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  • Title: BIG3 and BIG5 Redundantly Mediate Vesicle Trafficking in Arabidopsis.
    Author: Suo Y, Hu F, Zhu H, Li D, Qi R, Huang J, Wu W.
    Journal: Biomolecules; 2021 May 14; 11(5):. PubMed ID: 34069034.
    Abstract:
    Vesicle trafficking plays an important role in delivering a diverse range of cargoes between different membranous systems in eukaryotes. It is well documented that the brefeldin A (BFA)-inhibited guanine nucleotide exchange factor (GEF), named BIG, regulates vesicle budding at the trans-Golgi network (TGN) and recycling endosomes through activating the ADP-ribosylation factor (ARFs). Among the five BIGs in Arabidopsis, BIG5 is characterized to mediate ARF-dependent trafficking at the plasma membrane or endosomes while the members from BIG1 to BIG4 (BIG1-BIG4) at the TGN in the secretory pathway. However, evidence is increasing to suggest that BIG5 can function redundantly with BIG1-BIG4 to regulate vesicular trafficking in response to various intra- and extra-cellular stimuli. In this study, our genetic analysis showed that BIG5 played an overlapping role at least with BIG3 in cell proliferation. To elucidate molecular mechanisms underlying the BIG5- and BIG3-regulated biological processes, we examined the effect of BIGs on expression patterns of the two transmembrane proteins, PINFORMED 2 (PIN2) epically localized in root epidermal cells and the regulator of G protein signaling 1 (RGS1) localized in the plasma membrane. Our data showed that the PIN2 polar distribution was slightly reduced in big3 big5 in the absence of BFA, and it was significantly reduced by the treatment of 0.1 µM BFA in big3 big5. Further analysis revealed that BFA bodies derived from the plasma membrane were only observed in wild type (WT), big3 and big5 cells, but not in the big3 big5 cells. These results indicate that BIG5 and BIG3 are functionally redundant in the endosome recycling pathway from the plasma membrane to TGN. On the other hand, the single BIG3 or BIG5 mutation had no effect on the plasma membrane expression of RGS1, whereas the double mutations in BIG3 and BIG5 led to a significant amount of RGS1 retained in the vesicle, indicating that BIG3 and BIG5 act redundantly in mediating protein trafficking. Furthermore, transmission electron microscopy assays showed that Golgi ultrastructure in big3 big5 cells was abnormal and similar to that in BFA-treated WT cells. Taken together, our data provide several new lines of evidence supporting that BIGs play a redundant role in vesicular trafficking and probably also in maintaining the Golgi structural integrity in Arabidopsis.
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