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Singlet oxygen (1O2) is a by‐product of photosynthesis that triggers a signalling pathway leading to stress acclimation or to cell death. By analyzing gene expressions in a 1O2‐overproducing Arabidopsis mutant (ch1) under different light regimes, we show here that the 1O2 signalling pathway involves the endoplasmic reticulum (ER)‐mediated unfolded protein response (UPR). ch1 plants in low light exhibited a moderate activation of UPR genes, in particular bZIP60, and low concentrations of the UPR‐inducer tunicamycin enhanced tolerance to photooxidative stress, together suggesting a role for UPR in plant acclimation to low 1O2 levels. Exposure of ch1 to high light stress ultimately leading to cell death resulted in a marked upregulation of the two UPR branches (bZIP60/IRE1 and bZIP28/bZIP17). Accordingly, mutational suppression of bZIP60 and bZIP28 increased plant phototolerance, and a strong UPR activation by high tunicamycin concentrations promoted high light‐induced cell death. Conversely, light acclimation of ch1 to 1O2 stress put a limitation in the high light‐induced expression of UPR genes, except for the gene encoding the BIP3 chaperone, which was selectively upregulated. BIP3 deletion enhanced Arabidopsis photosensitivity while plants treated with a chemical chaperone exhibited enhanced phototolerance. In conclusion, 1O2 induces the ER‐mediated UPR response that fulfils a dual role in high light stress: a moderate UPR, with selective induction of BIP3, is part of the acclimatory response to 1O2, and a strong activation of the whole UPR is associated with cell death.  相似文献   

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Salt stress leads to a stress response, called the unfolded protein response (UPR), in the endoplasmic reticulum (ER). UPR is also induced in a wide range of organisms by zinc deficiency. However, it is not clear whether regulation of zinc levels is involved in the initiation of the UPR in plant response to salt stress. In this study, a putative zinc transporter, ZTP29, was identified in Arabidopsis thaliana. ZTP29 localizes to the ER membrane and is expressed primarily in hypocotyl and cotyledon tissues, but its expression can be induced in root tissue by salt stress. T-DNA insertion into the ZTP29 gene led to NaCl hypersensitivity in seed germination and seedling growth, leaf etiolation, and widening of cells in the root elongation zone. In addition, in ztp29 mutant plants, salt stress-induced upregulation of the UPR pathway genes BiP2 and bZIP60 was inhibited. Furthermore, under conditions of salt stress, upregulation of BiP2 and bZIP60 was inhibited by treatment with high concentrations of zinc in both control and ztp29 plants. However, zinc chelation restored salt stress-induced BiP2 and bZIP60 upregulation in ztp29 mutant plants. These experimental results suggest that ZTP29 is involved in the response to salt stress, perhaps through regulation of zinc levels required to induce the UPR pathway.  相似文献   

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Activation of the unfolded protein response (UPR) in mammalian cells leads to cell cycle arrest at the G1 phase (Thomas et al., J Biol Chem 288:7606–7617, 2013). However, how UPR signaling affects cell cycle arrest remains largely unknown in plants. Here, we examined UPR and endoreduplication in Col-0, wee1, and ER stress sensing-deficient ire1a&b plants during DNA replication and ER stress conditions. We found that WEE1, an essential negative regulator of the cell cycle, is involved in the maintenance of ER homeostasis during genotoxic stress and the ER stress hypersensitivity of ire1a&b is alleviated by loss-of-function mutation in WEE1. WEE1-mediated cell cycle arrest was required for IRE1–bZIP60 pathway activation during ER stress. In contrast, loss-of-function mutation in WEE1 caused increased expression of UPR-related genes during DNA replication stress. WEE1 and IRE1 were required for endoreduplication during DNA replication stress and ER stress, respectively. Taken together, these findings suggest that cell cycle regulation is associated with UPR activation in different manners during ER stress and DNA replication stress in Arabidopsis.  相似文献   

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In Arabidopsis thaliana roots, the mutualistic fungus Piriformospora indica initially colonizes living cells, which die as the colonization proceeds. We aimed to clarify the molecular basis of this colonization-associated cell death. Our cytological analyses revealed endoplasmic reticulum (ER) swelling and vacuolar collapse in invaded cells, indicative of ER stress and cell death during root colonization. Consistent with this, P. indica-colonized plants were hypersensitive to the ER stress inducer tunicamycin. By clear contrast, ER stress sensors bZIP60 and bZIP28 as well as canonical markers for the ER stress response pathway, termed the unfolded protein response (UPR), were suppressed at the same time. Arabidopsis mutants compromised in caspase 1-like activity, mediated by cell death-regulating vacuolar processing enzymes (VPEs), showed reduced colonization and decreased cell death incidence. We propose a previously unreported microbial invasion strategy during which P. indica induces ER stress but inhibits the adaptive UPR. This disturbance results in a VPE/caspase 1-like-mediated cell death, which is required for the establishment of the symbiosis. Our results suggest the presence of an at least partially conserved ER stress-induced caspase-dependent cell death pathway in plants as has been reported for metazoans.  相似文献   

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When the load of secretory pathway is increased or folding capacity in the endoplasmic reticulum (ER) is insufficient, unfolded proteins might accumulate in ER lumen causing a phenomenon called ER stress. During ER stress, normal cell functions are suppressed and unfolded protein response (UPR) is induced. Studies in animal systems suggest that melatonin alleviates the detrimental effects of ER stress; however, there is no study in plants in this respect. Hence, in this study, we investigated the possible role of melatonin on alleviation of ER stress in model plant Arabidopsis thaliana. Tunicamycin (Tm) was used to specifically induce ER stress. Melatonin treatment (10 and 25 μM but not 1 μM) increased root growth under Tm treatment, but it did not reach control levels. ER stress induced the expressions of ER stress sensor/transducer genes, ER chaperones and folding helper genes, ER-associated degradation (ERAD) genes, and ER stress-associated apoptosis genes in roots and shoots (a total of 16 genes). Among them, the expressions of ER stress sensor/transducer bZIP17, bZIP28, IRE1A, IRE1B, ERAD-related SEL1, and apoptosis genes AGB1 were decreased back to control levels with 25 μM melatonin under ER stress in roots. Moreover, Tm?+?melatonin treatments decreased the expressions of these genes when compared to only Tm-treated plants. Downregulation of UPR components with increased concentrations of melatonin under Tm treatment demonstrated that melatonin alleviated the detrimental effects of ER stress.  相似文献   

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