The GEM-GECO Calcium Indicator Is Useable in Ogataea parapolymorpha Yeast, but Aggravates Effects of Increased Cytosolic Calcium Levels

Abstract

Ca2+ is a ubiquitous second messenger, which allows eukaryotic cells to respond to external stimuli. The use of genetically encoded Ca2+ indicators allows real-time monitoring of cytosolic Ca2+ levels to study such responses. Here we explored the possibility of using the ratiometric Ca2+ indicator GEM-GECO for monitoring cytosolic Ca2+ concentration ([Ca2+]cyt) in the yeast Ogataea parapolymorpha. High-level production of GEM-GECO led to a severe growth defect in cells lacking the vacuolar Ca2+ ATPase Pmc1, which is involved in [Ca2+]cyt control, and prompted a phenotype resembling that of Pmc1 deficiency, in a strain with wild-type PMC1. This was likely due to the presence of the calmodulin domain in GEM-GECO. In contrast to previous studies of genetically-encoded calcium indicators in neuronal cells, our results suggest that physiological effects of GEM-GECO expression in yeast cells are due not to Ca2+ depletion, but to excessive Ca2+ signaling. Despite these drawbacks, study of fluorescence in individual cells revealed switching of GEM-GECO from the Ca2+-free to Ca2+-bound state minutes after external addition of CaCl2. This was followed by gradual return of GEM-GECO to a Ca2+-free-state that was impaired in the pmc1-Δ mutant. These results demonstrate GEM-GECO usability for [Ca2+]cyt monitoring in budding yeast.