Immunomodulation by poly-YE reduces organophosphate-induced brain damage

Arseny Finkelstein; Gilad Kunis; Tamara Berkutzki; Ayal Ronen; Amir Krivoy; Eti Yoles; David Last; Yael Mardor; Kerry Van Shura; Emylee McFarland; Benedict A. Capacio; Claire Eisner; Mary Gonzales; Danise Gregorowicz; Arik Eisenkraft; John H. McDonough; Michal Schwartz

doi:10.1016/j.bbi.2011.09.002

Immunomodulation by poly-YE reduces organophosphate-induced brain damage

Arseny Finkelstein, Gilad Kunis, Tamara Berkutzki, Ayal Ronen, Amir Krivoy, Eti Yoles, David Last, Yael Mardor, Kerry Van Shura, Emylee McFarland, Benedict A. Capacio, Claire Eisner, Mary Gonzales, Danise Gregorowicz, Arik Eisenkraft, John H. McDonough, Michal Schwartz^*

^*Corresponding author for this work

Oncology

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

13 Scopus citations

Abstract

Accidental organophosphate poisoning resulting from environmental or occupational exposure, as well as the deliberate use of nerve agents on the battlefield or by terrorists, remain major threats for multi-casualty events, with no effective therapies yet available. Even transient exposure to organophosphorous compounds may lead to brain damage associated with microglial activation and to long-lasting neurological and psychological deficits. Regulation of the microglial response by adaptive immunity was previously shown to reduce the consequences of acute insult to the central nervous system (CNS). Here, we tested whether an immunization-based treatment that affects the properties of T regulatory cells (Tregs) can reduce brain damage following organophosphate intoxication, as a supplement to the standard antidotal protocol. Rats were intoxicated by acute exposure to the nerve agent soman, or the organophosphate pesticide, paraoxon, and after 24h were treated with the immunomodulator, poly-YE. A single injection of poly-YE resulted in a significant increase in neuronal survival and tissue preservation. The beneficial effect of poly-YE treatment was associated with specific recruitment of CD4 ⁺ T cells into the brain, reduced microglial activation, and an increase in the levels of brain derived neurotrophic factor (BDNF) in the piriform cortex. These results suggest therapeutic intervention with poly-YE as an immunomodulatory supplementary approach against consequences of organophosphate-induced brain damage.

Original language	English
Pages (from-to)	159-169
Number of pages	11
Journal	Brain, Behavior, and Immunity
Volume	26
Issue number	1
DOIs	https://doi.org/10.1016/j.bbi.2011.09.002
State	Published - Jan 2012

Funding

Funders	Funder number
Defense Threat Reduction Agency
Israel Defense Force
European Commission	279017

Keywords

Immune
Immunomodulation
Neuroprotection
Organophosphate
Paraoxon
Pesticide
Soman
T cells
Tregs

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.bbi.2011.09.002

Cite this

Finkelstein, A., Kunis, G., Berkutzki, T., Ronen, A., Krivoy, A., Yoles, E., Last, D., Mardor, Y., Van Shura, K., McFarland, E., Capacio, B. A., Eisner, C., Gonzales, M., Gregorowicz, D., Eisenkraft, A., McDonough, J. H., & Schwartz, M. (2012). Immunomodulation by poly-YE reduces organophosphate-induced brain damage. Brain, Behavior, and Immunity, 26(1), 159-169. https://doi.org/10.1016/j.bbi.2011.09.002

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title = "Immunomodulation by poly-YE reduces organophosphate-induced brain damage",

abstract = "Accidental organophosphate poisoning resulting from environmental or occupational exposure, as well as the deliberate use of nerve agents on the battlefield or by terrorists, remain major threats for multi-casualty events, with no effective therapies yet available. Even transient exposure to organophosphorous compounds may lead to brain damage associated with microglial activation and to long-lasting neurological and psychological deficits. Regulation of the microglial response by adaptive immunity was previously shown to reduce the consequences of acute insult to the central nervous system (CNS). Here, we tested whether an immunization-based treatment that affects the properties of T regulatory cells (Tregs) can reduce brain damage following organophosphate intoxication, as a supplement to the standard antidotal protocol. Rats were intoxicated by acute exposure to the nerve agent soman, or the organophosphate pesticide, paraoxon, and after 24h were treated with the immunomodulator, poly-YE. A single injection of poly-YE resulted in a significant increase in neuronal survival and tissue preservation. The beneficial effect of poly-YE treatment was associated with specific recruitment of CD4 + T cells into the brain, reduced microglial activation, and an increase in the levels of brain derived neurotrophic factor (BDNF) in the piriform cortex. These results suggest therapeutic intervention with poly-YE as an immunomodulatory supplementary approach against consequences of organophosphate-induced brain damage.",

keywords = "Immune, Immunomodulation, Neuroprotection, Organophosphate, Paraoxon, Pesticide, Soman, T cells, Tregs",

author = "Arseny Finkelstein and Gilad Kunis and Tamara Berkutzki and Ayal Ronen and Amir Krivoy and Eti Yoles and David Last and Yael Mardor and {Van Shura}, Kerry and Emylee McFarland and Capacio, {Benedict A.} and Claire Eisner and Mary Gonzales and Danise Gregorowicz and Arik Eisenkraft and McDonough, {John H.} and Michal Schwartz",

note = "Funding Information: The authors thank Mrs. Margalit Azulay for her devoted assistance with animal care, and Mr. Igor Makarovsky for preparation of the chemical reagents. M.S. holds the Maurice and Ilse Katz Professorial Chair in Neuroimmunology. The opinions, interpretations, conclusions, and recommendations are those of the authors and are not necessarily endorsed by the U.S. Army or the Department of Defense. This research was supported by the Israel Defense Force – Medical Corps and the Defense Threat Reduction Agency – Joint Science and Technology Office, Medical S & T Division. Appendix A ",

