The Blood-Brain Barrier Breakdown During Acute Phase of the Pilocarpine Model of Epilepsy Is Dynamic and Time-Dependent

Mendes, Nelson F.; Pansani, Aline Priscila; Carmanhães, Elis Regina Ferreira; Tange, Poliana; Meireles, Juliana Vieira; Ochikubo, Mayara; Chagas, Jair Ribeiro; Silva, Alexandre Valotta da; Castro, Gláucia Monteiro de; Sueur-Maluf, Luciana Le

doi:10.3389/fneur.2019.00382

Cited by 44 publications

(31 citation statements)

References 55 publications

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“…We hypothesize that at least 30 min to a couple of hours are required to induce the BBB leakage. 25 Shorter durations as those used in take-off and landing experiments were not sufficient to induce BBB leakage even at high gravity intensity. This mechanism could be related to: (1) impairments of the vestibular and/or sympathetic regulations of cerebral blood flow and cerebrospinal fluid that can alter the tight junctions and their regulations in endothelial cells to reduce the resistance of the BBB via the modification of shear stress induced by adaptation to 2 × g, as proposed on endothelial cell lines 31,32 , or (2) a modification of the ratio between local blood pressure and cerebrospinal fluid, inducing pressure-evoked endothelial cell responses.…”

Section: Discussionmentioning

confidence: 94%

“…Moreover, if we consider that this leakage is also possible just after 24 h of exposure to 2 × g, we confirm that an alteration of the BBB could be a rapid, localized and reversible process, as recently reported during epileptic seizure. 25 Finally, the BBB leakage induced by gravity changes could be temporary and this question should be addressed.…”

Section: Discussionmentioning

confidence: 99%

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Effects of centrifugation and whole-body vibrations on blood–brain barrier permeability in mice

et al. 2020

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Modifications of gravity levels induce generalized adaptation of mammalian physiology, including vascular, brain, muscle, bone and immunity functions. As a crucial interface between the vascular system and the brain, the blood-brain barrier (BBB) acts as a filter to protect neurons from pathogens and inflammation. Here we compare the effects of several protocols of hypergravity induced by centrifugation and whole-body vibrations (WBV) on BBB integrity. The immunohistochemistry revealed immunoglobulin G (IgG) extravasation from blood to hippocampal parenchyma of mice centrifuged at 2 × g during 1 or 50 days, whereas short exposures to higher hypergravity mimicking the profiles of spaceflight landing and takeoff (short exposures to 5 × g) had no effects. These results suggest prolonged centrifugation (>1 days) at 2 × g induced a BBB leakage. Moreover, WBV were similarly tested. The short exposure to +2 × g vibrations (900 s/day at 90 Hz) repeated for 63 days induced IgG extravasation in hippocampal parenchyma, whereas the progressive increase of vibrations from +0.5 to +2 × g for 63 days was not able to affect the IgG crossing through the BBB. Overall, these results suggest that the BBB permeability is sensitive to prolonged external accelerations. In conclusion, we advise that the protocols of WBV and centrifugation, proposed as countermeasure to spaceflight, should be designed with progressively increasing exposure to reduce potential side effects on the BBB.

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Section: Discussionmentioning

confidence: 94%

Section: Discussionmentioning

confidence: 99%

Effects of centrifugation and whole-body vibrations on blood–brain barrier permeability in mice

et al. 2020

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“…We and other investigators reported that seizures can cause temporary BBB leakage. 11,12) This change could affect estradiol transport between the peripheral blood and the central nervous system (CNS), although it is difficult to recruit healthy voluntary infants for the collection of CSFs.…”

Section: Resultsmentioning

confidence: 99%

Measurement of the Estradiol Concentration in Cerebrospinal Fluid from Infants and Its Correlation with Serum Estradiol and Exosomal MicroRNA-126-5p

Ito

Senju

Oguro

et al. 2020

Biological & Pharmaceutical Bulletin

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Estradiol has an important role in the brain, such as in neuronal development and protection, but estradiol levels in the human brain have not been well investigated. In this study, we measured the estradiol concentration in the cerebrospinal fluid (CSF) of infants to reveal the relationships between the estradiol concentrations in the serum and the CSF and further determined exosomal microRNAs in serum. Estradiol in the CSF was strongly correlated with serum estradiol and moderately correlated with miR-126-5p in the serum exosomes. This report is the first to determine the estradiol concentration in CSF from infants and showed that the levels of miR-126-5p as well as serum estradiol can be candidates to predict brain estrogen status.

