Signaling in temperature-induced resting cyst formation in the ciliated protozoan Colpoda cucullus

The terrestrial ciliated protozoan Colpoda cucullus inhabits soil. When the habitat conditions become unfavorable, the vegetative cells of C. cucullus quickly transform into resting cysts. C. cucullus culture is established in our laboratory, and encystment is routinely induced by the addition of Ca2+ to overpopulated vegetative cells. However, an increase in Ca2+ concentration and overpopulation of vegetative cells do not always occur in natural. We investigated the effect of temperature and found that cyst formation was induced by a rapid increase of 5 degrees C within 2 min but not by a decrease. Moreover, an increase in intracellular Ca2+ concentrations is essential, but Ca2+ inflow does not necessarily occur during encystment. Ca2+ image analysis showed that Ca2+ is stored in vesicular structures and released into the cytoplasm within 60 s after temperature stimulation. Multiple signaling pathways are activated after the release of Ca2+ from vesicles, and cAMP is a candidate second messenger with a crucial role in the process of temperature-induced encystment. Further studies are needed to clarify the mechanism underlying the sensing of temperature and release of Ca2+ from vesicles. (C) 2021 Elsevier GmbH. All rights reserved.

Automated summary

The terrestrial ciliated protozoan Colpoda cucullus can transform into resting cysts in response to unfavorable habitat conditions. The induction of cyst formation is triggered by a rapid increase in temperature, rather than a decrease, and requires an increase in intracellular Ca2+ concentrations. The release of Ca2+ from vesicles activates multiple signaling pathways, with cAMP potentially serving as a crucial second messenger in the process of temperature-induced encystment.