Abstract
Store-operated Ca(2+) entry is important for cell migration. This study presents characterization of localization and roles of Orai1, STIM1, and PLA2g6 in adhesion dynamics during cell migration. Orai1 and PLA2g6 are involved in adhesion formation at the front, whereas STIM1 participates in both adhesion formation and disassembly. Results uncovered new parameters of Orai1, STIM1, and PLA2g6 involvement in cell migration. Store-operated Ca(2+) entry and its major determinants are known to be important for cell migration, but the mechanism of their involvement in this complex process is unknown. This study presents a detailed characterization of distinct roles of Orai1, STIM1, and PLA2g6 in focal adhesion (FA) formation and migration. Using HEK293 cells, we discovered that although molecular knockdown of Orai1, STIM1, or PLA2g6 resulted in a similar reduction in migration velocity, there were profound differences in their effects on number, localization, and lifetime of FAs. Knockdown of STIM1 caused an increase in lifetime and number of FAs, their redistribution toward lamellae region, and an increase in cell tail length. In contrast, the number of FAs in Orai1- or PLA2g6-deficient cells was significantly reduced, and FAs accumulated closer to the leading edge. Assembly rate and Vinculin phosphorylation of FAs was similarly reduced in Orai1, PLA2g6, or STIM1-deficient cells. Although Orai1 and PLA2g6 accumulated and co-localized at the leading edge, STIM1 distribution was more complex. We found STIM1 protrusions in lamellipodia, which co-localized with FAs, whereas major accumulation could be seen in central and retracting parts of the cell. Interestingly, knockdown of Orai1 and PLA2g6 produced similar and non-additive effect on migration, whereas knockdown of STIM1 simultaneously with either Orai1 or PLA2g6 produced additional inhibition. Together these data suggest that although Orai1, PLA2g6, and STIM1 play major roles in formation of new FAs at the leading edge, STIM1 may also be involved in Orai1- and PLA2g6-independent disassembly of FAs in the back of cells.
Highlights
Store-operated Ca2ϩ entry is important for cell migration
To determine individual roles of Orai1, STIM1, and PLA2g6 in the migration process, HEK293 cells were transfected with specific siRNA targeting each of these genes
Quantitative real-time PCR analysis showed that 48 h after transfection, mRNA for Orai1 and STIM1 was reduced by 80 Ϯ 1% and 66 Ϯ 7%, respectively (Fig. 1B)
Summary
Store-operated Ca2ϩ entry is important for cell migration. Results: This study presents characterization of localization and roles of Orai, STIM1, and PLA2g6 in adhesion dynamics during cell migration. Knockdown of Orai and PLA2g6 produced similar and non-additive effect on migration, whereas knockdown of STIM1 simultaneously with either Orai or PLA2g6 produced additional inhibition Together these data suggest that Orai, PLA2g6, and STIM1 play major roles in formation of new FAs at the leading edge, STIM1 may be involved in Orai1- and PLA2g6-independent disassembly of FAs in the back of cells. Several recent studies showed the importance of endogenous SOCE and its major determinants (Orai, STIM1, or PLA2g6) in overall cell migration, but their roles in specific adhesion events in different parts of the cell are yet to be determined. In this study we analyzed individual roles of endogenous Orai, STIM1, and PLA2g6 in the dynamics of FAs that drives different steps of cell migration and discovered intriguing differences in their involvement
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