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doi = "10.1016/j.bbi.2011.09.002",

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Finkelstein, A, Kunis, G, Berkutzki, T, Ronen, A, Krivoy, A, Yoles, E, Last, D, Mardor, Y, Van Shura, K, McFarland, E, Capacio, BA, Eisner, C, Gonzales, M, Gregorowicz, D, Eisenkraft, A, McDonough, JH & Schwartz, M 2012, 'Immunomodulation by poly-YE reduces organophosphate-induced brain damage', Brain, Behavior, and Immunity, vol. 26, no. 1, pp. 159-169. https://doi.org/10.1016/j.bbi.2011.09.002

TY - JOUR

T1 - Immunomodulation by poly-YE reduces organophosphate-induced brain damage

AU - Finkelstein, Arseny

AU - Kunis, Gilad

AU - Berkutzki, Tamara

AU - Ronen, Ayal

AU - Krivoy, Amir

AU - Yoles, Eti

AU - Last, David

AU - Mardor, Yael

AU - Van Shura, Kerry

AU - McFarland, Emylee

AU - Capacio, Benedict A.

AU - Eisner, Claire

AU - Gonzales, Mary

AU - Gregorowicz, Danise

AU - Eisenkraft, Arik

AU - McDonough, John H.

AU - Schwartz, Michal

N1 - Funding Information: The authors thank Mrs. Margalit Azulay for her devoted assistance with animal care, and Mr. Igor Makarovsky for preparation of the chemical reagents. M.S. holds the Maurice and Ilse Katz Professorial Chair in Neuroimmunology. The opinions, interpretations, conclusions, and recommendations are those of the authors and are not necessarily endorsed by the U.S. Army or the Department of Defense. This research was supported by the Israel Defense Force – Medical Corps and the Defense Threat Reduction Agency – Joint Science and Technology Office, Medical S & T Division. Appendix A

PY - 2012/1

Y1 - 2012/1

N2 - Accidental organophosphate poisoning resulting from environmental or occupational exposure, as well as the deliberate use of nerve agents on the battlefield or by terrorists, remain major threats for multi-casualty events, with no effective therapies yet available. Even transient exposure to organophosphorous compounds may lead to brain damage associated with microglial activation and to long-lasting neurological and psychological deficits. Regulation of the microglial response by adaptive immunity was previously shown to reduce the consequences of acute insult to the central nervous system (CNS). Here, we tested whether an immunization-based treatment that affects the properties of T regulatory cells (Tregs) can reduce brain damage following organophosphate intoxication, as a supplement to the standard antidotal protocol. Rats were intoxicated by acute exposure to the nerve agent soman, or the organophosphate pesticide, paraoxon, and after 24h were treated with the immunomodulator, poly-YE. A single injection of poly-YE resulted in a significant increase in neuronal survival and tissue preservation. The beneficial effect of poly-YE treatment was associated with specific recruitment of CD4 + T cells into the brain, reduced microglial activation, and an increase in the levels of brain derived neurotrophic factor (BDNF) in the piriform cortex. These results suggest therapeutic intervention with poly-YE as an immunomodulatory supplementary approach against consequences of organophosphate-induced brain damage.

AB - Accidental organophosphate poisoning resulting from environmental or occupational exposure, as well as the deliberate use of nerve agents on the battlefield or by terrorists, remain major threats for multi-casualty events, with no effective therapies yet available. Even transient exposure to organophosphorous compounds may lead to brain damage associated with microglial activation and to long-lasting neurological and psychological deficits. Regulation of the microglial response by adaptive immunity was previously shown to reduce the consequences of acute insult to the central nervous system (CNS). Here, we tested whether an immunization-based treatment that affects the properties of T regulatory cells (Tregs) can reduce brain damage following organophosphate intoxication, as a supplement to the standard antidotal protocol. Rats were intoxicated by acute exposure to the nerve agent soman, or the organophosphate pesticide, paraoxon, and after 24h were treated with the immunomodulator, poly-YE. A single injection of poly-YE resulted in a significant increase in neuronal survival and tissue preservation. The beneficial effect of poly-YE treatment was associated with specific recruitment of CD4 + T cells into the brain, reduced microglial activation, and an increase in the levels of brain derived neurotrophic factor (BDNF) in the piriform cortex. These results suggest therapeutic intervention with poly-YE as an immunomodulatory supplementary approach against consequences of organophosphate-induced brain damage.

KW - Immune

KW - Immunomodulation

KW - Neuroprotection

KW - Organophosphate

KW - Paraoxon

KW - Pesticide

KW - Soman

KW - T cells

KW - Tregs

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Immunomodulation by poly-YE reduces organophosphate-induced brain damage

Abstract

Funding

Keywords

UN SDGs

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