Transepithelial electrical resistance and tight junctions of human gingival keratinocvtes

Meyle, Joerg; Gültig, Karina; Rascher, Gesa; Wolburg, Hartwig

doi:10.1111/j.1600-0765.1999.tb02244.x

Cited by 35 publications

(39 citation statements)

References 44 publications

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“…2). The BBB is unique from other blood–organ barriers due to the presence of astrocytes and the special composition of the tight junction, which, collectively contributes to a high electrical resistance at the blood–brain barrier – as high as 8000 Ω cm 2 in certain regions of the brain 29 (for comparison, electrical resistance levels of 500–3500 Ω cm 2 have been measured in the blood barrier in other tissue but varies widely based on what tissue/organ and condition is studied 30,31 ).…”

Section: The Blood–brain Barriermentioning

confidence: 99%

Obstructive sleep apnea and cognitive impairment: Addressing the blood–brain barrier

Lim

Pack

2014

Sleep Medicine Reviews

109

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SUMMARY Increasing data support a connection between obstructive sleep apnea (OSA) and cognitive impairment but a causal link has yet to be established. Although neuronal loss has been linked to cognitive impairment, emerging theories propose that changes in synaptic plasticity can cause cognitive impairment. Studies demonstrate that disruption to the blood–brain barrier (BBB), which is uniquely structured to tightly maintain homeostasis inside the brain, leads to changes in the brain’s microenvironment and affects synaptic plasticity. Cyclical intermittent hypoxia is a stressor that could disrupt the BBB via molecular responses already known to occur in either OSA patients or animal models of intermittent hypoxia. However, we do not yet know if or how intermittent hypoxia can cause cognitive impairment by mechanisms operating at the BBB. Therefore, we propose that initially, adaptive homeostatic responses at the BBB occur in response to increased oxygen and nutrient demand, specifically through regulation of influx and efflux BBB transporters that alter microvessel permeability. We further hypothesize that although these responses are initially adaptive, these changes in BBB transporters can have long-term consequences that disrupt the brain’s microenvironment and alter synaptic plasticity leading to cognitive impairment.

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Section: The Blood–brain Barriermentioning

confidence: 99%

Obstructive sleep apnea and cognitive impairment: Addressing the blood–brain barrier

Lim

Pack

2014

Sleep Medicine Reviews

109

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“…Некоторые авторы полагают, что метаболическая актив-ность остеобласт-подобных клеток, контролируемая по уровню остеокаль-цина, простагландину Е2 и трансфор-мирующему фактору роста-β1 (TGF-β1), активности щелочной фосфатазы, зна-чительно возрастает на поверхности титана с пескоструйной обработкой или плазменным напылением [60]. При увеличении шероховатости уве-личивается и поверхность имплан-тата, что приводит к последующему увеличению адсорбции фибриногена и скорости активации тромбоцитов.…”

Section: Aa Vishnevsky Vv Kazbanov Ms Batalovunclassified

Prospects of Using Titanium Implants With Predetermined Osteogenic Properties

Vishnevsky¹,

Казбанов²,

Batalov³

2016

Hir. pozvonoč.

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“…Microscopic evidence of tight junctions in human gingival biopsies was reported [102]. However, there were areas in the tissue where tight junctions were not detected.…”

Section: Breakdown Of the Gingival Epithelial Barriermentioning

confidence: 99%

Breaking the Gingival Epithelial Barrier: Role of the Aggregatibacter actinomycetemcomitans Cytolethal Distending Toxin in Oral Infectious Disease

DiRienzo

2014

Cells

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The Gram-negative bacterium Aggregatibacter actinomycetemcomitans is part of the HACEK group that causes infective endocarditis, a constituent of the oral flora that promotes some forms of periodontal disease and a member of the family of species that secrete a cytolethal distending toxin (Cdt). The family of bacteria that express the cdt genes participate in diseases that involve the disruption of a mucosal or epithelial layer. In vitro studies have shown that human gingival epithelial cells (HGEC) are native targets of the Cdt that typically induces DNA damage that signals growth arrest at the G2/M interphase of the cell cycle. The gingival epithelium is an early line of defense in the oral cavity against microbial assault. When damaged, bacteria collectively gain entry into the underlying connective tissue where microbial products can affect processes and pathways in infiltrating inflammatory cells culminating in the destruction of the attachment apparatus of the tooth. One approach has been the use of an ex vivo gingival explant model to assess the effects of the Cdt on the morphology and integrity of the tissue. The goal of this review is to provide an overview of these studies and to critically examine the potential contribution of the Cdt to the breakdown of the protective gingival barrier.

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Transepithelial electrical resistance and tight junctions of human gingival keratinocvtes

Cited by 35 publications

References 44 publications

Obstructive sleep apnea and cognitive impairment: Addressing the blood–brain barrier

Obstructive sleep apnea and cognitive impairment: Addressing the blood–brain barrier

Prospects of Using Titanium Implants With Predetermined Osteogenic Properties

Breaking the Gingival Epithelial Barrier: Role of the Aggregatibacter actinomycetemcomitans Cytolethal Distending Toxin in Oral Infectious Disease

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