6533b7d7fe1ef96bd1267c6b

RESEARCH PRODUCT

High levels of the molecular chaperone Mdg1/ERdj4 reflect the activation state of endothelial cells

Tina S MüllerBodo ChristMatthias KirschIvo R BuschmannBernhard J. BergerFelicitas PrölsKirsten Peters

subject

EndotheliumCell SurvivalCellular differentiationApoptosisCell CommunicationEndoplasmic ReticulumNitric OxideMiceStress PhysiologicalmedicineAnimalsHumansRNA MessengerHeat shockEndoplasmic Reticulum Chaperone BiPbiologyMacrophagesEndoplasmic reticulumMembrane ProteinsProteinsCell BiologyHSP40 Heat-Shock ProteinsCoculture TechniquesUp-RegulationHsp70Cell biologyProtein Transportmedicine.anatomical_structureApoptosisChaperone (protein)biology.proteinUnfolded protein responseEndothelium VascularStress MechanicalCarrier ProteinsCell NucleolusHeat-Shock ResponseHeLa CellsMolecular Chaperones

description

Mdg1/ERdj4, a mammalian chaperone that belongs to the HSP40 protein family, has been reported to be located in the endoplasmic reticulum (ER), is induced by ER stress, and protects ER stressed cells from apoptosis. Here we show that under normal physiological conditions, Mdg1/ERdj4 is expressed at various levels in the vasculature due to different activation states of the endothelium. To elucidate the stimuli that induce ER stress and thus upregulate Mdg1/ERdj4, we investigated the effect of several endothelium specific stressors on its expression. Mdg1/ERdj4 mRNA is induced by activated macrophages, by nitric oxide (NO) and heat shock, and during terminal cell differentiation, whereas shear stress does not affect Mdg1/ERdj4 expression levels. While the mRNA stability of BiP/GRP78 is unaffected in ER stressed cells, the stability of Mdg1/ERdj4 mRNA is prolonged during ER stress resulting in rapid increases and high levels of Mdg1/ERdj4 mRNA. Mdg1/ERdj4 protein is localized in the ER under control conditions. While heat shock induces a rapid translocation of Mdg1/ERdj4 to the nucleoli, no translocation could be observed during ER stress. This indicates that Mdg1/ERdj4 protein has diverse mechanisms to protect stressed cells from apoptosis.

yearjournalcountryeditionlanguage
2003-10-01Experimental Cell Research
https://doi.org/10.1016/s0014-4827(03)00316-1