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“…32 Several hypotheses exist that associate cerebrovascular permeability with epileptogenesis, including asymmetric ion and molecule distribution and other changes to neuronal homeostasis (see Dadas et al 33 for review). [34][35][36] In one model, microvascular dysfunction was evaluated on T1-weighted contrast enhanced and T2-weighted images within 2 days of status epilepticus (SE), an epileptogenic injury that precedes epilepsy development in all animals, and BBB dysfunction in the piriform network was found to be a sensitive and specific predictor of epilepsy (area under the curve [AUC] = 0.96, P < .0001). [34][35][36] In one model, microvascular dysfunction was evaluated on T1-weighted contrast enhanced and T2-weighted images within 2 days of status epilepticus (SE), an epileptogenic injury that precedes epilepsy development in all animals, and BBB dysfunction in the piriform network was found to be a sensitive and specific predictor of epilepsy (area under the curve [AUC] = 0.96, P < .0001).…”

Section: Bbb Disruption and Hippocampal Atrophy After Induced Tbimentioning

confidence: 99%

“…BBB pathology and its relationship to emergent epilepsy have been demonstrated in experimental models. [34][35][36] In one model, microvascular dysfunction was evaluated on T1-weighted contrast enhanced and T2-weighted images within 2 days of status epilepticus (SE), an epileptogenic injury that precedes epilepsy development in all animals, and BBB dysfunction in the piriform network was found to be a sensitive and specific predictor of epilepsy (area under the curve [AUC] = 0.96, P < .0001). 20 In addition, structural alterations have been found in hippocampal subfields in a study of lateral fluid percussion injury (LFP): Ipsilateral hippocampal deformation 1 week postinjury acquired from MRI-based large-deformation high-dimensional mapping showed increased lateral regions in rats that developed PTE compared with reduced medial and ventral regions in nonepileptic rats.…”

Section: Bbb Disruption and Hippocampal Atrophy After Induced Tbimentioning

confidence: 99%

Imaging biomarkers of posttraumatic epileptogenesis

et al. 2019

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Traumatic brain injury (TBI) affects 2.5 million people annually within the United States alone, with over 300 000 severe injuries resulting in emergency room visits and hospital admissions. Severe TBI can result in long‐term disability. Posttraumatic epilepsy (PTE) is one of the most debilitating consequences of TBI, with an estimated incidence that ranges from 2% to 50% based on severity of injury. Conducting studies of PTE poses many challenges, because many subjects with TBI never develop epilepsy, and it can be more than 10 years after TBI before seizures begin. One of the unmet needs in the study of PTE is an accurate biomarker of epileptogenesis, or a panel of biomarkers, which could provide early insights into which TBI patients are most susceptible to PTE, providing an opportunity for prophylactic anticonvulsant therapy and enabling more efficient large‐scale PTE studies. Several recent reviews have provided a comprehensive overview of this subject (Neurobiol Dis, 123, 2019, 3; Neurotherapeutics, 11, 2014, 231). In this review, we describe acute and chronic imaging methods that detect biomarkers for PTE and potential mechanisms of epileptogenesis. We also describe shortcomings in current acquisition methods, analysis, and interpretation that limit ongoing investigations that may be mitigated with advancements in imaging techniques and analysis.

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The Blood-Brain Barrier Breakdown During Acute Phase of the Pilocarpine Model of Epilepsy Is Dynamic and Time-Dependent

Cited by 44 publications

References 55 publications

Effects of centrifugation and whole-body vibrations on blood–brain barrier permeability in mice

Effects of centrifugation and whole-body vibrations on blood–brain barrier permeability in mice

Measurement of the Estradiol Concentration in Cerebrospinal Fluid from Infants and Its Correlation with Serum Estradiol and Exosomal MicroRNA-126-5p

Imaging biomarkers of posttraumatic epileptogenesis

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