scholarly journals Disruption in the Blood-Brain Barrier: The Missing Link between Brain and Body Inflammation in Bipolar Disorder?

2015 ◽  
Vol 2015 ◽  
pp. 1-12 ◽  
Author(s):  
Jay P. Patel ◽  
Benicio N. Frey
Keyword(s):  
Bipolar Disorder ◽  
Blood Brain Barrier ◽  
Peripheral Blood ◽  
Critical Role ◽  
Brain Barrier ◽  
Inflammatory Conditions ◽  
Blood Brain ◽  
The Central Nervous System ◽  
The Brain

The blood-brain barrier (BBB) regulates the transport of micro- and macromolecules between the peripheral blood and the central nervous system (CNS) in order to maintain optimal levels of essential nutrients and neurotransmitters in the brain. In addition, the BBB plays a critical role protecting the CNS against neurotoxins. There has been growing evidence that BBB disruption is associated with brain inflammatory conditions such as Alzheimer’s disease and multiple sclerosis. Considering the increasing role of inflammation and oxidative stress in the pathophysiology of bipolar disorder (BD), here we propose a novel model wherein transient or persistent disruption of BBB integrity is associated with decreased CNS protection and increased permeability of proinflammatory (e.g., cytokines, reactive oxygen species) substances from the peripheral blood into the brain. These events would trigger the activation of microglial cells and promote localized damage to oligodendrocytes and the myelin sheath, ultimately compromising myelination and the integrity of neural circuits. The potential implications for research in this area and directions for future studies are discussed.

Evaluation of the effect of stress on the blood–brain barrier: critical role of the brain perfusion time

2001 ◽  
Vol 905 (1-2) ◽  
pp. 21-25 ◽  
Author(s):  
Haim Ovadia ◽  
Oded Abramsky ◽  
Shaul Feldman ◽  
Joseph Weidenfeld
Keyword(s):  
Blood Brain Barrier ◽  
Critical Role ◽  
Brain Perfusion ◽  
Brain Barrier ◽  
Blood Brain ◽  
Perfusion Time ◽  
The Brain

scholarly journals The Potential Roles of Blood–Brain Barrier and Blood–Cerebrospinal Fluid Barrier in Maintaining Brain Manganese Homeostasis

Nutrients ◽  
2021 ◽  
Vol 13 (6) ◽  
pp. 1833
Author(s):  
Shannon Morgan McCabe ◽  
Ningning Zhao
Keyword(s):  
Cerebrospinal Fluid ◽  
Blood Brain Barrier ◽  
Blood Circulation ◽  
Critical Role ◽  
Systemic Circulation ◽  
Brain Parenchyma ◽  
Brain Barrier ◽  
Blood Brain ◽  
The Brain

Manganese (Mn) is a trace nutrient necessary for life but becomes neurotoxic at high concentrations in the brain. The brain is a “privileged” organ that is separated from systemic blood circulation mainly by two barriers. Endothelial cells within the brain form tight junctions and act as the blood–brain barrier (BBB), which physically separates circulating blood from the brain parenchyma. Between the blood and the cerebrospinal fluid (CSF) is the choroid plexus (CP), which is a tissue that acts as the blood–CSF barrier (BCB). Pharmaceuticals, proteins, and metals in the systemic circulation are unable to reach the brain and spinal cord unless transported through either of the two brain barriers. The BBB and the BCB consist of tightly connected cells that fulfill the critical role of neuroprotection and control the exchange of materials between the brain environment and blood circulation. Many recent publications provide insights into Mn transport in vivo or in cell models. In this review, we will focus on the current research regarding Mn metabolism in the brain and discuss the potential roles of the BBB and BCB in maintaining brain Mn homeostasis.

scholarly journals Characterization of the Blood–Brain Barrier Integrity and the Brain Transport of SN-38 in an Orthotopic Xenograft Rat Model of Diffuse Intrinsic Pontine Glioma

