@article{745852394d554868aef5f57e21f0701a,
title = "IRE1 couples endoplasmic reticulum load to secretory capacity by processing the XBP-1 mRNA",
abstract = "The unfolded protein response (UPR), caused by stress, matches the folding capacity of endoplasmic reticulum (ER) to the load of client proteins in the organelle. In yeast, processing of HAC1 mRNA by activated Ire1 leads to synthesis of the transcription factor Hac1 and activation of the UPR. The responses to activated IRE1 in metazoans are less well understood. Here we demonstrate that mutations in either ire-1 or the transcription-factor-encoding xbp-1 gene abolished the UPR in Caenorhabditis elegans. Mammalian XBP-1 is essential for immunoglobulin secretion and development of plasma cells, and high levels of XBP-1 messenger RNA are found in specialized secretory cells. Activation of the UPR causes IRE1-dependent splicing of a small intron from the XBP-1 mRNA both in C. elegans and mice. The protein encoded by the processed murine XBP-1 mRNA accumulated during the UPR, whereas the protein encoded by unprocessed mRNA did not. Purified mouse IRE1 accurately cleaved XBP-1 mRNA in vitro, indicating that XBP-1 mRNA is a direct target of IRE1 endonucleolytic activity. Our findings suggest that physiological ER load regulates a developmental decision in higher eukaryotes.",
author = "Marcella Calfon and Huiqing Zeng and Fumihiko Urano and Till, {Jeffery H.} and Hubbard, {Stevan R.} and Harding, {Heather P.} and Clark, {Scott G.} and David Ron",
note = "Funding Information: Acknowledgements We thank B. Joshua, S. Beyit and B. Giloh for their help in developing the injection technology, and O. Meyuhas, M. Brandeis, E. Bachrach and D. Yaffe for providing vectors used in this study. This research was supported by grants from the N.I.H., the Israel Academy of Sciences and the Israel Cancer Research Foundation. Funding Information: Vif monoclonal antibody (TG001; Transgene) and Nef monoclonal antibody (EH1; gift of J. Hoxie) were provided by the AIDS Research and Reference Reagent Program, Division of AIDS, NIAID, National Institutes of Health. We thank J. Kucinski and F. Calayag for technical assistance; M. Hayden, T. Liegler, R. Grant and the Gladstone Institute, San Francisco, for assistance with HIV-infected cells; V. Kewalramani, D. Littman, M. Goldsmith and W. Hansen for advice or, reagents; L. Caldwell and the Electron Microscopy Laboratory at the Fred Hutchinson Cancer Research Center in Seattle; and V. Lingappa, J. Lingappa, J. Dooher, J. Overbaugh, J. M. McCune, M. Linial and R. Hegde for discussions. This work was supported by grants to J.R.L. from the National Institutes of Health AIDS Division, Pediatric AIDS Foundation, and the University of California Universitywide AIDS Research Program. Funding Information: We thank C. Chiu for help in initiating the nematode work; A. Bertolotti, D. Levy and E. Y. Skolnik for useful discussions; Y. Kohara for C. elegans EST clones; and A. Ron and R. Onn for calculating the synthesis rate of XBP1 proteins. This work was supported by grants from the National Institutes of Health. D.R. is a Scholar of the Ellison Medical Foundation.",
year = "2002",
month = jan,
day = "3",
doi = "10.1038/415092a",
language = "English",
volume = "415",
pages = "92--96",
journal = "Nature",
issn = "0028-0836",
number = "6867",
}