Sarcosine, also known as N-methylglycine, or monomethylglycine, is a
amino acid with the formula CH3N(H)CH2CO2H. It exists at neutral pH as the
zwitterion CH3N+(H)2CH2CO2−, which can be obtained as a white, water-soluble powder. Like some amino acids, sarcosine converts to a cation at low pH and an anion at high pH, with the respective formulas CH3N+(H)2CH2CO2H and CH3N(H)CH2CO2−. Sarcosine is a close relative of glycine, with a secondary amine in place of the primary amine.
Sarcosine is ubiquitous in biological materials. It is used in manufacturing
biodegradablesurfactants and toothpastes as well as in other applications. It is also a reagent in
organic synthesis.[1]
Sarcosine is an intermediate and byproduct in
glycine synthesis and degradation. Sarcosine is metabolized to glycine by the enzyme
sarcosine dehydrogenase, while
glycine-N-methyl transferase generates sarcosine from glycine. Sarcosine is an
amino acid derivative that is naturally found in muscles and other body tissues. In the laboratory, it may be synthesized from
chloroacetic acid and
methylamine. Sarcosine is an intermediate in the metabolism of
choline to
glycine.[2]
Sarcosine, like the related compounds
dimethylglycine (DMG) and
trimethylglycine (betaine, TMG), is formed via the metabolism of nutrients such as
choline and
methionine, which both contain
methyl groups used in a wide range of biochemical reactions. Sarcosine is rapidly degraded to glycine, which, in addition to its importance as a constituent of protein, plays a significant role in various physiological processes as a prime metabolic source of components of living cells such as
glutathione,
creatine,
purines and
serine. The concentration of sarcosine in blood serum of normal human subjects is 1.4 ± 0.6 micromolar.[3]
Early evidence suggests sarcosine is an effective and well-tolerated
adjuvant to many
antipsychotics except clozapine for the treatment of
schizophrenia, showing significant reductions in both positive and negative symptoms.[5][6]
Sarcosine has also been debated as a biomarker for prostate cancer cells.[7][8]
History
Sarcosine was first isolated and named by the German chemist
Justus von Liebig in 1847.
Jacob Volhard first synthesized it in 1862 while working in the lab of
Hermann Kolbe. Prior to the synthesis of sarcosine, it had long been known to be a hydrolysis product of
creatine, a compound found in meat extract. Under this assumption, by preparing the compound with
methylamine and
monochloroacetic acid, Volhard proved that sarcosine was N-methylglycine.[9]
^Allen RH, Stabler SP, Lindenbaum J (November 1993). "Serum betaine, N,N-dimethylglycine and N-methylglycine levels in patients with cobalamin and folate deficiency and related inborn errors of metabolism". Metabolism. 42 (11): 1448–60.
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10.1016/0026-0495(93)90198-W.
PMID7694037.
^Lane HY, Huang CL, Wu PL, Liu YC, Chang YC, Lin PY, Chen PW, Tsai G (September 2006). "Glycine transporter I inhibitor, N-methylglycine (sarcosine), added to clozapine for the treatment of schizophrenia". Biological Psychiatry. 60 (6): 645–9.
doi:
10.1016/j.biopsych.2006.04.005.
PMID16780811.
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^Tsai G, Lane HY, Yang P, Chong MY, Lange N (March 2004). "Glycine transporter I inhibitor, N-methylglycine (sarcosine), added to antipsychotics for the treatment of schizophrenia". Biological Psychiatry. 55 (5): 452–6.
doi:
10.1016/j.biopsych.2003.09.012.
PMID15023571.
S2CID35723786.