N-acetylation of aromatic amines: implication for skin and immune cells.

Frequently, aromatic amine (AA) contact to the skin occurs via occupational or 'life style' exposure to hair dye intermediates and couplers, usually monocyclic p-phenylenediamines and meta-substituted aminophenols. The transport of AA from the outer surface to the systemic circulation predominantly follows the intracellular route. Skin tends to have relatively higher phase II compared to phase I xenobiotic metabolizing enzyme capacity, and levels are generally regarded as lower than those in liver.

Cyanamide-mediated Inhibition of N-acetyltransferase 1.

Cyanamide has been used for decades for medical intentions in the treatment of alcoholism and for agricultural purposes as a plant growth regulator and bud-breaking agent. Its therapeutic effect is mediated by reversible inhibition of aldehyde dehydrogenase and it was reported to be metabolized in vivo mainly via coenzyme A dependent N-acetylation by N-acetyltransferases. Although described to be a substrate for N-acetyltransferases (NATs), cyanamide has a different molecular structure to arylamines and hydrazines, the preferred substrates for N-acetyltransferases.

Variable NAT1 enzyme activity in long-term cultured human HaCaT keratinocytes.

Since animal testing should be avoided whenever possible, the development of in vitro tests for predicting the effect of chemicals becomes a major field. This rise of in vitro test systems led to an increased requirement for well-characterized continuously growing cell lines. Monitoring of the cells during test and routine culture is necessary to gain relevant and reproducible results.

Characterization of N-acetyltransferase 1 activity in human keratinocytes and modulation by para-phenylenediamine.

N-acetyltransferase 1 (NAT1)-mediated N-acetylation in keratinocytes is an important detoxification pathway for the hair dye ingredient para-phenylenediamine (PPD). Because NAT1 can be regulated by various exogenous compounds, including some NAT1 substrates themselves, we investigated NAT1 expression in keratinocytes and the interactions between PPD and NAT1. NAT1 activity was found to be cell-cycle phase-dependent.

Evaluation of cytochrome P450 1 (CYP1) and N-acetyltransferase 1 (NAT1) activities in HaCaT cells: implications for the development of in vitro techniques for predictive testing of contact sensitizers.

Xenobiotic metabolizing enzymes like cytochrome P450s and N-acetyltransferase are expressed in keratinocytes and professional antigen-presenting cells. Thus, biotransformation of chemicals applied to the skin can be relevant for their potential to cause skin toxicity and immune responses like allergic contact dermatitis. Considering the keratinocyte cell line HaCaT as a relevant in vitro tool for epidermal biotransformation, we specifically investigated CYP1 (EROD) and N-acetyltransferase 1 (NAT1) activities of three different HaCaT shipments and human primary keratinocytes (NHEK).