α-Ketoisocaproic acid
Skeletal formula of alpha-ketoisocaproic acid
Names
IUPAC name
4-Methyl-2-oxopentanoic acid
Systematic IUPAC name
4-Methyl-2-oxopentanoic acid[1]
Other names
4-Methyl-2-oxovaleric acid
2-Ketoisocaproic acid
2-Oxo-4-methylpentanoic acid
2-Oxo-4-methylvaleric acid
2-Oxoisocaproic acid
2-Oxoleucine
Isobutylglyoxylic acid
Ketoleucine
α-Ketoisocapronic acid
α-Oxoisocaproic acid
Identifiers
3D model (JSmol)
3DMet
1701823
ChEBI
ChEMBL
ChemSpider
DrugBank
ECHA InfoCard 100.011.304
EC Number
  • 212-435-5
KEGG
MeSH Alpha-ketoisocaproic+acid
UNII
UN number 3265
  • InChI=1S/C6H10O3/c1-4(2)3-5(7)6(8)9/h4H,3H2,1-2H3,(H,8,9) checkY
    Key: BKAJNAXTPSGJCU-UHFFFAOYSA-N checkY
  • InChI=1/C6H10O3/c1-4(2)3-5(7)6(8)9/h4H,3H2,1-2H3,(H,8,9)
    Key: BKAJNAXTPSGJCU-UHFFFAOYAG
  • CC(C)CC(=O)C(O)=O
  • O=C(C(=O)O)CC(C)C
Properties
C6H10O3
Molar mass 130.143 g·mol−1
Density 1.055 g cm−3 (at 20 °C)
Melting point 8 to 10 °C (46 to 50 °F; 281 to 283 K)
Boiling point 85 °C (185 °F; 358 K) at 13 mmHg
log P 0.133
Acidity (pKa) 2.651
Basicity (pKb) 11.346
Hazards
GHS labelling:
GHS05: Corrosive
Danger
H314
P260, P264, P280, P301+P330+P331, P303+P361+P353, P304+P340, P305+P351+P338, P310, P321, P363, P405, P501
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
checkY verify (what is checkY☒N ?)
Infobox references

α-Ketoisocaproic acid (α-KIC), also known as 4-methyl-2-oxovaleric acid, and its conjugate base and carboxylate, α-ketoisocaproate, are metabolic intermediates in the metabolic pathway for L-leucine.[2] Leucine is an essential amino acid, and its degradation is critical for many biological duties.[3] α-KIC is produced in one of the first steps of the pathway by branched-chain amino acid aminotransferase by transferring the amine on L-leucine onto alpha ketoglutarate, and replacing that amine with a ketone. The degradation of L-leucine in the muscle to this compound allows for the production of the amino acids alanine and glutamate as well. In the liver, α-KIC can be converted to a vast number of compounds depending on the enzymes and cofactors present, including cholesterol, acetyl-CoA, isovaleryl-CoA, and other biological molecules. Isovaleryl-CoA is the main compound synthesized from ɑ-KIC.[4][5][6] α-KIC is a key metabolite present in the urine of people with Maple syrup urine disease, along with other branched-chain amino acids.[7] Derivatives of α-KIC have been studied in humans for their ability to improve physical performance during anaerobic exercise as a supplemental bridge between short-term and long-term exercise supplements. These studies show that α-KIC does not achieve this goal without other ergogenicsupplements present as well.[8] α-KIC has also been observed to reduce skeletal muscle damage after eccentrically biased resistance exercises in people who do not usually perform those exercises.[9]

Biological activity

Supplements

α-KIC has been studied as a nutritional supplement to aid in the performance of strenuous physical activity. Studies have shown that taking ɑ-KIC and its derivatives before acute physical activity led to an increase in muscle work by 10%, as well as a decrease in muscle fatigue during the early phase of the physical activity.[8] When taken with other supplements over a two-week period, such as beta-hydroxy beta-methylbutyrate (HMB), participants reported delayed onset of muscle soreness, as well as other positive effects such as increased muscle girth.[9] It is important to note that studies have also suggested that ɑ-KIC taken alone did not have any significant positive impacts on physical performance, so it should be taken in conjunction with other ergogenic substances.[10] ɑ-KIC is not available as a supplement on its own, but its decarboxylated form HMB is available in calcium salt capsules or powder.[4]

