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Query: UMLS:C0038454 (
stroke
)
147,016
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Ischemic stroke belongs to the leading causes of mortality and disability worldwide. Although treatments for the acute phase of
stroke
are available, not all patients are eligible. There is a need to search for therapeutic options to promote neurological recovery after
stroke
. The cellular
prion protein
(PrPC) has been consistently linked to a neuroprotective role after ischemic damage: it is upregulated in the penumbra area following
stroke
in humans, and animal models of
stroke
have shown that lack of PrPC aggravates the ischemic damage and lessens the functional outcome. Mechanistically, these effects can be linked to numerous functions attributed to PrPC: (1) as a signaling partner of the PI3K/Akt and MAPK pathways, (2) as a regulator of glutamate receptors, and (3) promoting stem cell homing mechanisms, leading to angio- and neurogenesis. PrPC can be cleaved at different sites and the proteolytic fragments can account for the manifold functions. Moreover, PrPC is present on extracellular vesicles (EVs), released membrane particles originating from all types of cells that have drawn attention as potential therapeutic tools in
stroke
and many other diseases. Thus, identification of the many mechanisms underlying PrPC-induced neuroprotection will not only provide further understanding of the physiological functions of PrPC but also new ideas for possible treatment options after ischemic
stroke
.
...
PMID:Show Me Your Friends and I Tell You Who You Are: The Many Facets of Prion Protein in Stroke. 3263 Aug 41
Extracellular vesicles (EVs) are important means of intercellular communication and a potent tool for regenerative therapy. In ischaemic
stroke
, transient blockage of a brain artery leads to a lack of glucose and oxygen in the affected brain tissue, provoking neuronal death by necrosis in the core of the ischaemic region. The fate of neurons in the surrounding penumbra region depends on the stimuli, including EVs, received during the following hours. A detailed characterization of such stimuli is crucial not only for understanding
stroke
pathophysiology but also for new therapeutic interventions. In the present study, we characterize the EVs in mouse brain under physiological conditions and 24 h after induction of transient ischaemia in mice. We show that, in steady-state conditions, microglia are the main source of small EVs (sEVs), whereas after ischaemia the main sEV population originates from astrocytes. Brain sEVs presented high amounts of the
prion protein
(
PrP
), which were further increased after
stroke
. Moreover, EVs were enriched in a proteolytically truncated
PrP
fragment (PrP-C1). Because of similarities between
PrP
-C1 and certain viral surface proteins, we studied the cellular uptake of brain-derived sEVs from mice lacking (PrP-KO) or expressing
PrP
(WT). We show that
PrP
-KO-sEVs are taken up significantly faster and more efficiently than WT-EVs by primary neurons. Furthermore, microglia and astrocytes engulf
PrP
-KO-sEVs more readily than WT-sEVs. Our results provide novel information on the relative contribution of brain cell types to the sEV pool in murine brain and indicate that increased release of sEVs by astrocytes together with elevated levels of
PrP
in sEVs may play a role in intercellular communication at early stages after
stroke
. In addition, amounts of
PrP
(and probably PrP-C1) in brain sEVs seem to contribute to regulating their cellular uptake.
...
PMID:Characterization of brain-derived extracellular vesicles reveals changes in cellular origin after stroke and enrichment of the prion protein with a potential role in cellular uptake. 3294 94
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