11β-Hydroxysteroid dehydrogenase type 1 (11β-HSD 1) physiologically catalyzes the interconversion of receptor-active 11-hydroxy glucocorticoids (cortisol) to their receptor-inactive 11-oxo metabolites (cortisone), thereby acting as important pre-receptor control device in regulating access of glucocorticoid hormones to the glucocorticoid receptor. Evidence is emerging that 11β-HSD 1 fulfills an additional role in the detoxification of non-steroidal carbonyl compounds, by catalyzing their reduction to the corresponding hydroxy derivatives that are easier to conjugate and eliminate. Whereas a number of methods were ineffective in purifying 11β-HSD 1 from human liver, this membrane-bound enzyme was successfully obtained in an active state by a purification procedure that took advantage of a gentle solubilization method as well as providing a favourable detergent surrounding during the various chromatographic steps. We could demonstrate that 11β-HSD 1 is active as a dimeric enzyme which exhibits cooperativity with cortisone and dehydrocorticosterone (11-oxoreducing activity) as substrates. Accordingly, this enzyme dynamically adapts to low (nanomolar) as well as to high (micromolar) substrate concentrations, thereby providing the fine tuning required as a consequence of great variations in circadian plasma glucocorticoid levels. Due to this kinetic peculiarity, 11β-HSD 1 is also able to even metabolize nanomolar concentrations of the tobacco-specific nitrosamine 4-methylnitrosamino-1-(3-pyridyl)-1-butanone (NNK), a fact which is important in view of the relatively low levels of this carcinogen observed in smokers. Finally, 11β-HSD 1 is potently (in nM concentrations) inhibited by glycyrrhetinic acid, the main constituent of licorice. Licorice, however, in addition to being a confectionary, serves as a major cigarette additive, which is used in cigarette manufacturing as a taste and flavour intensifier. Hence, licorice exposure may affect NNK detoxification by inhibition of 11β-HSD 1, a condition which may advance lung cancer incidence, especially in smokers expressing low levels of this enzyme. Collectively, our data expand insights into the multifunctional nature of hydroxysteroid dehydrogenases/carbonyl reductases and emphasize the importance of 11β-HSD 1 in the detoxification of a tobacco-derived carcinogen, in addition to its endocrinological functions.