Applications

The biochemical implications of α-KIC are largely connected to other biochemical pathways. Protein Synthesis, skeletal muscle regeneration, and skeletal muscle proteolysis have all been noted to change when ɑ-KIC is taken. There is not much research into the specific mechanisms taking part in these processes, but there is a noticeable correlation between ɑ-KIC ingestion and increased skeletal muscle protein synthesis, regeneration, and proteolysis.[4]

Toxicity

Multiple studies have demonstrated that there have been no adverse effects on humans nor animals that ingested α-KIC or HMB.[11][12]

In patients with maple syrup urine disease, who are unable to metabolize the branched chain alpha keto acids, α-KIC is believed to be one of the key mediators of neurotoxicity.[13]

Medical use

Branched-chain alpha-keto acids such as α-KIC are found in high concentrations in the urine of people who suffer from Maple Syrup Urine Disease. This is disease is caused by a partial branched-chain alpha-keto acid dehydrogenase deficiency, which leads to a buildup of branched-chain alpha-keto acids, including α-KIC and HMB.[14] These keto-acids build up in the liver,[4][5][6] and since limited isovaleryl-CoA can be produced, these keto-acids must be excreted in the urine as α-KIC, HMB, and many other similar keto acids. Flare-ups in people who have this condition are caused due to poor diet.[7] Symptoms of Maple Syrup Urine Disease include sweet smelling urine, irritability, lethargy, and in serious cases edema of the brain, apnea, coma, or respiratory failure.[14][7] Treatment includes lowering leucine intake and a specialized diet to make up for the lack of leucine ingestion.[7]

