Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.5.1.18 (glutathione S-transferase)
 22,582 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Translocation of 78-kDa glucose-regulated protein (GRP78) from endoplasmic reticulum (ER) to plasma membrane represents a paradigm shift beyond its traditional function as an ER chaperone protein. Cell surface GRP78 (csGRP78) exerts novel signaling functions, and mechanisms underlying its cell surface expression are just emerging. Acquired tamoxifen resistance of breast cancer cells is accompanied with elevated level of csGRP78. Therefore, the tamoxifen-resistant MCF7 breast cancer cells (MCF7-LR) represents a clinically relevant model to study mechanisms of csGRP78 expression. We discovered that a proline-rich region (PRR) containing three consecutive prolines close to the COOH-terminus of GRP78 is important for its ability to form a complex with the partner protein, CD44v, as demonstrated by in vitro glutathione S-transferase pull-down assay. Proline to alanine mutations at the PRR compromised GRP78 expression level on the cell surface as evidenced by purification of biotinylated cell surface proteins. Reconstitution of MCF7-LR cells with the PRR mutant after knockdown of endogenous GRP78 diminished the capacity of GRP78 to stimulate STAT3 activation. The enforced expression of a short peptide bearing the PRR region of GRP78 led to reduction of CD44v and Cyclin D1 protein levels as well as cell viability, accompanied with increase in apoptotic signaling including cleaved Caspase-3 and PARP. These findings suggest that the COOH-terminal PRR of GRP78 is critical for its interaction with CD44v as well as its cell surface expression, and enforced expression of the short peptide bearing the PRR region may provide a new approach to lower the viability of tamoxifen-resistant breast cancer cells.
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PMID:The COOH-Terminal Proline-Rich Region of GRP78 Is a Key Regulator of Its Cell Surface Expression and Viability of Tamoxifen-Resistant Breast Cancer Cells. 3130 49

The extensive regeneration potential of the liver makes use of hepatic re-sectioning and split liver transplantation for treating advanced liver diseases. Heavy metals such as cisplatin, carboplatin, and arsenic trioxide (ATO) are being practiced as chemotherapeutic agents for different cancers. Further, research is progressed on using different heavy metal nano-particles as a drug, drug carrier and diseases detective agent. Since liver is the chief organ metabolize ingested materials, the current study focuses on the involvement of ATO on acute liver injury regeneration using a partially hepatectomised (PHx) rat model. Scrutiny of serum liver markers such as albumin, AST, ALT & ALP and hepatic antioxidants like reduced glutathione, glutathione peroxidase, glutathione S-transferase, catalase & superoxide dismutase reveled ATO mediated hepatocyte injury and oxidative stress. Further, oxidative stress is confirmed with elevated TBARS and 8-OHdG in the hepatocyte nucleus in ATO supplemented healthy and regenerating liver and are co-relating with the H&E histological observations. It is noticed that ATO supplementation reduced liver regeneration potential as evidenced by reduced proliferative markers (Ki-67 and PCNA) and meanwhile increases apoptotic protein PARP-1. ICP-MS analysis displayed several-fold hiked serum and liver arsenic in ATO administrated normal and liver regenerating animals. This study concludes that ATO at a chemotherapeutic concentration augments oxidative stress and hepatocytes apoptosis, thereby delays liver regeneration potential and could affect the outcome of liver transplantation.
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PMID:Chemotherapeutic doses of arsenic trioxide delays hepatic regeneration by oxidative stress and hepatocyte apoptosis in partial hepatectomy rat. 3152 89

Heavy metal pollution arising from agricultural and industrial activities poses a significant threat to the aquatic environment, especially the increasing levels of chromium (Cr) that is exacerbating marine pollution. Given the economic importance of the Pacific white shrimp Litopenaeus vannamei (L. vannamei), understanding the impact of marine Cr pollution is deemed to be significant. In this study, we used the transcriptome sequencing (RNA-seq) technique to characterize the molecular mechanism of Cr exposure in L. vannamei. Gene ontology enrichment analysis showed substrate-specific and ion transport-related functions were mainly influenced by Cr exposure. We further identified genes involved in protein digestion and absorption (PEPT1, BAT1, MDU1), chemical carcinogenesis (GST and UGTs), ABC transporters (ABCC2), apoptosis (CAPN1, CASP10, PARP), implying the potentially Cr disintoxication mechanisms in L. vannamei. Genes within pancreatic secretion (ALT, LDH), lysosome (CTSL and HEXB), and peroxisome (ACOX1, ECI2, NUDT12) pathways implied the potentially Cr toxicity mechanisms in L. vannamei.
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PMID:New insight into the molecular basis of chromium exposure of Litopenaeus vannamei by transcriptome analysis. 3318 46


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