Role of Histaminergic System in Blood–Brain Barrier Dysfunction Associated with Neurological Disorders

Age is associated with altered immune functions that may affect the brain. Brain barriers, including the blood–brain barrier (BBB) and blood–CSF barrier (BCSFB), are important interfaces for neuroimmune communication, and are affected by aging. In this review, we explore novel mechanisms by which the aging immune system alters central nervous system functions and neuroimmune responses, with a focus on brain barriers. Specific emphasis will be on recent works that have identified novel mechanisms by which BBB/BCSFB functions change with age, interactions of the BBB with age-associated immune factors, and contributions of the BBB to age-associated neurological disorders. Understanding how age alters BBB functions and responses to pathological insults could provide important insight on the role of the BBB in the progression of cognitive decline and neurodegenerative disease.

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Review: Role of developmental inflammation and blood-brain barrier dysfunction in neurodevelopmental and neurodegenerative diseases

Neuropathology and Applied Neurobiology ◽

10.1111/j.1365-2990.2008.01005.x ◽

2009 ◽

Vol 35 (2) ◽

pp. 132-146 ◽

Cited By ~ 130

Author(s):

H. B. Stolp ◽

K. M. Dziegielewska

Keyword(s):

Neurodegenerative Diseases ◽

Blood Brain Barrier ◽

Brain Barrier ◽

Barrier Dysfunction ◽

Blood Brain

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The Dual Role of Microglia in Blood-Brain Barrier Dysfunction after Stroke

Current Neuropharmacology ◽

10.2174/1570159x18666200529150907 ◽

2020 ◽

Vol 18 (12) ◽

pp. 1237-1249 ◽

Cited By ~ 1

Author(s):

Ruiqing Kang ◽

Marcin Gamdzyk ◽

Cameron Lenahan ◽

Jiping Tang ◽

Sheng Tan ◽

...

Keyword(s):

Endothelial Cells ◽

Blood Brain Barrier ◽

Vital Role ◽

Dual Role ◽

Brain Barrier ◽

Barrier Dysfunction ◽

Blood Brain ◽

M2 Microglia ◽

The Brain

It is well-known that stroke is one of the leading causes of death and disability all over the world. After a stroke, the blood-brain barrier subsequently breaks down. The BBB consists of endothelial cells surrounded by astrocytes. Microglia, considered the long-living resident immune cells of the brain, play a vital role in BBB function. M1 microglia worsen BBB disruption, while M2 microglia assist in repairing BBB damage. Microglia can also directly interact with endothelial cells and affect BBB permeability. In this review, we are going to discuss the mechanisms responsible for the dual role of microglia in BBB dysfunction after stroke.

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Role of endothelial TRPA1 expression in blood‐brain barrier dysfunction

Alzheimer s & Dementia ◽

10.1002/alz.058550 ◽

2021 ◽

Vol 17 (S2) ◽

Author(s):

Euitaek Yang ◽

Amal Kaddoumi

Keyword(s):

Blood Brain Barrier ◽

Brain Barrier ◽

Barrier Dysfunction ◽

Blood Brain

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The Role of Brain Microvascular Endothelial Cell and Blood-Brain Barrier Dysfunction in Schizophrenia

Complex Psychiatry ◽

10.1159/000511552 ◽

2020 ◽

Vol 6 (1-2) ◽

pp. 30-46

Author(s):

Sovannarath Pong ◽

Rakesh Karmacharya ◽

Marianna Sofman ◽

Jeffrey R. Bishop ◽

Paulo Lizano

Keyword(s):

Blood Brain Barrier ◽

Association Studies ◽

Central Element ◽

Brain Barrier ◽

Microvascular Endothelial Cell ◽

Genome Wide Association Studies ◽

Barrier Dysfunction ◽

Blood Brain ◽

Microvascular Endothelial

Background: Despite decades of research, little clarity exists regarding pathogenic mechanisms related to schizophrenia. Investigations on the disease biology of schizophrenia have primarily focused on neuronal alterations. However, there is substantial evidence pointing to a significant role for the brain’s microvasculature in mediating neuroinflammation in schizophrenia. Summary: Brain microvascular endothelial cells (BMEC) are a central element of the microvasculature that forms the blood-brain barrier (BBB) and shields the brain against toxins and immune cells via paracellular, transcellular, transporter, and extracellular matrix proteins. While evidence for BBB dysfunction exists in brain disorders, including schizophrenia, it is not known if BMEC themselves are functionally compromised and lead to BBB dysfunction. Key Messages: Genome-wide association studies, postmortem investigations, and gene expression analyses have provided some insights into the role of the BBB in schizophrenia pathophysiology. However, there is a significant gap in our understanding of the role that BMEC play in BBB dysfunction. Recent advances differentiating human BMEC from induced pluripotent stem cells (iPSC) provide new avenues to examine the role of BMEC in BBB dysfunction in schizophrenia.

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1958-P: Role of Leptin in Blood-Brain Barrier Dysfunction

Diabetes ◽

10.2337/db19-1958-p ◽

2019 ◽

Vol 68 (Supplement 1) ◽

pp. 1958-P

Author(s):

THERESE S. SALAMEH ◽

WILLIAM MORTELL ◽

WILLIAM A. BANKS

Keyword(s):

Blood Brain Barrier ◽

Brain Barrier ◽

Barrier Dysfunction ◽

Blood Brain

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Alzheimer’s disease: A matter of blood–brain barrier dysfunction?

Journal of Experimental Medicine ◽

10.1084/jem.20171406 ◽

2017 ◽

Vol 214 (11) ◽

pp. 3151-3169 ◽

Cited By ~ 191

Author(s):

Axel Montagne ◽

Zhen Zhao ◽

Berislav V. Zlokovic

Keyword(s):

Alzheimer’S Disease ◽

Alzheimer's Disease ◽

Blood Brain Barrier ◽

Amyloid Β ◽

Brain Barrier ◽

Barrier Dysfunction ◽

Neurodegenerative Process ◽

Blood Brain ◽

Underlying Mechanisms

The blood–brain barrier (BBB) keeps neurotoxic plasma-derived components, cells, and pathogens out of the brain. An early BBB breakdown and/or dysfunction have been shown in Alzheimer’s disease (AD) before dementia, neurodegeneration and/or brain atrophy occur. However, the role of BBB breakdown in neurodegenerative disorders is still not fully understood. Here, we examine BBB breakdown in animal models frequently used to study the pathophysiology of AD, including transgenic mice expressing human amyloid-β precursor protein, presenilin 1, and tau mutations, and apolipoprotein E, the strongest genetic risk factor for AD. We discuss the role of BBB breakdown and dysfunction in neurodegenerative process, pitfalls in BBB measurements, and how targeting the BBB can influence the course of neurological disorder. Finally, we comment on future approaches and models to better define, at the cellular and molecular level, the underlying mechanisms between BBB breakdown and neurodegeneration as a basis for developing new therapies for BBB repair to control neurodegeneration.

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