Publications by authors named "Charlotte Javalet"

Autophagy and autophagy-related genes (Atg) have been attributed prominent roles in tumorigenesis, tumor growth, and metastasis. Extracellular vesicles called exosomes are also implicated in cancer metastasis. Here, we demonstrate that exosome production is strongly reduced in cells lacking Atg5 and Atg16L1, but this is independent of Atg7 and canonical autophagy.

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Amyloid beta peptide (Aβ), the main component of senile plaques of Alzheimer's disease brains, is produced by sequential cleavage of amyloid precursor protein (APP) and of its C-terminal fragments (CTFs). An unanswered question is how amyloidogenic peptides spread throughout the brain during the course of the disease. Here, we show that small lipid vesicles called exosomes, secreted in the extracellular milieu by cortical neurons, carry endogenous APP and are strikingly enriched in CTF-α and the newly characterized CTF-η.

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Exosomes are vesicles released by most cells into their environment upon fusion of multivesicular endosomes with the plasma membrane. Exosomes are vesicles of 60-100 nm in diameter, floating in sucrose at a density of ~1.15 g/mL and carrying a number of marker proteins such as Alix, Tsg101, and Flotillin-1.

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Exosomes are nano-sized vesicles of endocytic origin released into the extracellular space upon fusion of multivesicular bodies with the plasma membrane. Exosomes represent a novel mechanism of cell-cell communication allowing direct transfer of proteins, lipids and RNAs. In the nervous system, both glial and neuronal cells secrete exosomes in a way regulated by glutamate.

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Exosomes are small extracellular vesicles which stem from endosomes fusing with the plasma membrane; they contain lipids, proteins and RNAs that are able to modify receiving cells. Functioning of the brain relies on synapses, and certain patterns of synaptic activity can change the strength of responses at sparse groups of synapses, to modulate circuits underlying associations and memory. These local changes of the synaptic physiology in one neuron driven by another have, so far, been explained by classical signal transduction modulating transcription, translation and post-translational modifications.

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Article Synopsis
  • * JAK2 and STAT3 isoforms, which are highly expressed in the brain, are localized in the postsynaptic density, indicating their importance in neuronal functions.
  • * This study reveals that the JAK/STAT pathway is essential for NMDA-receptor dependent long-term depression (NMDAR-LTD) in the hippocampus, linking it to synaptic plasticity in the brain beyond its roles in cytokine signaling.
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