Brain-Specific Ultrastructure of Capillary Endothelial Glycocalyx and Its Possible Contribution for Blood Brain Barrier

Ando, Yoshiaki; Okada, Hideshi; Takemura, Genzou; Suzuki, Kodai; Takada, Chihiro; Tomita, Hiroyuki; Zaikokuji, Ryogen; Hotta, Yasuaki; Miyazaki, Nagisa; Yano, Hirohisa; Muraki, Isamu; Kuroda, Ayumi; Fukuda, Hirotsugu; Kawasaki, Yuki; Okamoto, Haruka; Kawaguchi, Tomonori; Watanabe, Takatomo; Doi, Tomoaki; Yoshida, Takahiro; Ushikoshi, Hiroaki; Yoshida, Shozo; Ogura, Shinji

doi:10.1038/s41598-018-35976-2

Cited by 144 publications

(182 citation statements)

References 40 publications

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“…We recently reported that the structures of the endothelial glycocalyx differ greatly among the brain, heart, and lung. 23 In this report, the pulmonary capillary glycocalyx is constructed of a thin layer; therefore, it is particularly difficult to detect its structure without ultrastructural imaging. Likewise, in a quantitative assessment of protein expression by Western blot analysis, it is impossible to confirm that the endothelial glycocalyx actually exists on the inner surface of the vascular endothelium.…”

Section: Discussionmentioning

confidence: 99%

Neutrophil Elastase Damages the Pulmonary Endothelial Glycocalyx in Lipopolysaccharide-Induced Experimental Endotoxemia

Suzuki

Okada

Takemura

et al. 2019

The American Journal of Pathology

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Section: Discussionmentioning

confidence: 99%

Neutrophil Elastase Damages the Pulmonary Endothelial Glycocalyx in Lipopolysaccharide-Induced Experimental Endotoxemia

Suzuki

Okada

Takemura

et al. 2019

The American Journal of Pathology

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“…The luminal surface of the capillary endothelium is covered by the EC glycocalyx (Ausprunk et al, 1981a, b; Pillinger and Kam, 2017). Brain ECs have a denser glycocalyx than peripheral vasculature; average glycocalyx coverage is 40.1% in brain vessels compared with 15.1% and 3.2% in cardiac and pulmonary vessels, respectively (Ando et al, 2018). This dense network of luminal glycoproteins prevents larger molecules from interacting with the EC.…”

Section: The Nvumentioning

confidence: 99%

The blood–brain barrier in health and disease: Important unanswered questions

Profaci

Munji

Pulido

et al. 2020

Journal of Experimental Medicine

471

358

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The blood vessels vascularizing the central nervous system exhibit a series of distinct properties that tightly control the movement of ions, molecules, and cells between the blood and the parenchyma. This “blood–brain barrier” is initiated during angiogenesis via signals from the surrounding neural environment, and its integrity remains vital for homeostasis and neural protection throughout life. Blood–brain barrier dysfunction contributes to pathology in a range of neurological conditions including multiple sclerosis, stroke, and epilepsy, and has also been implicated in neurodegenerative diseases such as Alzheimer’s disease. This review will discuss current knowledge and key unanswered questions regarding the blood–brain barrier in health and disease.

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“…9). Recently, the brain's NVU ecGCx has been beautifully studied, visualized and documented by lanthanum nitrate staining by both transmission electron microcopy (TEM) and scanning electron microscopy (SEM) making this EC surface coating layer visible even though TEM preparations undergo numerous dehydration steps [67]. The perfusion fixation with lanthanum nitrate presacrifice allows the ecGCx to be beautifully stained and visualized with TEM and SEM studies from cortical brain regions of the C57B6 mice ( Fig.…”

Section: Endothelial Glycocalyx (Ecgcx)mentioning

confidence: 99%

Type 2 Diabetes Mellitus Increases The Risk of Late-Onset Alzheimer’s Disease: Ultrastructural Remodeling of the Neurovascular Unit and Diabetic Gliopathy

Hayden¹

2019

Preprint

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Type 2 diabetes mellitus (T2DM) and late-onset Alzheimer’s disease-dementia (LOAD) are increasing in global prevalence and current predictions indicate they will only increase over the coming decades. These increases may be a result of the concurrent increases of obesity and aging. T2DM is associated with cognitive impairments associated with metabolic factors and increases the cellular vulnerability to develop the age-related increased risk of LOAD. This review addresses possible mechanisms due to obesity, aging, multiple intersections between T2DM and LOAD and mechanisms for the continuum of progression. Multiple ultrastructural images in female diabetic db/db models are utilized to demonstrate marked cellular remodeling changes of mural and glia cells and provide for the discussion of functional changes in T2DM. Throughout this review multiple endeavors to demonstrate how T2DM increases the vulnerability of the brain’s neurovascular unit (NVU), neuroglia and neurons are presented. Five major intersecting links are considered: i. aging (chronic age-related diseases); ii. metabolic (hyperglycemia - advanced glycation end-products and its receptor (AGE/RAGE) interactions and hyperinsulinemia – insulin resistance (a linking linchpin); iii. oxidative stress (reactive oxygen-nitrogen species); iv. inflammation (peripheral macrophage and central brain microglia); v. vascular (macrovascular accelerated atherosclerosis - vascular stiffening and microvascular NVU/neuroglial remodeling) with resulting impaired cerebral blood flow.

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Brain-Specific Ultrastructure of Capillary Endothelial Glycocalyx and Its Possible Contribution for Blood Brain Barrier

Cited by 144 publications

References 40 publications

Neutrophil Elastase Damages the Pulmonary Endothelial Glycocalyx in Lipopolysaccharide-Induced Experimental Endotoxemia

Neutrophil Elastase Damages the Pulmonary Endothelial Glycocalyx in Lipopolysaccharide-Induced Experimental Endotoxemia

The blood–brain barrier in health and disease: Important unanswered questions

Type 2 Diabetes Mellitus Increases The Risk of Late-Onset Alzheimer’s Disease: Ultrastructural Remodeling of the Neurovascular Unit and Diabetic Gliopathy

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