B cells upregulate NMDARs, respond to extracellular glutamate, and express mature BDNF to protect the brain from ischemic injury

Vanessa O. Torres; Jadwiga Turchan-Cholewo; Mary K. Colson; Pavel Yanev; Daimen R.S. Britsch; Katherine M. Cotter; Annabel M. McAtee; Thomas A. Ujas; Domenico Mercurio; Xiangmei Kong; Erik J. Plautz; Chaitanya R. Joshi; Takeshi K. Matsui; Eiichiro Mori; Ambar Cajigas-Hernandez; Kielen Zuurbier; Steven Estus; Mark P. Goldberg; Nancy L. Monson; Ann M. Stowe

doi:10.1016/j.nbd.2025.106819

B cells upregulate NMDARs, respond to extracellular glutamate, and express mature BDNF to protect the brain from ischemic injury

Vanessa O. Torres, Jadwiga Turchan-Cholewo, Mary K. Colson, Pavel Yanev, Daimen R.S. Britsch, Katherine M. Cotter, Annabel M. McAtee, Thomas A. Ujas, Domenico Mercurio, Xiangmei Kong, Erik J. Plautz, Chaitanya R. Joshi, Takeshi K. Matsui, Eiichiro Mori, Ambar Cajigas-Hernandez, Kielen Zuurbier, Steven Estus, Mark P. Goldberg, Nancy L. Monson, Ann M. Stowe

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

Abstract

Following stroke, B cells enter brain regions outside of the ischemic injury to mediate functional recovery. Although B cells produce neurotrophins that support remote plasticity, including brain-derived neurotrophic factor (BDNF), it remains unclear which signal(s) activate B cells in the absence of infarct-localized pro-inflammatory cues. Activation of N-methyl-D-aspartate (NMDA)-type receptor (NMDAR) subunits on neurons can upregulate mature BDNF (mBDNF) production from a pro-BDNF precursor, but whether this occurs in B cells is unknown. We identified GluN2A and GluN2B NMDAR subunits on B cells that respond to glutamate and mediate nearly half of the glutamate-induced Ca²⁺ responses in activated B cell subsets. Ischemic stroke recruits GluN2A⁺ B cells into the ipsilesional hemisphere and both stroke and neurophysiologic levels of glutamate regulate gene and surface expression. Regardless of injury, pro-BDNF⁺ B cells localize to spleen/circulation whereas mBDNF⁺ B cells localize to the brain, including in aged male and female mice. We confirmed B cell-derived BDNF was required for in vitro and in vivo B cell-mediated neuroprotection. Lastly, GluN2A, GluN2B, glutamate-induced Ca²⁺ responses, and BDNF expression were all clinically confirmed in B cells from healthy donors, with BDNF⁺ B cells present in post-stroke human parenchyma. These data suggest that B cells express functional NMDARs that respond to glutamate, enhance NMDAR signaling with activation, and upregulate mature BDNF expression within the brain. This study identifies potential glutamate-induced neurotrophic roles for B cells in the brain; an immune response to neurotransmitters unique from established pro-inflammatory stimuli and relevant to any CNS-localized injury or disease.

Original language	English
Article number	106819
Journal	Neurobiology of Disease
Volume	207
DOIs	https://doi.org/10.1016/j.nbd.2025.106819
State	Published - Apr 2025

Bibliographical note

Publisher Copyright:
© 2025 The Authors

Funding

The authors would like to thank Dr. Ian N. Boys and Dr. Benjamin C. Shaw for their intellectual and technical assistance and Murphy Byrd and Shrenevas Nandam for help with data collection. We would also like to honor James F. Simpson, you are dearly missed. The authors would also like to thank Dr. Pete Nelson and Juliet Stowe at the University of Kentucky for assistance in acquiring post-mortem brain tissue (NIH P30 AG028383) and Drs. Mark Shlomchik and Lisa Monteggia for hCD20-TamCre and BDNF floxed mouse strains, respectively. Lastly, the authors would like to thank University of Texas (UT) Southwestern Medical Center's Children's Research Institute Flow Core. These studies are supported by grants from American Heart Association to AMS (19EIA34760279), and the National Institutes of Health to AMS: R01NS088555, RF1NS088555; to VOT: 3r01NS088555-02S1, 5T32AI005284-40; to MKC: T32AG057461; to KMC: T32NS077889; to AMM: T32NS077889; to TU: T32NS077889, 3RF1NS088555-07A1S1; and to NM: NS102417. The authors would like to thank Dr. Ian N. Boys and Dr. Benjamin C. Shaw for their intellectual and technical assistance and Murphy Byrd and Shrenevas Nandam for help with data collection. We would also like to honor James F. Simpson, you are dearly missed. The authors would also like to thank Dr. Pete Nelson and Juliet Stowe at the University of Kentucky for assistance in acquiring post-mortem brain tissue (NIH P30 AG028383) and Drs. Mark Shlomchik and Lisa Monteggia for hCD20-TamCre and BDNF floxed mouse strains, respectively. Lastly, the authors would like to thank University of Texas (UT) Southwestern Medical Center's Children's Research Institute Flow Core. These studies are supported by grants from American Heart Association to AMS (19EIA34760279), and the National Institutes of Health to AMS: R01NS088555, RF1NS088555; to VOT: 3r01NS088555-02S1, 5T32AI005284-40; to MKC: T32AG057461; to KC: T32NS077889; to AM: T32NS077889; to TU: T32NS077889, 3RF1NS088555-07A1S1; and to NM: NS102417.

