Platelets mediate protective neuroinflammation and promote neuronal plasticity at the site of neuronal injury

Marina Dukhinova; Inna Kuznetsova; Ekaterina Kopeikina; Ekaterina Veniaminova; Amanda W. Y. Yung; Tatyana Veremeyko; Kseniia Levchuk; Natasha S. Barteneva; Kenny Kam Wing-Ho; Wing-Ho Yung; Julia Y. H. Liu; John Rudd; Sonata S. Y. Yau; Daniel C. Anthony; Tatyana Strekalova; Eugene D. Ponomarev

doi:10.1016/j.bbi.2018.09.009

Platelets mediate protective neuroinflammation and promote neuronal plasticity at the site of neuronal injury

Marina Dukhinova, Inna Kuznetsova, Ekaterina Kopeikina, Ekaterina Veniaminova, Amanda W. Y. Yung, Tatyana Veremeyko, Kseniia Levchuk, Natasha S. Barteneva, Kenny Kam Wing-Ho, Wing-Ho Yung, Julia Y. H. Liu, John Rudd, Sonata S. Y. Yau, Daniel C. Anthony, Tatyana Strekalova, Eugene D. Ponomarev^*

^*Corresponding author for this work

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

31 Citations (Web of Science)

Abstract

It is generally accepted that inflammation within the CNS contributes to neurodegeneration after traumatic brain injury (TBI), but it is not clear how inflammation is initiated in the absence of infection and whether this neuroinflammation is predominantly beneficial or detrimental. We have previously found that brain-enriched glycosphingolipids within neuronal lipid rafts (NLR) induced platelet degranulation and secretion of neuro-transmitters and pro-inflammatory factors. In the present study, we compared TBI-induced inflammation and neurodegeneration in wild-type vs. St3gal5 deficient (ST3(-/-)) mice that lack major CNS-specific glycosphingolipids. After TBI, microglial activation and CNS macrophage infiltration were substantially reduced in ST3(-/-) animals. However, ST3(-/-) mice had a larger area of CNS damage with marked neuronal/axonal loss. The interaction of platelets with NLR stimulated neurite growth, increased the number of PSD95-positive dendritic spines, and intensified neuronal activity. Adoptive transfer and blocking experiments provide further that platelet-derived serotonin and platelet activating factor plays a key role in the regulation of sterile neuroinflammation,hemorrhage and neuronal plasticity after TBI.

Original language	English
Pages (from-to)	7-27
Number of pages	21
Journal	Brain Behavior and Immunity
Volume	74
DOIs	https://doi.org/10.1016/j.bbi.2018.09.009
Publication status	Published - 1 Nov 2018

Keywords

Neuronal plasticity
Dendritic spines
Serotonin
Neuroinflammation
Glycobiology
Platelets
Platelet-derived microparticles
Traumatic brain injury
CNS repair
TRAUMATIC BRAIN-INJURY
ACTIVATING-FACTOR
CEREBROSPINAL-FLUID
MOUSE MODEL
SEROTONIN
RECEPTOR
PROTEIN
MICE
BLOOD
PHOSPHORYLATION

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10.1016/j.bbi.2018.09.009

Cite this

Dukhinova, M., Kuznetsova, I., Kopeikina, E., Veniaminova, E., Yung, A. W. Y., Veremeyko, T., Levchuk, K., Barteneva, N. S., Wing-Ho, K. K., Yung, W-H., Liu, J. Y. H., Rudd, J., Yau, S. S. Y., Anthony, D. C., Strekalova, T., & Ponomarev, E. D. (2018). Platelets mediate protective neuroinflammation and promote neuronal plasticity at the site of neuronal injury. Brain Behavior and Immunity, 74, 7-27. https://doi.org/10.1016/j.bbi.2018.09.009

@article{911c5e9ea31e4460bbc6c16cfe77a3f6,

title = "Platelets mediate protective neuroinflammation and promote neuronal plasticity at the site of neuronal injury",

abstract = "It is generally accepted that inflammation within the CNS contributes to neurodegeneration after traumatic brain injury (TBI), but it is not clear how inflammation is initiated in the absence of infection and whether this neuroinflammation is predominantly beneficial or detrimental. We have previously found that brain-enriched glycosphingolipids within neuronal lipid rafts (NLR) induced platelet degranulation and secretion of neuro-transmitters and pro-inflammatory factors. In the present study, we compared TBI-induced inflammation and neurodegeneration in wild-type vs. St3gal5 deficient (ST3(-/-)) mice that lack major CNS-specific glycosphingolipids. After TBI, microglial activation and CNS macrophage infiltration were substantially reduced in ST3(-/-) animals. However, ST3(-/-) mice had a larger area of CNS damage with marked neuronal/axonal loss. The interaction of platelets with NLR stimulated neurite growth, increased the number of PSD95-positive dendritic spines, and intensified neuronal activity. Adoptive transfer and blocking experiments provide further that platelet-derived serotonin and platelet activating factor plays a key role in the regulation of sterile neuroinflammation,hemorrhage and neuronal plasticity after TBI.",

keywords = "Neuronal plasticity, Dendritic spines, Serotonin, Neuroinflammation, Glycobiology, Platelets, Platelet-derived microparticles, Traumatic brain injury, CNS repair, TRAUMATIC BRAIN-INJURY, ACTIVATING-FACTOR, CEREBROSPINAL-FLUID, MOUSE MODEL, SEROTONIN, RECEPTOR, PROTEIN, MICE, BLOOD, PHOSPHORYLATION",

