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Literature DB >> 32353377

Tight junction modulation at the blood-brain barrier: Current and future perspectives.

Abstract

The blood-brain barrier (BBB) is the one of the most robust physical barriers in the body, comprised of tight junction (TJ) proteins in brain microvascular endothelial cells. The need for drugs to treat central nervous systems diseases is ever increasing, however the presence of the BBB significantly hampers the uptake of drugs into the brain. To overcome or circumvent the barrier, many kinds of techniques are being developed. Modulating the paracellular route by disruption of the TJ complex has been proposed as a potential drug delivery system to treat brain diseases, however, it has several limitations and is still in a developmental stage. However, recent significant advance in medical equipment /tools such as targeted ultra-sound technologies may resolve these limitations. In this review, we introduce recent advances in site- or molecular size-selective BBB disruption/modulation technologies and we include details on pharmacological inhibitory molecules against intercellular TJ proteins to modulate the BBB.

Entities: Disease

Keywords: Blood-brain barrier; Claudin-5; Drug delivery system; Paracellular route; Tight junction

Mesh：

Substances：
Tight Junction Proteins

Year: 2020 PMID： 32353377 DOI： 10.1016/j.bbamem.2020.183298

Source DB: PubMed Journal: Biochim Biophys Acta Biomembr ISSN： 0005-2736 Impact factor: 3.747

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Cited

12 in total

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3. URB597 and Andrographolide Improve Brain Microvascular Endothelial Cell Permeability and Apoptosis by Reducing Oxidative Stress and Inflammation Associated with Activation of Nrf2 Signaling in Oxygen-Glucose Deprivation.

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Tight junction modulation at the blood-brain barrier: Current and future perspectives.

1. MiR-124-3p attenuates brain microvascular endothelial cell injury in vitro by promoting autophagy.

Review 2. The blood-brain barrier and the neurovascular unit in subarachnoid hemorrhage: molecular events and potential treatments.

3. URB597 and Andrographolide Improve Brain Microvascular Endothelial Cell Permeability and Apoptosis by Reducing Oxidative Stress and Inflammation Associated with Activation of Nrf2 Signaling in Oxygen-Glucose Deprivation.

4. Altered Blood Brain Barrier Permeability and Oxidative Stress in Cntnap2 Knockout Rat Model.

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