Chapter 16: Intracerebral grafting of solid tissues and cell suspensions: the blood-brain barrier and host immune response

1992 ◽  
pp. 95-102 ◽  
Author(s):  
Richard D. Broadwell ◽  
Belinda J. Baker ◽  
Paul Ebert ◽  
William F. Rickey ◽  
Juan Villegas
Keyword(s):  
Immune Response ◽  
Blood Brain Barrier ◽  
Host Immune Response ◽  
Cell Suspensions ◽  
Brain Barrier ◽  
Blood Brain ◽  
Solid Tissues

scholarly journals Vascular pathology in multiple sclerosis: reframing pathogenesis around the blood-brain barrier

2017 ◽  
Vol 89 (1) ◽  
pp. 42-52 ◽  
Author(s):  
Jonathan I Spencer ◽  
Jack S Bell ◽  
Gabriele C DeLuca
Keyword(s):  
Multiple Sclerosis ◽  
Immune Response ◽  
Blood Brain Barrier ◽  
Immune Cell ◽  
Neurological Diseases ◽  
Specific Immune Response ◽  
Brain Barrier ◽  
Vascular Pathology ◽  
Current Evidence ◽  
Blood Brain

Blood-brain barrier (BBB) disruption has long been recognised as an important early feature of multiple sclerosis (MS) pathology. Traditionally, this has been seen as a by-product of the myelin-specific immune response. Here, we consider whether vascular changes instead play a central role in disease pathogenesis, rather than representing a secondary effect of neuroinflammation or neurodegeneration. Importantly, this is not necessarily mutually exclusive from current hypotheses. Vascular pathology in a genetically predisposed individual, influenced by environmental factors such as pathogens, hypovitaminosis D and smoking, may be a critical initiator of a series of events including hypoxia, protein deposition and immune cell egress that allows the development of a CNS-specific immune response and the classical pathological and clinical hallmarks of disease. We review the changes that occur in BBB function and cerebral perfusion in patients with MS and highlight genetic and environmental risk factors that, in addition to modulating immune function, may also converge to act on the vasculature. Further context is provided by contrasting these changes with other neurological diseases in which there is also BBB malfunction, and highlighting current disease-modifying therapies that may also have an effect on the BBB. Indeed, in reframing current evidence in this model, the vasculature could become an important therapeutic target in MS.

scholarly journals The peripheral immune response after stroke—A double edge sword for blood‐brain barrier integrity

2018 ◽  
Vol 24 (12) ◽  
pp. 1115-1128 ◽  
Author(s):  
Yan Li ◽  
Zi‐Yu Zhu ◽  
Ting‐Ting Huang ◽  
Yu‐Xi Zhou ◽  
Xin Wang ◽  
...  
Keyword(s):  
Immune Response ◽  
Blood Brain Barrier ◽  
Brain Barrier ◽  
Barrier Integrity ◽  
Blood Brain ◽  
Double Edge ◽  
Double Edge Sword ◽  
Peripheral Immune Response ◽  
Blood Brain Barrier Integrity

scholarly journals Blood–brain barrier permeable nano immunoconjugates induce local immune responses for glioma therapy

2019 ◽  
Vol 10 (1) ◽  
Author(s):  
Anna Galstyan ◽  
Janet L. Markman ◽  
Ekaterina S. Shatalova ◽  
Antonella Chiechi ◽  
Alan J. Korman ◽  
...  
Keyword(s):  
Immune Response ◽  
T Cells ◽  
Brain Tumor ◽  
Blood Brain Barrier ◽  
Cytotoxic T Lymphocyte ◽  
Checkpoint Inhibitor ◽  
Checkpoint Inhibitors ◽  
Brain Barrier ◽  
Systemic Delivery ◽  
Blood Brain

AbstractBrain glioma treatment with checkpoint inhibitor antibodies to cytotoxic T-lymphocyte-associated antigen 4 (a-CTLA-4) and programmed cell death-1 (a-PD-1) was largely unsuccessful due to their inability to cross blood–brain barrier (BBB). Here we describe targeted nanoscale immunoconjugates (NICs) on natural biopolymer scaffold, poly(β-L-malic acid), with covalently attached a-CTLA-4 or a-PD-1 for systemic delivery across the BBB and activation of local brain anti-tumor immune response. NIC treatment of mice bearing intracranial GL261 glioblastoma (GBM) results in an increase of CD8+ T cells, NK cells and macrophages with a decrease of regulatory T cells (Tregs) in the brain tumor area. Survival of GBM-bearing mice treated with NIC combination is significantly longer compared to animals treated with single checkpoint inhibitor-bearing NICs or free a-CTLA-4 and a-PD-1. Our study demonstrates trans-BBB delivery of tumor-targeted polymer-conjugated checkpoint inhibitors as an effective GBM treatment via activation of both systemic and local privileged brain tumor immune response.

