4-Chloro-o-toluidine

4-Chloro-o-toluidine
Names
IUPAC name
4-Chloro-2-methylaniline
Other names
2-Amino-5-chlorotoluene; 2-Methyl-4-chloroaniline; 4-Chloro-2-toluidine; 5-Chloro-2-aminotoluene; para-Chloro-ortho-toluidine; p-Chloro-o-toluidine
Identifiers
95-69-2 YesY
Abbreviations 4-COT
ChemSpider 6981
Jmol interactive 3D Image
PubChem 7251
UNII 95NB978426 YesY
Properties
C7H8ClN
Molar mass 141.60 g·mol−1
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
Infobox references

4-Chloro-o-toluidine (4-COT, 4-chloro-2-methylaniline) is the organic compound with the formula CH3C6H3Cl(NH2). It is a colorless solid. The compound is produced as an intermediate to the pesticide chlordimeform and a precursor to some azo dyes. Production has declined after it was shown to be highly carcinogenic.

Production and use

It is produced by the chlorination reaction of N-aceyltoluidine followed by deprotection and separation from the 6-chloro isomer.[1] Production of 4-chloro-o-toluidine began in Germany in 1924. In Switzerland, 4-COT and its salts were produced between 1956 and 1976. Production and distribution ceased in 1979 in the US and in 1986 in Germany.

In nature, 4-COT is found in plants and animals as a metabolic product of chlordimeform.[2]

Experimental carcinogenicity and toxic effects in man

In chronic feeding studies (mice of both sexes), 4-COT induces hemangiosarcomas and hemangioendotheliomas.[3]

4-COT becomes covalently bound to DNA of rats and mice livers.[4]

Inhalation or skin contact with 4-COT produces acute toxic effects, initially appearing as macroscopic or microscopic haematuria. Further symptoms include dysuria, reduced bladder capacity and pain the lower abdomen. Haemorrhagic cystitis is the main symptom of acute toxicity, with methaemoglobinaemia was observed in 50% of poisoning cases.[5]

Epidemiological studies of cancer

No urinary bladder cancer was found in two of the earlier epidemiological reports of workers exposed to 4-COT in Switzerland and in the USA.[6][7]

Stasik et al. obtained similar results in their previous mortality study carried out on a cohort of 335 male employees exposed to 4-COT at plants in Frankfurt.[8]

A subcohort of 116 subjects in the 4-COT cohort, engaged in the synthesis of 4-COT at the old production plant with presumably higher level of exposure to this monocyclic arylamine, was separated from the Frankfurt cohort of 335 men, for further research.

Stasik then conducted a retrospective study of the incidence of bladder cancer among workers restricted to this subcohort. His investigation revealed eight subjects in whom bladder carcinomas were diagnosed between 1967 and 1985. Two of them had already died. The standardized incidence rate for bladder carcinomas in the 4-COT subcohort was 73 times higher than expected.

Histologically, all tumor cases were urothelial carcinomas.[9]

Evaluation of carcinogenic risk to man

The Deutsche Forschungsgemeinschaft (German Research Council) defined 4-COT as a human carcinogen (III A1). Besides Germany, 4-COT is listed as a carcinogen in Finland and Switzerland.[10]

Further in 1990 the International Agency for Research on Cancer (IARC) classified 4-COT as a probable human carcinogen (2A).

Both assessments were based on the results of the subcohort incidence study.

Further studies of cancer

Also in China an increased incidence of bladder cancer among farm workers exposed to chlordimeform has been reported in 1990.[11]

In 1992 Popp, Norpoth et al. found seven persons suffering from bladder cancer among 49 workers involved in the synthesis of chlordimeform from 4-COT in another German plant.[12]

Ten years later Stasik carried out a follow-up study of the same 4-COT subcohort studied by him previously. His re-investigations revealed a cluster of four new cases of bladder tumors in this group. So the total evidence of bladder cancer in the 4-COT subcohort increased to 12 cases, which makes 10% of all members of this particular group.[13]

References

  1. Joseph S. Bowers, "Toluidines" in Ullmann's Encyclopedia of Industrial Chemistry, Wiley-VCH, Weinheim, 2005. doi:10.1002/14356007.a27_159
  2. IARC Monograph Vol. 48, p-Chloro-o-Toluidine and its strong salts
  3. Weisburger E.K. et al., Testing of twenty-one environ. aromatic amines or derivatives for long-term toxicity or carcinogenicity, J. Environ. Pathol. Toxicol., 1987, 2, 326-356
  4. Bentley P. et al., Species differences in the toxicity of p-chloro-o-toluidine to rats and mice. Covalent binding to hepatic macromolecules and hepatic non-parenchymal cell DNA, Chem.-biol. Interact., 1986, 57, 27-40
  5. Stasik M.J., Urinary bladder cancer after 4-chloro-o-toluidine. Dtsch. med. Wschr., 1991, 116, 1444-1447 (in German)
  6. Uebelin F., Pletscher A., Aetiology and prophylaxis of industrial tumors in the dye industry, Schweiz. med. Wschr., 1954, 84, 917-928 (in German)
  7. Ott M.G., Langner R.R., A mortality survey of men engaged in the manufacture of organic dyes, J. Occupational Medicine, 1983, 225, 763-768
  8. Stasik M.J. et al., A historic cohort study of 4-chloro-2-methylaniline workers, Proceedings of the MEDICHEM Meeting, Bahia, Brazil, 1985, London, ICI plc, 2-11
  9. Stasik M.J., Carcinomas of the urinary bladder in a 4-chloro-o-toluidine cohort, Int. Arch. Occup. Environ. Health, 1988, 60, 21-24
  10. DFG Deutsche Forschungsgemeinschaft (German Research Council), Commission for the Investigation of Health Hazards of Chemical Compounds in the Work Area, 1987
  11. Xue S. et al., The risk assessment of occupational exposure to chlordimeform, 23rd Intern. Congress on Occupational Health, 1990, Montreal
  12. Popp W. et al., Incidence of bladder cancer in cohort of workers exposed to 4-chloro-o-toluidine while synthesizing chlordimeform, Br. J. Ind. Med., 1992, 49, 529-531
  13. Stasik M.J., Current studies of 4-chloro-o-toluidine and chlordimeform carcinogenicity, 26th Intern. Congress on Occupational Health, 2000, Singapore
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