Pharmaceutics ◽  
2020 ◽  
Vol 12 (5) ◽  
pp. 399 ◽  
Author(s):  
Catarina Chaves ◽  
Xavier Declèves ◽  
Meryam Taghi ◽  
Marie-Claude Menet ◽  
Joelle Lacombe ◽  
...  
Keyword(s):  
Blood Brain Barrier ◽  
Diffuse Intrinsic Pontine Glioma ◽  
Brain Barrier ◽  
Brain Delivery ◽  
Pontine Glioma ◽  
Anticancer Drug Delivery ◽  
Blood Brain ◽  
The Brain

The blood–brain barrier (BBB) hinders the brain delivery of many anticancer drugs. In pediatric patients, diffuse intrinsic pontine glioma (DIPG) represents the main cause of brain cancer mortality lacking effective drug therapy. Using sham and DIPG-bearing rats, we analyzed (1) the brain distribution of 3-kDa-Texas red-dextran (TRD) or [14C]-sucrose as measures of BBB integrity, and (2) the role of major ATP-binding cassette (ABC) transporters at the BBB on the efflux of the irinotecan metabolite [3H]-SN-38. The unaffected [14C]-sucrose or TRD distribution in the cerebrum, cerebellum, and brainstem regions in DIPG-bearing animals suggests an intact BBB. Targeted proteomics retrieved no change in P-glycoprotein (P-gp), BCRP, MRP1, and MRP4 levels in the analyzed regions of DIPG rats. In vitro, DIPG cells express BCRP but not P-gp, MRP1, or MRP4. Dual inhibition of P-gp/Bcrp, or Mrp showed a significant increase on SN-38 BBB transport: Cerebrum (8.3-fold and 3-fold, respectively), cerebellum (4.2-fold and 2.8-fold), and brainstem (2.6-fold and 2.2-fold). Elacridar increased [3H]-SN-38 brain delivery beyond a P-gp/Bcrp inhibitor effect alone, emphasizing the role of another unidentified transporter in BBB efflux of SN-38. These results confirm a well-preserved BBB in DIPG-bearing rats, along with functional ABC-transporter expression. The development of chemotherapeutic strategies to circumvent ABC-mediated BBB efflux are needed to improve anticancer drug delivery against DIPG.

scholarly journals Blood-brain barrier behavior during temporary concussion

1960 ◽  
Vol 198 (6) ◽  
pp. 1296-1298 ◽  
Author(s):  
Benedict Cassen ◽  
Richard Neff
Keyword(s):  
Central Nervous System ◽  
Blood Brain Barrier ◽  
Normal Activity ◽  
Brain Barrier ◽  
Electrolyte Balance ◽  
Barrier Membranes ◽  
Phosphate Ions ◽  
Blood Brain ◽  
The Central Nervous System ◽  
The Brain

Experimental evidence is obtained that, coincident with a state of not too severe concussion, the blood-brain barrier system becomes more permeable to phosphate ions. The permeability returns to normal when the animal recovers and shows normal activity. Arguments are presented in favor of the hypothesis that dysfunction of the central nervous system during concussion is related to a disturbed electrolyte balance in the fluids of the brain caused by a piezochemical disturbance of the blood-brain barrier membranes (presumably the astropods of the astrocytic cells).

scholarly journals Age-Associated Changes in the Immune System and Blood–Brain Barrier Functions

2019 ◽  
Vol 20 (7) ◽  
pp. 1632 ◽  
Author(s):  
Michelle Erickson ◽  
William Banks
Keyword(s):  
Central Nervous System ◽  
Immune System ◽  
Blood Brain Barrier ◽  
Neurological Disorders ◽  
Brain Barrier ◽  
Immune Functions ◽  
Blood Brain ◽  
The Brain ◽  
Brain Barriers

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.

scholarly journals Photostimulation of Extravasation of Beta-Amyloid through the Model of Blood-Brain Barrier