Leucine metabolism

References

  1. CID 70 from PubChem
  2. 1 2 3 Wilson JM, Fitschen PJ, Campbell B, Wilson GJ, Zanchi N, Taylor L, Wilborn C, Kalman DS, Stout JR, Hoffman JR, Ziegenfuss TN, Lopez HL, Kreider RB, Smith-Ryan AE, Antonio J (February 2013). "International Society of Sports Nutrition Position Stand: beta-hydroxy-beta-methylbutyrate (HMB)". Journal of the International Society of Sports Nutrition. 10 (1): 6. doi:10.1186/1550-2783-10-6. PMC 3568064. PMID 23374455.
  3. "Leucine".
  4. 1 2 3 4 Wilson, Jacob M.; Fitschen, Peter J.; Campbell, Bill; Wilson, Gabriel J.; Zanchi, Nelo; Taylor, Lem; Wilborn, Colin; Kalman, Douglas S.; Stout, Jeffrey R.; Hoffman, Jay R.; Ziegenfuss, Tim N.; Lopez, Hector L.; Kreider, Richard B.; Smith-Ryan, Abbie E.; Antonio, Jose (2 February 2013). "International Society of Sports Nutrition Position Stand: beta-hydroxy-beta-methylbutyrate (HMB)". Journal of the International Society of Sports Nutrition. 10 (1): 6. doi:10.1186/1550-2783-10-6. PMC 3568064. PMID 23374455.
  5. 1 2 Zanchi, Nelo Eidy; Gerlinger-Romero, Frederico; Guimarães-Ferreira, Lucas; de Siqueira Filho, Mário Alves; Felitti, Vitor; Lira, Fabio Santos; Seelaender, Marília; Lancha, Antonio Herbert (April 2011). "HMB supplementation: clinical and athletic performance-related effects and mechanisms of action". Amino Acids. 40 (4): 1015–1025. doi:10.1007/s00726-010-0678-0. PMID 20607321. S2CID 11120110.
  6. 1 2 Kohlmeier, M (May 2015). "Leucine". Nutrient Metabolism: Structures, Functions, and Genes (2nd ed.). Academic Press. pp. 385–388. ISBN 978-0-12-387784-0.
  7. 1 2 3 4 Strauss, Kevin A; Puffenberger, Erik G; Carson, Vincent J (1993). "Maple Syrup Urine Disease". GeneReviews. University of Washington, Seattle.
  8. 1 2 Stevens, Bruce R. (2013). "An Overview of Glycine-Arginine-Alpha-Ketoisocaproic Acid (GAKIC) in Sports Nutrition". Nutrition and Enhanced Sports Performance. pp. 433–438. doi:10.1016/B978-0-12-396454-0.00044-8. ISBN 978-0-12-396454-0.
  9. 1 2 Someren, Ken A. van; Edwards, Adam J.; Howatson, Glyn (1 August 2005). "Supplementation with β-Hydroxy- β-Methylbutyrate (HMB) and α-Ketoisocaproic Acid (KIC) Reduces Signs and Symptoms of Exercise-Induced Muscle Damage in Man". International Journal of Sport Nutrition and Exercise Metabolism. 15 (4): 413–424. doi:10.1123/ijsnem.15.4.413. PMID 16286672.
  10. Yarrow, Joshua F; Parr, Jeffrey J; White, Lesley J; Borsa, Paul A; Stevens, Bruce R (December 2007). "The effects of short-term alpha-ketoisocaproic acid supplementation on exercise performance: a randomized controlled trial". Journal of the International Society of Sports Nutrition. 4 (1): 2. doi:10.1186/1550-2783-4-2. PMC 2042499. PMID 17908285.
  11. Nissen, S.; Sharp, R. L.; Panton, L.; Vukovich, M.; Trappe, S.; Fuller, J. C. (1 August 2000). "β-Hydroxy-β-Methylbutyrate (HMB) Supplementation in Humans Is Safe and May Decrease Cardiovascular Risk Factors". The Journal of Nutrition. 130 (8): 1937–1945. doi:10.1093/jn/130.8.1937. PMID 10917905.
  12. Baxter, J.H.; Carlos, J.L.; Thurmond, J.; Rehani, R.N.; Bultman, J.; Frost, D. (December 2005). "Dietary toxicity of calcium β-hydroxy-β-methyl butyrate (CaHMB)". Food and Chemical Toxicology. 43 (12): 1731–1741. doi:10.1016/j.fct.2005.05.016. PMID 16006030.
  13. Zinnanti, William J.; Lazovic, Jelena (2012). "Interrupting the mechanisms of brain injury in a model of maple syrup urine disease encephalopathy". Journal of Inherited Metabolic Disease. 35 (1): 71–79. doi:10.1007/s10545-011-9333-5. PMID 21541722. S2CID 1253267.
  14. 1 2 Strauss, Kevin A.; Wardley, Bridget; Robinson, Donna; Hendrickson, Christine; Rider, Nicholas L.; Puffenberger, Erik G.; Shelmer, Diana; Moser, Ann B.; Morton, D. Holmes (April 2010). "Classical maple syrup urine disease and brain development: Principles of management and formula design". Molecular Genetics and Metabolism. 99 (4): 333–345. doi:10.1016/j.ymgme.2009.12.007. PMC 3671925. PMID 20061171.
  15. 1 2 Kohlmeier M (May 2015). "Leucine". Nutrient Metabolism: Structures, Functions, and Genes (2nd ed.). Academic Press. pp. 385–388. ISBN 978-0-12-387784-0. Retrieved 6 June 2016. Energy fuel: Eventually, most Leu is broken down, providing about 6.0kcal/g. About 60% of ingested Leu is oxidized within a few hours ... Ketogenesis: A significant proportion (40% of an ingested dose) is converted into acetyl-CoA and thereby contributes to the synthesis of ketones, steroids, fatty acids, and other compounds
    Figure 8.57: Metabolism of L-leucine
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