Metiamide

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Metiamide
Metiamide.svg
Names
Preferred IUPAC name
N-Methyl-N'-(2-{[(5-methyl-1H-imidazol-4-yl)methyl]sulfanyl}ethyl)thiourea
Other names
1-Methyl-3-(2-{[(5-methyl-1H-imidazol-4-yl)methyl]thio}ethyl)thiourea
Identifiers
3D model (JSmol)
ChEMBL
ChemSpider
DrugBank
PubChem CID
UNII
  • InChI=1S/C9H16N4S2/c1-7-8(13-6-12-7)5-15-4-3-11-9(14)10-2/h6H,3-5H2,1-2H3,(H,12,13)(H2,10,11,14) Yes check.svgY
    Key: FPBPLBWLMYGIQR-UHFFFAOYSA-N Yes check.svgY
  • CNC(=S)NCCSCc1nc[nH]c1C
Properties
C9H16N4S2
Molar mass 244.38 g·mol−1
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
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Infobox references

Metiamide is a histamine H2 receptor antagonist developed from another H2 antagonist, burimamide. [1] It was an intermediate compound in the development of the successful anti-ulcer drug cimetidine (Tagamet). [2]

Contents

Development of metiamide from burimamide

After discovering that burimamide is largely inactive at physiological pH, due to the presence of its electron-donating side chain, the following steps were undertaken to stabilize burimamide:

These changes increased the bioavailability metiamide so that it is ten times more potent than burimamide in inhibiting histamine-stimulated release of gastric acid. [2] The clinical trials that began in 1973 demonstrated the ability of metiamide to provide symptomatic relief for ulcerous patients by increasing healing rate of peptic ulcers. However, during these trials, an unacceptable number of patients dosed with metiamide developed agranulocytosis (decreased white blood cell count). [2]

Modification of metiamide to cimetidine

It was determined that the thiourea group was the cause of the agranulocytosis. Therefore, replacement of the thiocarbonyl in the thiourea group was suggested:

The nitro and cyano groups are sufficiently electronegative to reduce the pKa of the neighboring nitrogens to the same acidity of the thiourea group, hence preserving the activity of the drug in a physiological environment.

Synthesis

Reacting ethyl 2-chloroacetoacetate (1) with 2 molar equivalents of formamide (2) gives 4-carboethoxy-5-methylimidazole (3). Reduction of the carboxylic ester (3) with sodium in liquid ammonia via Birch reduction gives the corresponding alcohol (4). Reaction of that with cysteamine (mercaptoethylamine), as its hydrochloride, leads to intermediate 5. In the strongly acid medium, the amine is completely protonated; this allows the thiol to express its nucleophilicity without competition and the acid also activates the alcoholic function toward displacement. Finally, condensation of the amine with methyl isothiocyanate gives metiamide (6).

Metiamide synthesis: Metiamide synthesis.svg
Metiamide synthesis:

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References

  1. Clayden, Jonathan; Greeves, Nick; Warren, Stuart; Wothers, Peter (2001). Organic Chemistry (1st ed.). Oxford University Press. pp. 204–206, 586–588. ISBN   978-0-19-850346-0.
  2. 1 2 3 "Tagamet: Discovery of Histamine H2-receptor Antagonists". National Historic Chemical Landmarks. American Chemical Society. Archived from the original on December 9, 2012. Retrieved June 25, 2012.
  3. Durant, G. J.; Emmett, J. C.; Ganellin, C. R.; Roe, A. M.; Slater, R. A. (1976). "Potential histamine H2-receptor antagonists. 3. Methylhistamines". Journal of Medicinal Chemistry. 19 (7): 923. doi:10.1021/jm00229a013. PMID   7675.
  4. Durant, G. J.; Emmett, J. C.; Ganellin, C. R.; Miles, P. D.; Parsons, M. E.; Prain, H. D.; White, G. R. (1977). "Cyanoguanidine-thiourea equivalence in the development of the histamine H2-receptor antagonist, cimetidine". Journal of Medicinal Chemistry. 20 (7): 901. doi:10.1021/jm00217a007. PMID   17751.
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