Genotoxic and mutational potential of monocyclic terpenoids (carvacrol, carvone and thymol) in Drosophila melanogaster.

Genotoxicity and mutagenicity of monoterpene carvone along with the related monoterpene alcohols - carvacrol and thymol have been studied using Drosophila melanogaster as model system. The viability, pre-imaginal stage duration, level of dominant lethal mutations, unequal crossover in the Bar mutant of D. melanogaster and the influence of monocyclic terpenoids on the multiplication of the nuclear genome in salivary gland cells were investigated. The compounds tested after oral administration (0.02% in 1,2-propylene glycol) influence the degree of chromosome polyteny in salivary gland cells of D. melanogaster larvae. Among the terpenoids examined, carvacrol exhibited the most significant impact on imago lifespan, frequency of dominant lethal mutations, unequal crossover in the Bar mutant when added to the culture medium. Oral administration of terpenoids increases the average level of chromosome polyteny with the highest value for carvacrol - 1178 C compared to control (776 C). The conceivable mechanism of action for monocyclic terpenoids associated with the impact on juvenile hormone activity is debated.

Toxic effect and genotoxicity of carvacrol ethers in Drosophila melanogaster.

The present study investigated the effect of four carvacrol ethers (propyl-, butyl, octyl- and benzyl) on the viability, level of dominant lethal mutations of Drosophila melanogaster and their influence on the multiplication of the nuclear genome in salivary gland cells. The fertility and viability of fruit flies were assessed after oral administration (0.05 % to culture medium) and inhalation exposure (5 mg per 1 cm2 of polyvinyl alcohol film) of compounds 1‒4 and initial carvacrol. The influence of terpenoid and its ethers on the degree of chromosomes polyteny in salivary gland cells of D. melanogaster larvae has been revealed. Among all tested compounds, carvacrol exhibited the most significant impact on frequency of dominant lethal mutations, fecundity and insect survival when inhaled or adding to the culture medium. Oral administration of ethers 1‒4 was found to decrease the average level of chromosome polyteny degree (366 C-500 C) while pure carvacrol adding to culture medium had the opposite effect (763 C) compared to control (695 C). The possible mechanism of action for carvacrol and its ethers is discussed.