Class: Membrane-permeable, selective NNMT inhibitor.
Rationale: By blocking NNMT, 5-amino-1MQ decreases formation of 1-MNA and preserves NAM for the NAD⁺ salvage pathway while conserving SAM for methylation reactions—mechanistic changes linked to anti-adipogenic effects and metabolic remodeling in preclinical studies. PubMed
Mechanistic Overview (Research Context)
NAD⁺ & methylation economy: NNMT consumes SAM and NAM, lowering the cell’s methylation potential and diverting NAM away from NAD⁺ synthesis. Inhibiting NNMT with 5-amino-1MQ raises intracellular NAD⁺ and SAM, reduces SAH/SAM constraints, and suppresses lipogenesis in adipocytes. PubMed
Epigenetic remodeling: Elevated NNMT activity creates a “methylation sink,” globally altering chromatin marks and gene expression; conversely, NNMT suppression restores methylation potential—an axis with implications across metabolism and oncology. PMC
Target validity: NNMT knockdown in mice protects against diet-induced obesity and improves metabolic parameters, supporting the enzyme as a lever for energy balance. PubMed
5-Amino-1MQ Research Studies
Reduced body fat and adipocyte size: In diet-induced obesity (DIO) mice, systemic NNMT inhibition with 5-amino-1MQ reduced body weight, white adipose mass, and adipocyte size, and lowered plasma cholesterol, without changing food intake. For an individual participating in a study, that reads out as smaller fat depots on imaging, improved lipid panels, and no anorectic effect observed in these models. PubMed
NAD⁺ and metabolic flexibility: Adipocyte studies show higher intracellular NAD⁺ and SAM after 5-amino-1MQ exposure—biochemical shifts often associated with enhanced oxidative metabolism and lower lipogenesis in vitro, which—if mirrored in vivo—could map to better metabolic markers (exploratory). PubMed
Liver fat & systems outcomes (adjunct with diet): Combining an NNMT inhibitor with a lean/low-fat diet normalized body weight and adiposity in obese mice more fully than diet alone and established a distinct, “lean-like” microbiome profile—suggesting potential adjacency to lifestyle interventions under controlled conditions. Nature
Muscle strength and regeneration (aging models): In aged mice, NNMT inhibition improved grip strength and boosted muscle stem-cell activation/regeneration, with effects that mimicked or exceeded resistance/endurance training and combined additively with exercise. For a participant, that corresponds to higher functional strength scores and enhanced recovery metrics in a monitored protocol. PubMed
Conclusion
5-amino-1MQ offers a mechanistically coherent approach to modulating NAD⁺ metabolism, methylation balance, and lipid storage via selective NNMT inhibition. Across preclinical systems, it reduces adiposity, improves lipid profiles, raises NAD⁺/SAM, and enhances muscle function in aged mice—especially when paired with lifestyle interventions. The next essential step is well-controlled human pharmacology to establish exposure, safety, and efficacy relative to diet and exercise alone. PubMed+1Nature
Key Citations (medical/research sources)
Small-molecule NNMT inhibition with 5-amino-1MQ (cells & DIO mice): Neelakantan H, et al. Biochem Pharmacol. 2018;147:141-152. Free full text. PubMed
Target validity (genetic): Kraus D, et al. Nature. 2014;508:258-262. NNMT knockdown protects against diet-induced obesity. PubMed
Mechanism—methylation sink & epigenetics: Ulanovskaya OA, et al. Nat Chem Biol. 2013;9(5):300-306. PMC
Review—NNMT in obesity & T2D (includes 5-amino-1MQ context): Liu JR, et al. Biomed Res Int. 2021:9924314. PMC
Review—NNMT as a pharmacological target: Sun WD, et al. Front Pharmacol. 2024;15:1410479. PMC
Diet adjacency & microbiome with NNMTi (5-amino-1MQ): Dimet-Wiley A, et al. Sci Rep. 2022;12:484. Nature
Muscle function & regeneration in aged mice with NNMTi: Dimet-Wiley A, et al. Sci Rep. 2024;14:15554. PubMed
Legal Disclaimer
This product is for research and educational purposes only. 5-amino-1MQ is not approved by the U.S. Food and Drug Administration (FDA) or other regulatory authorities for diagnosis, treatment, cure, or prevention of any disease. Any investigation should occur exclusively within controlled research settings and in compliance with applicable laws, ethics oversight, and good clinical/laboratory practice.
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