scholarly journals Nano immunoconjugates crossing blood-brain barrier activate local brain tumor immune system for glioma treatment

2018 ◽  
Author(s):  
Anna Galstyan ◽  
Antonella Chiechi ◽  
Alan J. Korman ◽  
Tao Sun ◽  
Liron L. Israel ◽  
...  
Keyword(s):  
Immune Response ◽  
Brain Tumor ◽  
Blood Brain Barrier ◽  
T Regulatory Cells ◽  
Cytotoxic T Lymphocyte ◽  
Checkpoint Inhibitor ◽  
Checkpoint Inhibitors ◽  
Brain Barrier ◽  
Blood Brain ◽  
Local Brain

AbstractTreatment of brain gliomas with checkpoint inhibitor antibodies to cytotoxic T-lymphocyte-associated antigen 4 (a-CTLA-4) and programmed cell death-1 (a-PD-1) was largely unsuccessful due to their inability to cross the blood-brain barrier (BBB). We describe a new generation of nano immunoconjugates (NICs) developed on natural biopolymer scaffold, poly(β-L-malic acid), with covalently attached a-CTLA-4 and/or a-PD-1 for delivery across the BBB and activation of local brain anti-tumor immune response in glioma-bearing mice. NIC treatment of mice bearing intracranial GL261 glioblastoma (GBM) resulted in an increase of CD8+ T-cells with a decrease of T regulatory cells (Tregs) in the brain tumor area. Survival of GBM-bearing mice treated with combination of NICs was significantly longer compared to animals treated by single checkpoint inhibitor-bearing NICs or free a-CTLA-4 and a-PD-1. Our study demonstrates trans-BBB delivery of nanopolymer-conjugated checkpoint inhibitors as an effective treatment of GBM via activation of both systemic and local brain tumor immune response.

scholarly journals Failure To Open the Blood-Brain Barrier and Deliver Immune Effectors to Central Nervous System Tissues Leads to the Lethal Outcome of Silver-Haired Bat Rabies Virus Infection

2006 ◽  
Vol 81 (3) ◽  
pp. 1110-1118 ◽  
Author(s):  
Anirban Roy ◽  
Timothy W. Phares ◽  
Hilary Koprowski ◽  
D. Craig Hooper
Keyword(s):  
Central Nervous System ◽  
Immune Response ◽  
Nervous System ◽  
Blood Brain Barrier ◽  
Rabies Virus ◽  
Neutralizing Antibodies ◽  
Clinical Symptoms ◽  
The United States ◽  
Brain Barrier ◽  
Blood Brain

ABSTRACT Rabies is a lethal disease caused by neurotropic viruses that are endemic in nature. When exposure to a potentially rabid animal is recognized, prompt administration of virus-neutralizing antibodies, together with active immunization, can prevent development of the disease. However, once the nonspecific clinical symptoms of rabies appear conventional postexposure treatment is unsuccessful. Over the last decade, rabies viruses associated with the silver-haired bat (SHBRV) have emerged as the leading cause of human deaths from rabies in the United States and Canada as a consequence of the fact that exposure to these viruses is often unnoticed. The need to treat SHBRV infection following the development of clinical rabies has lead us to investigate why the immune response to SHBRV fails to protect at a certain stage of infection. We have established that measurements of innate and adaptive immunity are indistinguishable between mice infected with the highly lethal SHBRV and mice infected with an attenuated laboratory rabies virus strain. While a fully functional immune response to SHBRV develops in the periphery of infected animals, the invasion of central nervous system (CNS) tissues by immune cells is reduced and, consequently, the virus is not cleared. Our data indicate that the specific deficit in the SHBRV-infected animal is an inability to enhance blood-brain barrier permeability in the cerebellum and deliver immune effectors to the CNS tissues. Conceivably, at the stage of infection where immune access to the infected CNS tissues is limited, either the provision or the development of antiviral immunity will be ineffective.

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