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Significance of GRP78 expression in acute myeloid leukemias

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Wróbel T., Stefanko E., Dzietczenia J., Jaźwiec B., Mazur G., Haus O., Dybko J., Kuliczkowski K.
Open Medicine
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2014
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vol. 9
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issue 2
204-209
EN
The GRP78 (glucose-regulated protein 78) is a major endoplasmic reticulum (ER) chaperone facilitating proper folding of the newly synthesized proteins. By the interaction with caspases, GRP78 has antiapoptotic properties allowing cells to survive under stress condition. GRP78 expression and its association with tumor proliferation, metastasis and resistance to chemotherapy were observed in solid tumors. There are limited data on the expression and impact of this protein on the clinical course and treatment response in acute myeloid leukemia (AML). The aim of this study was to evaluate the expression of GRP78 mRNA in patients with de novo AML. These results were compared to healthy controls, blast phenotype, molecular and cytogenetic status and clinical features of AML. 101 non-M3 AML patients and 26 healthy individuals were included in this study. The expression of GRP78 mRNA in bone marrow was analyzed by real-time quantitative polymerase chain reaction (RQ-PCR). We demonstrated increased GRP78 mRNA expression in AML patients compared to healthy controls, although this difference was statistically significant only in CD34+ leukemias. There was also no significant correlation between GRP78 mRNA expression and complete remission rate, relapse-free survival and overall survival. These results indicate that GRP78 expression is increased in CD34+ leukemias and has no prognostic impact on clinical outcome in AML.
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Endoplasmic reticulum stress response in the roadway for the effects of non-steroidal anti-inflammatory drugs

63%
Mügge F. L. B., Silva A. M.
Endoplasmic Reticulum Stress in Diseases
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2015
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vol. 2
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issue 1
EN
Over the past decade, a handful of evidence has been provided that nonsteroidal anti-inflammatory drugs (NSAIDs) display effects on the homeostasis of the endoplasmic reticulum (ER). Their uptake into cells will eventually lead to activation or inhibition of key molecules that mediate ER stress responses, raising not only a growing interest for a pharmacological target in ER stress responses but also important questions how the ER-stress mediated effects induced by NSAIDs could be therapeutically advantageous or not. We review here the toxicity effects and therapeutic applications of NSAIDs involving the three majors ER stress arms namely PERK, IRE1, and ATF6. First, we provide brief introduction on the well-established and characterized downstream events mediated by these ER stress players, followed by presentation of the NSAIDs compounds and mode of action, and finally their effects on ER stress response. NSAIDs present promising drug agents targeting the components of ER stress in different aspects of cancer and other diseases, but a better comprehension of the mechanisms underlying their benefits and harms will certainly pave the road for several diseases’ therapy.
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