Daphne Bazopoulou scite author profile

Background: There are striking similarities between the innate immune systems of invertebrates and vertebrates. Caenorhabditis elegans is increasingly used as a model for the study of innate immunity. Evidence is accumulating that C. elegans mounts distinct responses to different pathogens, but the true extent of this specificity is unclear. Here, we employ direct comparative genomic analyses to explore the nature of the host immune response.

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Developmental ROS individualizes organismal stress resistance and lifespan

Bazopoulou

Knoefler

Zheng

et al. 2019

Nature

182

139

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A central aspect of aging research concerns the question as to when individuality in lifespan arises 1. We have now discovered that a transient increase in reactive oxygen species (ROS), which occurs naturally during early development in a subpopulation of synchronized Caenorhabditis elegans, sets processes into motion that increase stress resistance, improve redox homeostasis and ultimately prolong lifespan in those animals. We find that these effects are linked to the global ROS-mediated decrease in developmental histone H3K4me3 levels. Studies in HeLa cells confirmed that global H3K4me3 levels are ROS-sensitive, and that depletion of H3K4me3 levels increases stress resistance in mammalian cell cultures. In vitro studies identified the Set1/MLL histone methyltransferase as the redox sensitive unit of the H3K4-trimethylating COMPASS complex. Our findings imply a novel link between early-life events, ROS-sensitive epigenetic marks, stress resistance and lifespan.

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The anti-inflammatory drug mesalamine targets bacterial polyphosphate accumulation

et al. 2017

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Mesalamine serves as the gold standard in treating ulcerative colitis. However, its precise mechanism(s) of action remains unclear. Here, we show that mesalamine treatment rapidly decreases polyphosphate levels in diverse bacteria, including members of the human gut microbiome. This decrease sensitizes bacteria towards oxidative stress, reduces colonization and attenuates persister cell and biofilm formation, suggesting that mesalamine aids in diminishing the capacity of bacteria to persist within chronically inflamed environments.

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An automated microfluidic platform for calcium imaging of chemosensory neurons in Caenorhabditis elegans

2010

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Functional fluorescence imaging methods are widely used to study cellular physiology. When applied to small organisms, these methods suffer from low-throughput due to the laborious immobilization/stimulus delivery procedure that is typically involved during imaging. Here, we describe the development of an automated microfluidic-based platform for performing automated neuronal functional (calcium) imaging in the roundworm Caenorhabditis elegans. The platform, capable of processing tens to hundreds of worms per hour, immobilizes individual worms, delivers a chemical odor to their nose and collects calcium imaging data from single neurons without any manual intervention. We used the developed platform to obtain a large number of calcium responses from worms of different ages (212 worms were imaged in total). The calcium imaging data revealed significant difference in the responses from young and old worms, indicating that neural functionality is age-dependent. We believe that such a technology will be an essential tool for obtaining repeatable and accurate functional imaging data from a large population of worms, in order to minimize stochastic biological noise and identify statistically significant trends.

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Circuit mechanisms encoding odors and driving aging-associated behavioral declines in Caenorhabditis elegans

Yang

Bazopoulou

Chronis

et al. 2015

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Chemosensory neurons extract information about chemical cues from the environment. How is the activity in these sensory neurons transformed into behavior? Using Caenorhabditis elegans, we map a novel sensory neuron circuit motif that encodes odor concentration. Primary neurons, AWCON and AWA, directly detect the food odor benzaldehyde (BZ) and release insulin-like peptides and acetylcholine, respectively, which are required for odor-evoked responses in secondary neurons, ASEL and AWB. Consistently, both primary and secondary neurons are required for BZ attraction. Unexpectedly, this combinatorial code is altered in aged animals: odor-evoked activity in secondary, but not primary, olfactory neurons is reduced. Moreover, experimental manipulations increasing neurotransmission from primary neurons rescues aging-associated neuronal deficits. Finally, we correlate the odor responsiveness of aged animals with their lifespan. Together, these results show how odors are encoded by primary and secondary neurons and suggest reduced neurotransmission as a novel mechanism driving aging-associated sensory neural activity and behavioral declines.DOI: http://dx.doi.org/10.7554/eLife.10181.001

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