Atsushi Yamaguchi scite author profile

Vascular endothelial growth factor (VEGF) is known as a selective endothelial cell mitogen that promotes angiogenesis and increases blood vessel formation in vivo. Here we report that VEGF has protective effects on primary hippocampal neurons against glutamate toxicity by acting on phosphatidylinositol 3‐kinase (PI3‐K)/Akt pathways and mitogen‐activated protein kinase kinase (MEK)/extracellular signal‐regulated kinase (ERK) pathways, operating independently of one another. Decrease in the VEGF's neuroprotective effect resulting from inhibition of either pathway alone was significantly enhanced by simultaneous inhibition of both pathways. However, adenovirus‐mediated expression of either the active form of Akt or of MEK significantly inhibited glutamate‐induced neuronal death. Treatment with antisense ODN against Flk‐1, but not against Flt‐1, blocked the effect of VEGF on the activation of Akt and ERK and glutamate‐induced neuronal death. These findings suggest that VEGF has a protective effect on hippocampal neurons against glutamate‐induced toxicity and that this effect is dependent on PI3‐ K/Akt and MEK/ERK signaling pathways mediated primarily through Flk‐1 receptor.

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A Role for S6 Kinase and Serotonin in Postmating Dietary Switch and Balance of Nutrients in D. melanogaster

Vargas

et al. 2010

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Balancing intake of diverse nutrients is important for organismal growth, reproduction and survival. A shift in an organism’s optimal diet due to changes in nutritional requirements after developmental or environmental changes is referred to as dietary switch, and has been observed in several species [1]. We demonstrate that female D. melanogaster also undergo a dietary switch following mating that leads to an increased preference for yeast, the major source of protein in their diet. We demonstrate that S6 Kinase (S6K) and serotonin production are involved in the post-mating dietary switch. To further investigate the ability of D. melanogaster to balance nutrient intake, we examined the dietary preferences of adult flies following deprivation of yeast or sucrose in the diet. We observe that following conditioning on a diet deficient in either carbohydrates or yeast, D. melanogaster shows a strong preference for the deficient nutrient when permitted to choose its diet freely. Furthermore, flies with activated S6K or fed a serotonin precursor exhibit enhanced preference for yeast in this assay. Our results suggest that TOR signaling and serotonin may play an important role in maintaining nutrient balance in D. melanogaster. Hence, D. melanogaster can be used as a model organism to investigate the genetic basis for nutrient homeostasis which may contribute to our understanding of metabolic disorders such as obesity and diabetes [2].

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Transmission of cell stress from endoplasmic reticulum to mitochondria

et al. 2002

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The rat homologue of a mitochondrial ATP-dependent protease Lon was cloned from cultured astrocytes exposed to hypoxia. Expression of Lon was enhanced in vitro by hypoxia or ER stress, and in vivo by brain ischemia. These observations suggested that changes in nuclear gene expression (Lon) triggered by ER stress had the potential to impact important mitochondrial processes such as assembly and/or degradation of cytochrome c oxidase (COX). In fact, steady-state levels of nuclear-encoded COX IV and V were reduced, and mitochondrial-encoded subunit II was rapidly degraded under ER stress. Treatment of cells with cycloheximide caused a similar imbalance in the accumulation of COX subunits, and enhanced mRNA for Lon and Yme1, the latter another mitochondrial ATP-dependent protease. Furthermore, induction of Lon or GRP75/mtHSP70 by ER stress was inhibited in PERK (−/−) cells. Transfection studies revealed that overexpression of wild-type or proteolytically inactive Lon promoted assembly of COX II into a COX I–containing complex, and partially prevented mitochondrial dysfunction caused by brefeldin A or hypoxia. These observations demonstrated that suppression of protein synthesis due to ER stress has a complex effect on the synthesis of mitochondrial-associated proteins, both COX subunits and ATP-dependent proteases and/or chaperones contributing to assembly of the COX complex.

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