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Lac-Phe

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Lac-Phe
Names
IUPAC name (2S)-2-[amino]-3-phenylpropanoic acid
Other names N--L-phenylalaninate
N-Lactoyl-phenylalanine
N-Lactoylphenylalanine
Identifiers
CAS Number
3D model (JSmol)
ChEBI
ChemSpider
PubChem CID
InChI
  • InChI=1S/C12H15NO4/c1-8(14)11(15)13-10(12(16)17)7-9-5-3-2-4-6-9/h2-6,8,10,14H,7H2,1H3,(H,13,15)(H,16,17)/t8-,10-/m0/s1Key: IIRJJZHHNGABMQ-WPRPVWTQSA-N
SMILES
  • C(C(=O)N(CC1=CC=CC=C1)C(=O)O)O
Properties
Chemical formula C12H15NO4
Molar mass 237.255 g·mol
Related compounds
Related N-acyl-alpha-amino acids N-Acetylaspartic acid
N-acetylcysteine
N-Acetylglutamic acid
N-Acetylglutamine
N-Acetylleucine
N-formylmethionine
Related compounds Lactamide
Except where otherwise noted, data are given for materials in their standard state (at 25 °C , 100 kPa). Infobox references
Chemical compound

Lactoylphenylalanine, or Lac-Phe, is a metabolite generated by intense exercise. In mice, high levels of Lac-Phe in the blood cause a decrease of food intake and in humans, its production has been shown to correlate with adipose tissue loss during an endurance exercise intervention. In mammals it is created from (S)-lactate and L-phenylalanine by the cytosol nonspecific dipeptidase (CNDP2) protein. It is classified as N-acyl-alpha-amino acid and pseudodipeptide.

It has also been reported that as an additive N-L-lactoyl phenylalanine improves the taste of food, conferring an umami flavor. It is found naturally in significant amounts in some traditional Chinese fermented foods such as preserved pickles and soy sauce. Oral intake of Lac-Phe does not have anti-obesity effects in mice, though intraperitoneal injection does reduce food intake and weight gain. Activity dependent cell labeling indicates Lac-Phe activated neural populations in the hypothalamus and brainstem.

See also

References

  1. ^ Li VL, He Y, Contrepois K, Liu H, Kim JT, Wiggenhorn AL, et al. (June 2022). "An exercise-inducible metabolite that suppresses feeding and obesity". Nature. 606 (7915): 785–790. Bibcode:2022Natur.606..785L. doi:10.1038/s41586-022-04828-5. PMC 9767481. PMID 35705806. S2CID 249710767.
  2. Wong C (15 June 2022). "Appetite-suppressing molecule helps obese mice lose weight". New Scientist. Retrieved 18 June 2022.
  3. Reynolds G (15 June 2022). "Why Does a Hard Workout Make You Less Hungry?". The New York Times. Retrieved 18 June 2022.
  4. Hoene M, Zhao X, Machann J, Birkenfeld AL, Heni M, Peter A, et al. (January 2023). "Exercise-Induced N-Lactoylphenylalanine Predicts Adipose Tissue Loss during Endurance Training in Overweight and Obese Humans". Metabolites. 13 (1): 15. doi:10.3390/metabo13010015. PMC 9863672. PMID 36676940. S2CID 255077184.
  5. Jansen RS, Addie R, Merkx R, Fish A, Mahakena S, Bleijerveld OB, et al. (May 2015). "N-lactoyl-amino acids are ubiquitous metabolites that originate from CNDP2-mediated reverse proteolysis of lactate and amino acids". Proceedings of the National Academy of Sciences of the United States of America. 112 (21): 6601–6606. Bibcode:2015PNAS..112.6601J. doi:10.1073/pnas.1424638112. PMC 4450436. PMID 25964343.
  6. "Metabocard for N-Lactoylphenylalanine". The Human Metabolome Database (HMDB). The Metabolomics Innovation Centre (TIMC). HMDB0062175.
  7. Wu J, Gao J, Lin J, Cui C, Li L, He S, Brennan C (May 2022). "Preparation and Taste Characteristics of Kokumi N-Lactoyl Phenylalanine in the Presence of Phenylalanine and Lactate". Journal of Agricultural and Food Chemistry. 70 (17): 5396–5407. doi:10.1021/acs.jafc.2c00530. PMID 35452224. S2CID 248345604.
  8. Moya-Garzon MD, Wang M, Li VL, Lyu X, Wei W, Tung AS; et al. (2024). "A β-hydroxybutyrate shunt pathway generates anti-obesity ketone metabolites". Cell. doi:10.1016/j.cell.2024.10.032. PMID 39536746.{{cite journal}}: CS1 maint: multiple names: authors list (link)

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