Preoperative mucosal tolerance to brain antigens and a neuroprotective immune response following surgical brain injury: Laboratory investigation

Robert E. Ayer; Nazanin Jafarian; Wanqiu Chen; Richard L. Applegate; Austin R.T. Colohan; John H. Zhang

doi:10.3171/2011.8.JNS11883

Preoperative mucosal tolerance to brain antigens and a neuroprotective immune response following surgical brain injury: Laboratory investigation

Robert E. Ayer, Nazanin Jafarian, Wanqiu Chen, Richard L. Applegate, Austin R.T. Colohan, John H. Zhang

Research output: Contribution to journal › Article › peer-review

Abstract

OBJECT: Intracranial surgery causes cortical injury from incisions, hemorrhage, retraction, and electrocautery. The term "surgical brain injury" (SBI) has been developed to categorize this injury inherent to the procedure. Neuroinflammation plays a significant role in SBI. Traditional antiinflammatory therapies are often limited by their immunosuppressive side effects and poor CNS penetration. This study uses mucosal tolerance to develop an immune system that is tolerant to brain myelin basic protein (MBP) so that inflammation can be suppressed in a timely and site-specific manner following surgical disruption of the blood-brain barrier.

METHODS: A standard SBI model using CD57 mice was used. Nasopharyngeal mucosa was exposed to vehicle, ovalbumin, or MBP to develop mucosal tolerance to these antigens. Immunological tolerance to MBP was confirmed in vivo through hypersensitivity testing. Neurological scores, cerebral edema, and interleukin (IL)-1β and transforming growth factor (TGF)-β1 cytokine levels were measured 48 hours postoperatively.

RESULTS: Hypersensitivity testing confirmed the development of immune tolerance to MBP. Myelin basic protein-tolerant mice demonstrated reduced neurological injury, less cerebral edema, decreased levels of IL-1β, and increased levels of TGFβ1 following SBI.

CONCLUSIONS: Developing preoperative immunological tolerance to brain antigens through mucosal tolerance provides neuroprotection, reduces brain edema, and modulates neuroinflammation following SBI.

Original language	English
Pages (from-to)	246-253
Number of pages	8
Journal	Journal of neurosurgery
Volume	116
Issue number	1
DOIs	https://doi.org/10.3171/2011.8.JNS11883
State	Published - Jan 2012

ASJC Scopus Subject Areas

Surgery
Clinical Neurology

Keywords

Mouse
Mucosal tolerance
Neuroprotection
Surgical brain injury
Traumatic brain injury
Encephalitis/immunology
Myelin Basic Protein/metabolism
Immunity, Mucosal
Immune Tolerance/immunology
Brain/immunology
Brain Edema/immunology
Animals
Mice
Cytokines/metabolism
Brain Injuries/immunology

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title = "Preoperative mucosal tolerance to brain antigens and a neuroprotective immune response following surgical brain injury: Laboratory investigation",

abstract = "OBJECT: Intracranial surgery causes cortical injury from incisions, hemorrhage, retraction, and electrocautery. The term {"}surgical brain injury{"} (SBI) has been developed to categorize this injury inherent to the procedure. Neuroinflammation plays a significant role in SBI. Traditional antiinflammatory therapies are often limited by their immunosuppressive side effects and poor CNS penetration. This study uses mucosal tolerance to develop an immune system that is tolerant to brain myelin basic protein (MBP) so that inflammation can be suppressed in a timely and site-specific manner following surgical disruption of the blood-brain barrier.METHODS: A standard SBI model using CD57 mice was used. Nasopharyngeal mucosa was exposed to vehicle, ovalbumin, or MBP to develop mucosal tolerance to these antigens. Immunological tolerance to MBP was confirmed in vivo through hypersensitivity testing. Neurological scores, cerebral edema, and interleukin (IL)-1β and transforming growth factor (TGF)-β1 cytokine levels were measured 48 hours postoperatively.RESULTS: Hypersensitivity testing confirmed the development of immune tolerance to MBP. Myelin basic protein-tolerant mice demonstrated reduced neurological injury, less cerebral edema, decreased levels of IL-1β, and increased levels of TGFβ1 following SBI.CONCLUSIONS: Developing preoperative immunological tolerance to brain antigens through mucosal tolerance provides neuroprotection, reduces brain edema, and modulates neuroinflammation following SBI.",

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AU - Colohan, Austin R.T.

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N2 - OBJECT: Intracranial surgery causes cortical injury from incisions, hemorrhage, retraction, and electrocautery. The term "surgical brain injury" (SBI) has been developed to categorize this injury inherent to the procedure. Neuroinflammation plays a significant role in SBI. Traditional antiinflammatory therapies are often limited by their immunosuppressive side effects and poor CNS penetration. This study uses mucosal tolerance to develop an immune system that is tolerant to brain myelin basic protein (MBP) so that inflammation can be suppressed in a timely and site-specific manner following surgical disruption of the blood-brain barrier.METHODS: A standard SBI model using CD57 mice was used. Nasopharyngeal mucosa was exposed to vehicle, ovalbumin, or MBP to develop mucosal tolerance to these antigens. Immunological tolerance to MBP was confirmed in vivo through hypersensitivity testing. Neurological scores, cerebral edema, and interleukin (IL)-1β and transforming growth factor (TGF)-β1 cytokine levels were measured 48 hours postoperatively.RESULTS: Hypersensitivity testing confirmed the development of immune tolerance to MBP. Myelin basic protein-tolerant mice demonstrated reduced neurological injury, less cerebral edema, decreased levels of IL-1β, and increased levels of TGFβ1 following SBI.CONCLUSIONS: Developing preoperative immunological tolerance to brain antigens through mucosal tolerance provides neuroprotection, reduces brain edema, and modulates neuroinflammation following SBI.

AB - OBJECT: Intracranial surgery causes cortical injury from incisions, hemorrhage, retraction, and electrocautery. The term "surgical brain injury" (SBI) has been developed to categorize this injury inherent to the procedure. Neuroinflammation plays a significant role in SBI. Traditional antiinflammatory therapies are often limited by their immunosuppressive side effects and poor CNS penetration. This study uses mucosal tolerance to develop an immune system that is tolerant to brain myelin basic protein (MBP) so that inflammation can be suppressed in a timely and site-specific manner following surgical disruption of the blood-brain barrier.METHODS: A standard SBI model using CD57 mice was used. Nasopharyngeal mucosa was exposed to vehicle, ovalbumin, or MBP to develop mucosal tolerance to these antigens. Immunological tolerance to MBP was confirmed in vivo through hypersensitivity testing. Neurological scores, cerebral edema, and interleukin (IL)-1β and transforming growth factor (TGF)-β1 cytokine levels were measured 48 hours postoperatively.RESULTS: Hypersensitivity testing confirmed the development of immune tolerance to MBP. Myelin basic protein-tolerant mice demonstrated reduced neurological injury, less cerebral edema, decreased levels of IL-1β, and increased levels of TGFβ1 following SBI.CONCLUSIONS: Developing preoperative immunological tolerance to brain antigens through mucosal tolerance provides neuroprotection, reduces brain edema, and modulates neuroinflammation following SBI.

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Preoperative mucosal tolerance to brain antigens and a neuroprotective immune response following surgical brain injury: Laboratory investigation

Abstract

ASJC Scopus Subject Areas

Keywords

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