Daniel Prins scite author profile

ERp57 is an endoplasmic reticulum (ER) resident thiol disulfide oxidoreductase. Using the gene trap technique, we created a ERp57-deficient mouse model. Targeted deletion of the Pdia3 gene, which encodes ERp57, in mice is embryonic lethal at embryonic day (E) 13.5. ␤-Galactosidase reporter gene analysis revealed that ERp57 is expressed early on during blastocyst formation with the highest expression in the inner cell mass. In early stages of mouse embryonic development (E11.5) there is a relatively low level of expression of ERp57. As the embryos developed, ERp57 became highly expressed in both the brain and the lungs (E15.5 and E18.5). The absence of ERp57 has no impact on ER morphology; expression of ER-associated chaperones and folding enzymes, ER stress, or apoptosis. ERp57 has been reported to interact with STAT3 (signal transducer and activatoroftranscription)-DNAcomplexes.WeshowherethatSTAT3-dependent signaling is increased in the absence of ERp57 and this can be rescued by expression of ER-targeted ERp57 but not by cytoplasmic-targeted protein, indicating that ERp57 affects STAT3 signaling from the lumen of the ER. ERp57 effects on STAT3 signaling are enhanced by ER luminal complex formation between ERp57 and calreticulin. In conclusion, we show that ERp57 deficiency in mouse is embryonic lethal at E13.5 and ERp57-dependent modulation of STAT3 signaling may contribute to this phenotype.

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Modulation of STIM1 and capacitative Ca²⁺ entry by the endoplasmic reticulum luminal oxidoreductase ERp57

Prins

et al. 2011

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STIM1 is an endoplasmic reticulum (ER) membrane Ca 2þ sensor responsible for activation of store-operated Ca 2þ influx. We discovered that STIM1 oligomerization and store-operated Ca 2þ entry (SOC) are modulated by the ER oxidoreductase ERp57. ERp57 interacts with the ER luminal domain of STIM1, with this interaction involving two conserved cysteine residues, C 49 and C 56 . SOC is accelerated in the absence of ERp57 and inhibited in C 49 and C 56 mutants of STIM1. We show that ERp57, by ER luminal interaction with STIM1, has a modulatory role in capacitative Ca 2þ entry. This is the first demonstration of a protein involved in ER intraluminal regulation of STIM1.

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Organellar Calcium Buffers

Prins¹,

Michalak²

2011

Cold Spring Harbor Perspectives in Biology

128

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Higher Plant Calreticulins Have Acquired Specialized Functions in Arabidopsis

et al. 2010

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BackgroundCalreticulin (CRT) is a ubiquitous ER protein involved in multiple cellular processes in animals, such as protein folding and calcium homeostasis. Like in animals, plants have evolved divergent CRTs, but their physiological functions are less understood. Arabidopsis contains three CRT proteins, where the two CRTs AtCRT1a and CRT1b represent one subgroup, and AtCRT3 a divergent member.Methodology/Principal FindingsThrough expression of single Arabidopsis family members in CRT-deficient mouse fibroblasts we show that both subgroups have retained basic CRT functions, including ER Ca2+-holding potential and putative chaperone capabilities. However, other more general cellular defects due to the absence of CRT in the fibroblasts, such as cell adhesion deficiencies, were not fully restored. Furthermore, in planta expression, protein localization and mutant analyses revealed that the three Arabidopsis CRTs have acquired specialized functions. The AtCRT1a and CRT1b family members appear to be components of a general ER chaperone network. In contrast, and as recently shown, AtCRT3 is associated with immune responses, and is essential for responsiveness to the bacterial Pathogen-Associated Molecular Pattern (PAMP) elf18, derived from elongation factor (EF)-Tu. Whereas constitutively expressed AtCRT1a fully complemented Atcrt1b mutants, AtCRT3 did not.Conclusions/SignificanceWe conclude that the physiological functions of the two CRT subgroups in Arabidopsis have diverged, resulting in a role for AtCRT3 in PAMP associated responses, and possibly more general chaperone functions for AtCRT1a and CRT1b.

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Calmodulin-dependent binding to the NHE1 cytosolic tail mediates activation of the Na⁺/H⁺ exchanger by Ca²⁺ and endothelin

Prins

Michalak

et al. 2013

American Journal of Physiology-Cell Physiology

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The mammalian Na(+)/H(+) exchanger isoform 1 (NHE1) is a ubiquitous plasma membrane protein that regulates intracellular pH by removing a single proton (H(+)) in exchange for one extracellular Na(+). The human protein contains a ∼500-amino acid membrane domain and a regulatory, ∼315-amino acid cytosolic domain. NHE1 is activated by a number of hormones including endothelin (ET) and by Ca(2+). The regulatory tail possesses an inhibitory calmodulin (CaM)-binding domain, and inhibition of NHE1 is relieved by binding of a Ca(2+)-CaM complex. We examined the dynamics of ET-1 and Ca(2+) regulation of binding to NHE1 in vivo. CFP was linked to the NHE1 protein cytoplasmic COOH terminus. This was stably transfected into AP-1 cells that are devoid of their own NHE1 protein. The protein was expressed and targeted properly and retained NHE1 activity comparable to the wild-type protein. We examined the in vivo coupling of NHE1 to CaM by Förster resonance energy transfer using CaM linked to the fluorescent protein Venus. CaM interaction with NHE1 was dynamic. Removal of serum reduced CaM interaction with NHE1. Addition of the Ca(2+) ionophore ionomycin increased the interaction between CaM and NHE1. We expressed an ET receptor in AP-1 cells and also found a time-dependent association of NHE1 with CaM in vivo that was dependent on ET treatment. The results are the first demonstration of the in vivo association of NHE1 and CaM through ET-dependent signaling pathways.

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Daniel Prins

ERp57 Modulates STAT3 Signaling from the Lumen of the Endoplasmic Reticulum

Modulation of STIM1 and capacitative Ca²⁺ entry by the endoplasmic reticulum luminal oxidoreductase ERp57

Organellar Calcium Buffers

Higher Plant Calreticulins Have Acquired Specialized Functions in Arabidopsis

Calmodulin-dependent binding to the NHE1 cytosolic tail mediates activation of the Na⁺/H⁺ exchanger by Ca²⁺ and endothelin

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Daniel Prins

ERp57 Modulates STAT3 Signaling from the Lumen of the Endoplasmic Reticulum

Modulation of STIM1 and capacitative Ca2+ entry by the endoplasmic reticulum luminal oxidoreductase ERp57

Organellar Calcium Buffers

Higher Plant Calreticulins Have Acquired Specialized Functions in Arabidopsis

Calmodulin-dependent binding to the NHE1 cytosolic tail mediates activation of the Na+/H+ exchanger by Ca2+ and endothelin

Contact Info

Product

Resources

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Modulation of STIM1 and capacitative Ca²⁺ entry by the endoplasmic reticulum luminal oxidoreductase ERp57

Calmodulin-dependent binding to the NHE1 cytosolic tail mediates activation of the Na⁺/H⁺ exchanger by Ca²⁺ and endothelin