Electronics ◽  
2020 ◽  
Vol 9 (6) ◽  
pp. 1056
Author(s):  
Ekaterina Zinchenko ◽  
Maria Klimova ◽  
Aysel Mamedova ◽  
Ilana Agranovich ◽  
Inna Blokhina ◽  
...  
Keyword(s):  
Blood Brain Barrier ◽  
Beta Amyloid ◽  
Brain Barrier ◽  
Therapeutic Effects ◽  
Cervical Lymph Nodes ◽  
Blood Brain ◽  
The Central Nervous System ◽  
Vitro Model ◽  
The Brain

Alzheimer’s disease (AD) is an incurable pathology associated with progressive decline in memory and cognition. Phototherapy might be a new promising and alternative strategy for the effective treatment of AD, and has been actively discussed over two decades. However, the mechanisms of therapeutic photostimulation (PS) effects on subjects with AD remain poorly understood. The goal of this study was to determine the mechanisms of therapeutic PS effects in beta-amyloid (Aβ)-injected mice. The neurological severity score and the new object recognition tests demonstrate that PS 9 J/cm2 attenuates the memory and neurological deficit in mice with AD. The immunohistochemical assay revealed a decrease in the level of Aβ in the brain and an increase of Aβ in the deep cervical lymph nodes obtained from mice with AD after PS. Using the in vitro model of the blood-brain barrier (BBB), we show a PS-mediated decrease in transendothelial resistance and in the expression of tight junction proteins as well an increase in the BBB permeability to Aβ. These findings suggest that a PS-mediated BBB opening and the activation of the lymphatic clearance of Aβ from the brain might be a crucial mechanism underlying therapeutic effects of PS in mice with AD. These pioneering data open new strategies in the development of non-pharmacological methods for therapy of AD and contribute to a better understanding of the PS effects on the central nervous system.

scholarly journals Tembusu Virus entering the central nervous system caused nonsuppurative encephalitis without disrupting the blood-brain barrier

2021 ◽  
Author(s):  
Sheng Yang ◽  
Yufei Huang ◽  
Yonghong Shi ◽  
Xuebing Bai ◽  
Ping Yang ◽  
...  
Keyword(s):  
Central Nervous System ◽  
Nervous System ◽  
Blood Brain Barrier ◽  
Neurological Symptoms ◽  
Brain Barrier ◽  
Poultry Industry ◽  
Blood Brain ◽  
The Central Nervous System ◽  
Tembusu Virus ◽  
The Brain

Tembusu Virus (TMUV) is an emerging and re-emerging zoonotic pathogen that adversely affects poultry industry in recent years. TMUV disease is characterized by nonsuppurative encephalitis in ducklings. The duckling infection model was established to study the mechanism of TMUV crossing the blood-brain barrier (BBB) into the central nervous system (CNS). Here, we showed that no obvious clinical symptoms and enhancement of BBB permeability occurred at the early stage of infection (3∼5 dpi). While simultaneously virus particles were observed by transmission electron microscopy in the brain, inducing the accumulation of inflammatory cytokines. Neurological symptoms and disruption of BBB appeared at the intermediate stage of infection (7∼9 dpi). It was confirmed that TMUV could survive and propagate in brain microvascular endothelial cells (BMECs), but did not affect the permeability of BBB in vivo and in vitro at an early date. In conclusion, TMUV enters the CNS then causes encephalitis, and finally destruct the BBB, which may be due to the direct effect of TMUV on BMECs and the subsequent response of “inflammatory storm”. IMPORTANCE The TMUV disease has caused huge losses to the poultry industry in Asia, which is potentially harmful to public health. Neurological symptoms and their sequelae are the main characters of this disease. However, the mechanism of how this virus enters the brain and causes encephalitis is unclear. In this study, we confirmed that the virus entered the CNS and then massively destroyed BBB and the BBB damage was closely associated with the subsequent outbreak of inflammation. TMUV may enter the CNS through the transcellular and “Trojan horse” pathways. These findings can fill the knowledge gap in the pathogenesis of TMUV-infected poultry and be benefit for the treatment of TMUV disease. What’s more, TMUV is a representative to study the infection of avian flavivirus. Therefore, our studies have significances both for understanding of the full scope of mechanisms of TMUV and other flavivirus infection, and conceivably, for therapeutics.

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