AI Article Synopsis
- Progesterone at low levels can temporarily slow down the growth of the yeast Hortaea werneckii.
- The study looks into the yeast's mechanisms that help it overcome this growth inhibition, including the detoxification of progesterone and increased resistance to it.
- It was found that early in growth, the yeast efficiently detoxifies progesterone, while during later growth phases, it relies more on its inherent enzymes, and also shows changes in cell wall structure that enhance its resistance against cell breakdown.
Article Abstract
Progesterone in sublethal concentrations temporarily inhibits growth of Hortaea werneckii. This study investigates some of the compensatory mechanisms which are activated in the presence of progesterone and are most probably contributing to escape from growth inhibition. These mechanisms lead on the one hand to progesterone biotransformation/detoxification but, on the other, are suggested to increase the resistance of H. werneckii to the steroid. Biotransformation can detoxify progesterone efficiently in the early logarithmic phase, with mostly inducible steroid transforming enzymes, while progesterone biotransformation/detoxification in the late logarithmic and stationary phases of growth is not very efficient. The relative contribution of constitutive steroid transforming enzymes to progesterone biotransformation is increased in these latter phases of growth. In the presence of progesterone, activation of the cell wall integrity pathway is suggested by the overexpression of Pck2 which was detected in the stationary as well as the logarithmic phase of growth of the yeast. Progesterone treated H. werneckii cells were found to be more resistant to cell lysis than mock treated cells, indicating for the first time changes in the yeast cell wall as a result of treatment with progesterone.
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| http://dx.doi.org/10.1016/j.steroids.2008.08.004 | DOI Listing |
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