Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P30044 (antioxidant enzyme)
 8,037 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Depending on the availability of extracellular nutrients, yeast can enter either high or low metabolism survival phases. We have identified two pathways that regulate longevity and stress resistance in both the low and high metabolism phases. The deletion of SCH9, which encodes for a serine threonine kinase, triples the mean life span and increases resistance to oxidative and thermal stress. Mutations that decrease the activity of the Ras/Cyr1/PKA pathway also extend longevity and increase stress resistance by activating transcription factors Msn2/Msn4 and the mitochondrial antioxidant enzyme superoxide dismutase (Sod2). Although only one intracellular pathway that includes genes homologous to SCH9 and SOD2 has been identified in worms, our studies in yeast suggest that longevity in higher eukaryotes may also be negatively regulated by the Ras pathway.
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PMID:The Ras and Sch9 pathways regulate stress resistance and longevity. 1285 92

Studies on transgenic mice have shown them to be useful models for human aging- and age-related diseases. Life span end points in yeast and Caenorhabditis elegans can identify highly conserved genes that promote longevity when their functions are lost and which can readily be manipulated in the mouse. Protein kinase A is an example of a highly conserved gene that has age-delaying effects when specific subunits are suppressed or removed in the mouse, suggesting that loss of function may be a rational pharmacologic target. Gain of function is also an attractive clinical approach because expression levels of some vital genes may decrease in an age-related manner. The antioxidant enzyme catalase can delay aging when the human gene is inserted into mitochondria of mice. Other antioxidant genes are of interest in this system, both individually and in combination with catalase. A challenging aspect is to determine how to deliver catalase, as well as other gene products, into the mitochondria in the clinical setting. A number of new and exciting genes will most likely be investigated as clinical antiaging targets as the result of a forward genetic life span screening approach in invertebrates and a reverse genetic life span approach in the mouse.
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PMID:Clinical relevance of transgenic mouse models for aging research. 1819 87

The present study investigated possible adverse outcome pathways (AOPs) of the antidepressant fluoxetine (FX) in the marine mussel Mytilus galloprovincialis. An evaluation of molecular endpoints involved in modes of action (MOAs) of FX and biomarkers for sub-lethal toxicity were explored in mussels after a 7-day administration of nominal FX concentrations encompassing a range of environmentally relevant values (0.03-300ng/L). FX bioaccumulated in mussel tissues after treatment with 30 and 300ng/L FX, resulting in bioconcentration factor (BCF) values ranging from 200 to 800, which were higher than expected based solely on hydrophobic partitioning models. Because FX acts as a selective serotonin (5-HT) re-uptake inhibitor increasing serotonergic neurotransmission at mammalian synapses, cell signaling alterations triggered by 5-HT receptor occupations were assessed. cAMP levels and PKA activities were decreased in digestive gland and mantle/gonads of FX-treated mussels, consistent with an increased occupation of 5-HT1 receptors negatively coupled to the cAMP/PKA pathway. mRNA levels of a ABCB gene encoding the P-glycoprotein were also significantly down-regulated. This membrane transporter acts in detoxification towards xenobiotics and in altering pharmacokinetics of antidepressants; moreover, it is under a cAMP/PKA transcriptional regulation in mussels. Potential stress effects of FX were investigated using a battery of biomarkers for mussel health status that included lysosomal parameters, antioxidant enzyme activities, lipid peroxidation, and acetylcholinesterase activity. FX reduced the health status of mussels and induced lysosomal alterations, as suggested by reduction of lysosomal membrane stability in haemocytes and by lysosomal accumulation of neutral lipids in digestive gland. No clear antioxidant responses to FX were detected in digestive gland, while gills displayed significant increases of catalase and glutathione-s-transferase activities and a significant decrease of acetylcholinesterase activity. Though AOPs associated with mammalian therapeutic MOAs remain important during assessments of pharmaceutical hazards in the environment, this study highlights the importance of considering additional MOAs and AOPs for FX, particularly in marine mussels.
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PMID:An exploratory investigation of various modes of action and potential adverse outcomes of fluoxetine in marine mussels. 2436 Oct 74