Mfsd2a is critical for the formation and function of the blood–brain barrier

Ben-Zvi, Ayal; Lacoste, Baptiste; Kur, Esther; Andreone, Benjamin J.; Mayshar, Yoav; Han, Yan; Gu, Chenghua

doi:10.1038/nature13324

Cited by 792 publications

(896 citation statements)

References 32 publications

(43 reference statements)

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“…Two important features of brain ECs, including the high sealing efficiency via paracellular junctions and relatively low transcytosis rate, help maintain the low permeability of the BBB to cerebrospinal fluid and blood components (35). Soon after I/R, there are increases in transcellular trafficking and paracellular permeability via MMP-independent mechanisms (8,9).…”

Section: Discussionmentioning

confidence: 99%

Endothelium-targeted overexpression of heat shock protein 27 ameliorates blood–brain barrier disruption after ischemic brain injury

Shi

Jiang

Zhang

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

118

144

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The damage borne by the endothelial cells (ECs) forming the blood–brain barrier (BBB) during ischemic stroke and other neurological conditions disrupts the structure and function of the neurovascular unit and contributes to poor patient outcomes. We recently reported that structural aberrations in brain microvascular ECs—namely, uncontrolled actin polymerization and subsequent disassembly of junctional proteins, are a possible cause of the early onset BBB breach that arises within 30–60 min of reperfusion after transient focal ischemia. Here, we investigated the role of heat shock protein 27 (HSP27) as a direct inhibitor of actin polymerization and protectant against BBB disruption after ischemia/reperfusion (I/R). Using in vivo and in vitro models, we found that targeted overexpression of HSP27 specifically within ECs—but not within neurons—ameliorated BBB impairment 1–24 h after I/R. Mechanistically, HSP27 suppressed I/R-induced aberrant actin polymerization, stress fiber formation, and junctional protein translocation in brain microvascular ECs, independent of its protective actions against cell death. By preserving BBB integrity after I/R, EC-targeted HSP27 overexpression attenuated the infiltration of potentially destructive neutrophils and macrophages into brain parenchyma, thereby improving long-term stroke outcome. Notably, early poststroke administration of HSP27 attached to a cell-penetrating transduction domain (TAT-HSP27) rapidly elevated HSP27 levels in brain microvessels and ameliorated I/R-induced BBB disruption and subsequent neurological deficits. Thus, the present study demonstrates that HSP27 can function at the EC level to preserve BBB integrity after I/R brain injury. HSP27 may be a therapeutic agent for ischemic stroke and other neurological conditions involving BBB breakdown.

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Section: Discussionmentioning

confidence: 99%

Endothelium-targeted overexpression of heat shock protein 27 ameliorates blood–brain barrier disruption after ischemic brain injury

Shi

Jiang

Zhang

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

118

144

View full text Add to dashboard Cite

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“…40 Both barriers physically separate their respective organs into apical and basal compartments exerting strict control over the transfer of ions and molecules. The BTB develops postnatally in rodents and during puberty in humans, 19 while the BBB is formed prenatally in both rodents 6,7 and humans. 41 Both barriers create 'immune-privileged sites', i.e., tissue transplanted into the brain 42 or the interstitial space of the testis 39 is not rejected.…”

Section: The Blood-brain Barrier (Bbb)mentioning

confidence: 99%

“…A functional BBB that excludes tracers administered intravenously from the CNS parenchyma is present between E15-E16. 6,7 Normally, astrocytes appear postnatally to provide additional support to the functional BBB during adulthood, as well as in connection with injury and disease (Fig. 2).…”

Section: The Blood-brain Barrier (Bbb)mentioning

confidence: 99%

Microbiota and the control of blood-tissue barriers

Al-Asmakh

Hedin

2015

Tissue Barriers

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“…CNS vasculature undergoes angiogenesis and remodeling at early postnatal stages (19,20), alterations of which can affect subsequent BBB properties (2,21). To determine whether S1P 1 regulates the BBB directly or indirectly via vascular developmental defects (2, 21), we deleted endothelial S1pr1 in adult mice (>8 wk) and analyzed them for BBB function 4 wk after gene deletion.…”

Section: Significancementioning

confidence: 99%

“…S1C) from S1pr1 iECKO brain displayed normal mRNA expression of brain EC-specific genes (Slco1c1, Slc2a1, Abcb1a, Mfsd2a, and Zic3) (ref. 21; Fig. S1D) or other components of the NVU, smooth muscle cells (Acta2), pericytes (Pdgfrb), astrocytes (Gfap, Aqp4, and Mfge8), and perivascular macrophages (Mrc1 and Lyve1) (ref.…”

Section: Significancementioning

confidence: 99%

Size-selective opening of the blood–brain barrier by targeting endothelial sphingosine 1–phosphate receptor 1

Yanagida

Liu

Faraco

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

177

162

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The vasculature of the central nervous system (CNS) forms a selective barrier termed the blood-brain barrier (BBB). Disruption of the BBB may contribute to various CNS diseases. Conversely, the intact BBB restricts efficient penetration of CNS-targeted drugs. Here, we report the BBB-regulatory role of endothelial sphingosine 1-phosphate (S1P) receptor-1, a G protein-coupled receptor known to promote the barrier function in peripheral vessels. Endothelial-specific S1pr1 knockout mice (S1pr1 iECKO ) showed BBB breach for small-molecular-mass fluorescence tracers (<3 kDa), but not larger tracers (>10 kDa). Chronic BBB leakiness was associated with cognitive impairment, as assessed by the novel object recognition test, but not signs of brain inflammation. Brain microvessels of S1pr1 iECKO mice showed altered subcellular distribution of tight junctional proteins. Pharmacological inhibition of S1P 1 function led to transient BBB breach. These data suggest that brain endothelial S1P 1 maintain the BBB by regulating the proper localization of tight junction proteins and raise the possibility that endothelial S1P 1 inhibition may be a strategy for transient BBB opening and delivery of small molecules into the CNS.blood-brain barrier | sphingosine 1-phosphate | endothelium | tight junction | drug delivery

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Mfsd2a is critical for the formation and function of the blood–brain barrier

Cited by 792 publications

References 32 publications

Endothelium-targeted overexpression of heat shock protein 27 ameliorates blood–brain barrier disruption after ischemic brain injury

Endothelium-targeted overexpression of heat shock protein 27 ameliorates blood–brain barrier disruption after ischemic brain injury

Microbiota and the control of blood-tissue barriers

Size-selective opening of the blood–brain barrier by targeting endothelial sphingosine 1–phosphate receptor 1

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