LIPIDS BOOST THE BRAIN
Consuming oils with
high polyunsaturated fatty acid content, in particular those containing
omega-3s, is beneficial for the health. But the mechanisms underlying this
phenomenon are poorly known. Researchers at the Institut de Pharmacologie
Moléculaire et Cellulaire (CNRS/Université Nice Sophia Antipolis), the Unité
Compartimentation et Dynamique Cellulaires (CNRS/Institut Curie/UPMC), the
INSERM and the Université de Poitiers investigated the effect of lipids bearing
polyunsaturated chains when they are integrated into cell membranes. Their work
shows that the presence of these lipids makes the membranes more malleable and
therefore more sensitive to deformation and fission by proteins. These results,
published on August 8, 2014 in Science, could
help explain the extraordinary efficacy of endocytosis in neuron cells.
Consuming
polyunsaturated fatty acids (such as omega-3 fatty acids) is good for the
health. The effects range from neuronal differentiation to protection against
cerebral ischemia. However the molecular mechanisms underlying these effects
are poorly understood, prompting researchers to focus on the role of these
fatty acids in cell membrane function.
For a cell to function
properly, the membrane must be able to deform and divide into small vesicles.
This phenomenon is called endocytosis. Generally, these vesicles allow the
cells to encapsulate molecules and transport them.. In neurons, these synaptic
vesicles will act as a transmission pathway to the synapse for nerve messages.
They are formed inside the cell, then they move to its exterior and fuse with
its membrane, to transmit the neurotransmitters that they contain. Then they
reform in less than a tenth of a second: this is synaptic recycling.
In the work published
in Science, the researchers show that cell- or artificial membranes rich in
polyunsaturated lipids are much more sensitive to the action of two proteins,
dynamin and endophilin, which facilitate membrane deformation and fission.
Other measurements in the study and in simulations suggest that these lipids
also make the membranes more malleable. By facilitating the deformation and
scission necessary for endocytosis, the presence of polyunsaturated lipids
could explain rapid synaptic vesicle recycling.. The abundance of these lipids
in the brain could then represent a major advantage for cognitive function.
This work partially
sheds light on the mode of action of omega-3. Considering that the body cannot
synthesize them and that they can only be supplied by a suitable diet (rich in
oily fish, etc.), it seems important to continue this work to understand the
link between the functions performed by these lipids in the neuronal membrane
and their health benefits.
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