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1.
Nature ; 465(7297): 478-82, 2010 May 27.
Artigo em Inglês | MEDLINE | ID: mdl-20505729

RESUMO

Cerebral microvascular occlusion is a common phenomenon throughout life that might require greater recognition as a mechanism of brain pathology. Failure to recanalize microvessels promptly may lead to the disruption of brain circuits and significant functional deficits. Haemodynamic forces and the fibrinolytic system are considered to be the principal mechanisms responsible for recanalization of occluded cerebral capillaries and terminal arterioles. Here we identify a previously unrecognized cellular mechanism that may also be critical for this recanalization. By using high-resolution fixed-tissue microscopy and two-photon imaging in living mice we observed that a large fraction of microemboli infused through the internal carotid artery failed to be lysed or washed out within 48 h. Instead, emboli were found to translocate outside the vessel lumen within 2-7 days, leading to complete re-establishment of blood flow and sparing of the vessel. Recanalization occurred by a previously unknown mechanism of microvascular plasticity involving the rapid envelopment of emboli by endothelial membrane projections that subsequently form a new vessel wall. This was followed by the formation of an endothelial opening through which emboli translocated into the perivascular parenchyma. The rate of embolus extravasation was significantly decreased by pharmacological inhibition of matrix metalloproteinase 2/9 activity. In aged mice, extravasation was markedly delayed, resulting in persistent tissue hypoxia, synaptic damage and cell death. Alterations in the efficiency of the protective mechanism that we have identified may have important implications in microvascular pathology, stroke recovery and age-related cognitive decline.


Assuntos
Encéfalo/irrigação sanguínea , Encéfalo/fisiologia , Circulação Cerebrovascular/fisiologia , Embolia/patologia , Microvasos/citologia , Microvasos/fisiologia , Envelhecimento/fisiologia , Animais , Coagulação Sanguínea , Encéfalo/citologia , Artérias Carótidas/citologia , Artérias Carótidas/fisiologia , Morte Celular , Hipóxia Celular , Linhagem Celular , Estruturas da Membrana Celular/metabolismo , Estruturas da Membrana Celular/ultraestrutura , Colesterol/metabolismo , Dendritos/metabolismo , Células Endoteliais/citologia , Endotélio Vascular/citologia , Endotélio Vascular/fisiologia , Endotélio Vascular/ultraestrutura , Fibrina/metabolismo , Fibrinogênio/metabolismo , Humanos , Camundongos , Microesferas , Sinapses/metabolismo , Sinapses/patologia , Trombina/metabolismo
2.
Sci Transl Med ; 6(226): 226ra31, 2014 Mar 05.
Artigo em Inglês | MEDLINE | ID: mdl-24598589

RESUMO

Occlusion of the microvasculature by blood clots, atheromatous fragments, or circulating debris is a frequent phenomenon in most human organs. Emboli are cleared from the microvasculature by hemodynamic pressure and the fibrinolytic system. An alternative mechanism of clearance is angiophagy, in which emboli are engulfed by the endothelium and translocate through the microvascular wall. We report that endothelial lamellipodia surround emboli within hours of occlusion, markedly reducing hemodynamic washout and tissue plasminogen activator-mediated fibrinolysis in mice. Over the next few days, emboli are completely engulfed by the endothelium and extravasated into the perivascular space, leading to vessel recanalization and blood flow reestablishment. We find that this mechanism is not limited to the brain, as previously thought, but also occurs in the heart, retina, kidney, and lung. In the lung, emboli cross into the alveolar space where they are degraded by macrophages, whereas in the kidney, they enter the renal tubules, constituting potential routes for permanent removal of circulating debris. Retina photography and angiography in patients with embolic occlusions provide indirect evidence suggesting that angiophagy may also occur in humans. Thus, angiophagy appears to be a ubiquitous mechanism that could be a therapeutic target with broad implications in vascular occlusive disorders. Given its biphasic nature-initially causing embolus retention, and subsequently driving embolus extravasation-it is likely that different therapeutic strategies will be required during these distinct post-occlusion time windows.


Assuntos
Embolia/patologia , Fagocitose , Vasos Retinianos/patologia , Animais , Encéfalo/irrigação sanguínea , Circulação Cerebrovascular/fisiologia , Circulação Coronária , Fibrina/química , Fibrinólise , Fundo de Olho , Proteínas de Fluorescência Verde/metabolismo , Hemodinâmica , Humanos , Túbulos Renais/irrigação sanguínea , Pulmão/irrigação sanguínea , Macrófagos/citologia , Camundongos , Camundongos Transgênicos , Microcirculação , Microglia/metabolismo , Microscopia Eletrônica de Transmissão , Microvasos , Monócitos/citologia , Retina/metabolismo , Trombose
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