Light-stimulated dephosphorylation of the BiP-like protein, SmicHSP75 (SBiP1) from Symbiodinium microadriaticum is inhibited by elevated but not low temperature and suggests regulation of the chaperone function.

Specific phosphorylation/dephosphorylation processes are fundamental for the transduction of external stimuli into physiological responses. A few of these processes appear to be modulated by light in cultured Symbiodinium microadriaticum since the BiP-like protein SmicHSP75 undergoes threonine dephosphorylation upon light stimuli. Several isoforms of the protein are encoded in the S. microadriaticum genome and thus, we identified and heterologously expressed a specific sequence corresponding to the previously identified SmicHSP75 isoform to obtain a highly specific antibody. We then determined by western blot analysis, that the detected light-stimulated changes in SmicHSP75 threonine phosphorylation were not due to changes in the protein expression and explored further the effect of lower than normal and higher stressful temperature, on the phosphorylation levels of the protein. Upon long-term (12 h) exposure of the cells to the low temperature of 21ºC under darkness, the protein was found significantly phosphorylated; however, light exposure for 30 min caused a dephosphorylation effect like the 26ºC control treatment. On the other hand, in cells exposed to 32ºC for 12 h under darkness, the highly Thr-phosphorylated SmicHSP75 was converted to a low-level phosphorylated protein. Likewise, short term (30 min) exposure to 32ºC under dark conditions caused dephosphorylation of the protein, similar to what was observed upon long-term exposure to 32ºC and upon light stimulation of cells under the normal temperature of 26ºC. These data suggested activation/inactivation of the chaperone function of SmicHSP75 by regulation of its Thr phosphorylation levels under heat stress conditions in Symbiodinium microadriaticum, independent of changes in protein expression.