Tudy relating to plant EHD2 also demonstrated that the EH domain

August 18, 2017

Tudy relating to plant EHD2 also demonstrated that the EH domain is not crucial in its examined endocytic function [53]. We show here that EHD1 is involved in recycling, as was reported in C. elegans and mammalians [30,50,51,54] and reducing its expression causes a delay in recycling. Interestingly, plants overexpressing EHD1 exhibited apparently accelerated recycling. Once again, overexpression of a deletion in the coiledcoil domain behaves similarly to 18325633 overexpression of the MedChemExpress HDAC-IN-3 wild-type protein, while a deletion in the EH domain behaves like a knockdown mutant and possesses delayed Fm-4-64 internalization and delayed recycling, similar to EHD1 knock-out mice [29]. Attempting to elucidate the function of EHD1 in plants, we demonstrated that overexpression of EHD1 confers salt tolerance, while seedlings knocked-down in EHD1 have increased NaCl sensitivity as compared with wild-type seedlings. Once again, the deletion in the EH domain behaves like an EHD1 knock down.EHD1 Function AnalysisFigure 3. Effect of BFA treatment on Arabidopsis seedling roots. 7?0 day old transgenic seedlings were floated on a 50 mM BFA solution supplemented with 5 mM Fm-4-64 for different time points (as indicated) and then washed. Root sections were visualized under a laser-scanning confocal microscope. (A ) wild type; (D ) EHD1 overexpressing; (G ) EHD1 knock-down; (J ) EHD1-DEH overexpressing; (M ) EHD1-DCC overexpressing. Scale bar = 10 mm. doi:10.1371/hPTH (1-34) chemical information journal.pone.0054533.gThe deletion in the coiled-coil domain conferred increased viability and decreased ROS production in response to salt stress as compared with wild-type seedlings (as detailed below), similarly to EHD1 overexpression, but did not confer increased germination on salt containing media, behaving instead like the wild type seeds in this instance. We also examined the production of ROS as a stress indicator in response to NaCl treatment [48], and found that decreasedsensitivity to NaCl in the EHD1 overexpressing seedlings correlates with a decrease in ROS production in response to the exposure to NaCl, while an increase in NaCl sensitivity in the knock-down seedlings correlated with an increase in ROS production in response to NaCl treatment. ROS production is a ubiquitous mechanism at play upon induction of cell damage; it seems that NaCl induced damage operates at least in part through induction of ROS. Possibly, enhancing salt tolerance causes aEHD1 Function AnalysisFigure 4. Relative expression of endogenous EHD1 in response to salt treatment. Arabidopsis seedlings were treated with 200 mM Nacl at time points as indicated. cDNA was prepared followed by semi quantitative RT-PCR reactions using specific primers to EHD1. RT-PCR products were separated on an agarose gel, stained with ethidium bromide and quantified using ImageJ software. Relative expression of EHD1 compared to untreated cells at 15755315 time sero is presented. Each point represents the average 6 SE of 3 different experiments. doi:10.1371/journal.pone.0054533.gFigure 6. ROS production in Arabidopsis seedlings. 7?0 day old transgenic seedlings (as indicated) were floated on a 200 mM NaCl solution. ROS were quantified after 2 hours of treatment. Values are normalized against ROS production in wild type seedlings. Values represent mean 6 SE of 3 experiments. doi:10.1371/journal.pone.0054533.gdecrease in the induction of ROS and thus reduces the cellular damage caused by NaCl. Interestingly, the sensitivity to salt damage correlates with the e.Tudy relating to plant EHD2 also demonstrated that the EH domain is not crucial in its examined endocytic function [53]. We show here that EHD1 is involved in recycling, as was reported in C. elegans and mammalians [30,50,51,54] and reducing its expression causes a delay in recycling. Interestingly, plants overexpressing EHD1 exhibited apparently accelerated recycling. Once again, overexpression of a deletion in the coiledcoil domain behaves similarly to 18325633 overexpression of the wild-type protein, while a deletion in the EH domain behaves like a knockdown mutant and possesses delayed Fm-4-64 internalization and delayed recycling, similar to EHD1 knock-out mice [29]. Attempting to elucidate the function of EHD1 in plants, we demonstrated that overexpression of EHD1 confers salt tolerance, while seedlings knocked-down in EHD1 have increased NaCl sensitivity as compared with wild-type seedlings. Once again, the deletion in the EH domain behaves like an EHD1 knock down.EHD1 Function AnalysisFigure 3. Effect of BFA treatment on Arabidopsis seedling roots. 7?0 day old transgenic seedlings were floated on a 50 mM BFA solution supplemented with 5 mM Fm-4-64 for different time points (as indicated) and then washed. Root sections were visualized under a laser-scanning confocal microscope. (A ) wild type; (D ) EHD1 overexpressing; (G ) EHD1 knock-down; (J ) EHD1-DEH overexpressing; (M ) EHD1-DCC overexpressing. Scale bar = 10 mm. doi:10.1371/journal.pone.0054533.gThe deletion in the coiled-coil domain conferred increased viability and decreased ROS production in response to salt stress as compared with wild-type seedlings (as detailed below), similarly to EHD1 overexpression, but did not confer increased germination on salt containing media, behaving instead like the wild type seeds in this instance. We also examined the production of ROS as a stress indicator in response to NaCl treatment [48], and found that decreasedsensitivity to NaCl in the EHD1 overexpressing seedlings correlates with a decrease in ROS production in response to the exposure to NaCl, while an increase in NaCl sensitivity in the knock-down seedlings correlated with an increase in ROS production in response to NaCl treatment. ROS production is a ubiquitous mechanism at play upon induction of cell damage; it seems that NaCl induced damage operates at least in part through induction of ROS. Possibly, enhancing salt tolerance causes aEHD1 Function AnalysisFigure 4. Relative expression of endogenous EHD1 in response to salt treatment. Arabidopsis seedlings were treated with 200 mM Nacl at time points as indicated. cDNA was prepared followed by semi quantitative RT-PCR reactions using specific primers to EHD1. RT-PCR products were separated on an agarose gel, stained with ethidium bromide and quantified using ImageJ software. Relative expression of EHD1 compared to untreated cells at 15755315 time sero is presented. Each point represents the average 6 SE of 3 different experiments. doi:10.1371/journal.pone.0054533.gFigure 6. ROS production in Arabidopsis seedlings. 7?0 day old transgenic seedlings (as indicated) were floated on a 200 mM NaCl solution. ROS were quantified after 2 hours of treatment. Values are normalized against ROS production in wild type seedlings. Values represent mean 6 SE of 3 experiments. doi:10.1371/journal.pone.0054533.gdecrease in the induction of ROS and thus reduces the cellular damage caused by NaCl. Interestingly, the sensitivity to salt damage correlates with the e.