author = "Marina Dukhinova and Inna Kuznetsova and Ekaterina Kopeikina and Ekaterina Veniaminova and Yung, {Amanda W. Y.} and Tatyana Veremeyko and Kseniia Levchuk and Barteneva, {Natasha S.} and Wing-Ho, {Kenny Kam} and Wing-Ho Yung and Liu, {Julia Y. H.} and John Rudd and Yau, {Sonata S. Y.} and Anthony, {Daniel C.} and Tatyana Strekalova and Ponomarev, {Eugene D.}",

year = "2018",

month = nov,

day = "1",

doi = "10.1016/j.bbi.2018.09.009",

language = "English",

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journal = "Brain Behavior and Immunity",

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Dukhinova, M, Kuznetsova, I, Kopeikina, E, Veniaminova, E, Yung, AWY, Veremeyko, T, Levchuk, K, Barteneva, NS, Wing-Ho, KK, Yung, W-H, Liu, JYH, Rudd, J, Yau, SSY, Anthony, DC, Strekalova, T & Ponomarev, ED 2018, 'Platelets mediate protective neuroinflammation and promote neuronal plasticity at the site of neuronal injury', Brain Behavior and Immunity, vol. 74, pp. 7-27. https://doi.org/10.1016/j.bbi.2018.09.009

TY - JOUR

T1 - Platelets mediate protective neuroinflammation and promote neuronal plasticity at the site of neuronal injury

AU - Dukhinova, Marina

AU - Kuznetsova, Inna

AU - Kopeikina, Ekaterina

AU - Veniaminova, Ekaterina

AU - Yung, Amanda W. Y.

AU - Veremeyko, Tatyana

AU - Levchuk, Kseniia

AU - Barteneva, Natasha S.

AU - Wing-Ho, Kenny Kam

AU - Yung, Wing-Ho

AU - Liu, Julia Y. H.

AU - Rudd, John

AU - Yau, Sonata S. Y.

AU - Anthony, Daniel C.

AU - Strekalova, Tatyana

AU - Ponomarev, Eugene D.

PY - 2018/11/1

Y1 - 2018/11/1

N2 - It is generally accepted that inflammation within the CNS contributes to neurodegeneration after traumatic brain injury (TBI), but it is not clear how inflammation is initiated in the absence of infection and whether this neuroinflammation is predominantly beneficial or detrimental. We have previously found that brain-enriched glycosphingolipids within neuronal lipid rafts (NLR) induced platelet degranulation and secretion of neuro-transmitters and pro-inflammatory factors. In the present study, we compared TBI-induced inflammation and neurodegeneration in wild-type vs. St3gal5 deficient (ST3(-/-)) mice that lack major CNS-specific glycosphingolipids. After TBI, microglial activation and CNS macrophage infiltration were substantially reduced in ST3(-/-) animals. However, ST3(-/-) mice had a larger area of CNS damage with marked neuronal/axonal loss. The interaction of platelets with NLR stimulated neurite growth, increased the number of PSD95-positive dendritic spines, and intensified neuronal activity. Adoptive transfer and blocking experiments provide further that platelet-derived serotonin and platelet activating factor plays a key role in the regulation of sterile neuroinflammation,hemorrhage and neuronal plasticity after TBI.

AB - It is generally accepted that inflammation within the CNS contributes to neurodegeneration after traumatic brain injury (TBI), but it is not clear how inflammation is initiated in the absence of infection and whether this neuroinflammation is predominantly beneficial or detrimental. We have previously found that brain-enriched glycosphingolipids within neuronal lipid rafts (NLR) induced platelet degranulation and secretion of neuro-transmitters and pro-inflammatory factors. In the present study, we compared TBI-induced inflammation and neurodegeneration in wild-type vs. St3gal5 deficient (ST3(-/-)) mice that lack major CNS-specific glycosphingolipids. After TBI, microglial activation and CNS macrophage infiltration were substantially reduced in ST3(-/-) animals. However, ST3(-/-) mice had a larger area of CNS damage with marked neuronal/axonal loss. The interaction of platelets with NLR stimulated neurite growth, increased the number of PSD95-positive dendritic spines, and intensified neuronal activity. Adoptive transfer and blocking experiments provide further that platelet-derived serotonin and platelet activating factor plays a key role in the regulation of sterile neuroinflammation,hemorrhage and neuronal plasticity after TBI.

KW - Neuronal plasticity

KW - Dendritic spines

KW - Serotonin

KW - Neuroinflammation

KW - Glycobiology

KW - Platelets

KW - Platelet-derived microparticles

KW - Traumatic brain injury

KW - CNS repair

KW - TRAUMATIC BRAIN-INJURY

KW - ACTIVATING-FACTOR

KW - CEREBROSPINAL-FLUID

KW - MOUSE MODEL

KW - SEROTONIN

KW - RECEPTOR

KW - PROTEIN

KW - MICE

KW - BLOOD

KW - PHOSPHORYLATION

U2 - 10.1016/j.bbi.2018.09.009

DO - 10.1016/j.bbi.2018.09.009

M3 - Article

C2 - 30217533

SN - 0889-1591

VL - 74

SP - 7

EP - 27

JO - Brain Behavior and Immunity

JF - Brain Behavior and Immunity

ER -