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Cell Metab,
2013]
The mechanisms underlying the biological activity of metformin, a widely prescribed drug to treat type 2 diabetes, remain elusive. In a recent issue of Cell, Cabreiro et al. report that in C. elegans, metformin indirectly impacts lifespan by altering the methionine metabolism of its microbial partner E. coli (Cabreiro et al., 2013).
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Dev Cell,
2015]
Adherens junctions (AJs) play a crucial role in epithelial tissue development and tumorigenesis, and the mechanisms controlling their assembly and disassembly have therefore attracted considerable attention. A paper from Tsur et al. (2015) in this issue of Developmental Cell now shows how sumoylation and desumoylation of E-cadherin promotes its recruitment to AJs.
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Gut Microbes,
2013]
The fungus Candida albicans and the gram-positive bacterium Enterococcus faecalis are both normal residents of the human gut microbiome and cause opportunistic disseminated infections in immunocompromised individuals. Using a nematode infection model, we recently showed that co-infection resulted in less pathology and less mortality than infection with either species alone and this was partly explained by an interkingdom signaling event in which a bacterial-derived product inhibits hyphal morphogenesis of C. albicans. In this addendum we discuss these findings in the contest of other described bacterial-fungal interactions and recent data suggesting a potentially synergistic relationship between these two species in the mouse gut as well. We suggest that E. faecalis and C. albicans promote a mutually beneficial association with the host, in effect choosing a commensal lifestyle over a pathogenic one.
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BMC Biol,
2012]
In a paper in BMC Biology Virk et al. show that Caenorhabditis elegans lifespan is extended in response to a diet of folate-deficient Escherichia coli. The deficiencies in folate biosynthesis were due to an aroD mutation, or treatment of E. coli with sulfa drugs, which are mimics of the folate precursor para-aminobenzoic acid. This study suggests that pharmacological manipulation of the gut microbiome folate status may be a viable approach to slow animal aging, and raises questions about folate supplementation.
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BMC Biol,
2012]
Caenorhabditis elegans is a preeminent model organism, but the natural ecology of this nematode has been elusive. A four-year survey of French orchards published in BMC Biology reveals thriving populations of C. elegans (and Caenorhabditis briggsae) in rotting fruit and plant stems. Rather than being simply a 'soil nematode', C. elegans appears to be a 'plant-rot nematode'. These studies signal a growing interest in the integrated genomics and ecology of these tractable animals.
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Science,
1997]
A gene that helps control the life-span of the nematode C. elegans encodes the worm version of the insulin receptor, thereby providing a possible link between aging and glucose metabolism.
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Nature,
1998]
Cytochrome c leads a double life. When a cell is called on to commit apoptotic suicide, cytochrome c relocalizes from the mitochondria to the cytosol. There, it helps to activate the foot-soldiers of apoptosis - the death proteases known as caspases. How cytochrome c escapes from the mitochondria is still a matter of debate, but it is clear that certain elements within the apoptotic regulatory hierarchy do not condone such behavior. In particular, overexpression of the cell-death suppressors Bcl-2 and Bcl-xL prevents the release of cytochrome c, suggesting that these proteins act upstream of cytochrome c in the pathway to death. However, on pages 449 and 496 of this issue, Zhivotovsky et al. and Rosse et al. show that Bcl-2 can also protect cells downstream of cytochrome c release, forcing a re-evaluation of this newly acquired dogma.
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Nat Neurosci,
2003]
In C. elegans, social and solitary feeding behavior can be determined by a single amino acid change in a G protein-coupled receptor. A new study identifies ligands for this receptor and suggests how changes in behavior evolve at the molecular level.
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Neuromuscul Disord,
2004]
In her commentary on our recently published paper, A. de Luca questions the approach consisting in screening random molecules on a dystrophin-deficient invertebrate model (C. elegans) in order to identify potential therapeutic clues.
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Curr Biol,
2007]
A kinesin-5-dependent ''sliding filament'' mechanism is commonly used to actively push apart the poles during mitotic spindle assembly and elongation, but a recent study now shows that, in C. elegans, kinesin-5 is deployed as a brake to slow down spindle-pole separation.