Funders	Funder number
Texas AandM University
National Institutes of Health (NIH)	P30 AG028383, 5T32AI005284-40, T32NS077889, NS102417, T32AG057461, RF1NS088555
National Institutes of Health (NIH)
American the American Heart Association	19EIA34760279
American the American Heart Association

Keywords

B lymphocytes
Brain-derived neurotrophic factor
Cerebral ischemia
GluN2A
GluN2B
IL-10
Neuroprotection

ASJC Scopus subject areas

Neurology

UN SDGs

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

Access to Document

10.1016/j.nbd.2025.106819

Cite this

Torres, V. O., Turchan-Cholewo, J., Colson, M. K., Yanev, P., Britsch, D. R. S., Cotter, K. M., McAtee, A. M., Ujas, T. A., Mercurio, D., Kong, X., Plautz, E. J., Joshi, C. R., Matsui, T. K., Mori, E., Cajigas-Hernandez, A., Zuurbier, K., Estus, S., Goldberg, M. P., Monson, N. L., & Stowe, A. M. (2025). B cells upregulate NMDARs, respond to extracellular glutamate, and express mature BDNF to protect the brain from ischemic injury. Neurobiology of Disease, 207, Article 106819. https://doi.org/10.1016/j.nbd.2025.106819

@article{17788daca5a74836992fd838ea3e2192,

title = "B cells upregulate NMDARs, respond to extracellular glutamate, and express mature BDNF to protect the brain from ischemic injury",

abstract = "Following stroke, B cells enter brain regions outside of the ischemic injury to mediate functional recovery. Although B cells produce neurotrophins that support remote plasticity, including brain-derived neurotrophic factor (BDNF), it remains unclear which signal(s) activate B cells in the absence of infarct-localized pro-inflammatory cues. Activation of N-methyl-D-aspartate (NMDA)-type receptor (NMDAR) subunits on neurons can upregulate mature BDNF (mBDNF) production from a pro-BDNF precursor, but whether this occurs in B cells is unknown. We identified GluN2A and GluN2B NMDAR subunits on B cells that respond to glutamate and mediate nearly half of the glutamate-induced Ca2+ responses in activated B cell subsets. Ischemic stroke recruits GluN2A+ B cells into the ipsilesional hemisphere and both stroke and neurophysiologic levels of glutamate regulate gene and surface expression. Regardless of injury, pro-BDNF+ B cells localize to spleen/circulation whereas mBDNF+ B cells localize to the brain, including in aged male and female mice. We confirmed B cell-derived BDNF was required for in vitro and in vivo B cell-mediated neuroprotection. Lastly, GluN2A, GluN2B, glutamate-induced Ca2+ responses, and BDNF expression were all clinically confirmed in B cells from healthy donors, with BDNF+ B cells present in post-stroke human parenchyma. These data suggest that B cells express functional NMDARs that respond to glutamate, enhance NMDAR signaling with activation, and upregulate mature BDNF expression within the brain. This study identifies potential glutamate-induced neurotrophic roles for B cells in the brain; an immune response to neurotransmitters unique from established pro-inflammatory stimuli and relevant to any CNS-localized injury or disease.",

keywords = "B lymphocytes, Brain-derived neurotrophic factor, Cerebral ischemia, GluN2A, GluN2B, IL-10, Neuroprotection",

author = "Torres, \{Vanessa O.\} and Jadwiga Turchan-Cholewo and Colson, \{Mary K.\} and Pavel Yanev and Britsch, \{Daimen R.S.\} and Cotter, \{Katherine M.\} and McAtee, \{Annabel M.\} and Ujas, \{Thomas A.\} and Domenico Mercurio and Xiangmei Kong and Plautz, \{Erik J.\} and Joshi, \{Chaitanya R.\} and Matsui, \{Takeshi K.\} and Eiichiro Mori and Ambar Cajigas-Hernandez and Kielen Zuurbier and Steven Estus and Goldberg, \{Mark P.\} and Monson, \{Nancy L.\} and Stowe, \{Ann M.\}",

note = "Publisher Copyright: {\textcopyright} 2025 The Authors",

year = "2025",

month = apr,

doi = "10.1016/j.nbd.2025.106819",

language = "English",

volume = "207",

}

Torres, VO, Turchan-Cholewo, J, Colson, MK, Yanev, P, Britsch, DRS, Cotter, KM, McAtee, AM, Ujas, TA, Mercurio, D, Kong, X, Plautz, EJ, Joshi, CR, Matsui, TK, Mori, E, Cajigas-Hernandez, A, Zuurbier, K, Estus, S, Goldberg, MP, Monson, NL & Stowe, AM 2025, 'B cells upregulate NMDARs, respond to extracellular glutamate, and express mature BDNF to protect the brain from ischemic injury', Neurobiology of Disease, vol. 207, 106819. https://doi.org/10.1016/j.nbd.2025.106819

TY - JOUR

T1 - B cells upregulate NMDARs, respond to extracellular glutamate, and express mature BDNF to protect the brain from ischemic injury

AU - Torres, Vanessa O.

AU - Turchan-Cholewo, Jadwiga

AU - Colson, Mary K.

AU - Yanev, Pavel

AU - Britsch, Daimen R.S.

AU - Cotter, Katherine M.

AU - McAtee, Annabel M.

AU - Ujas, Thomas A.

AU - Mercurio, Domenico

AU - Kong, Xiangmei

AU - Plautz, Erik J.

AU - Joshi, Chaitanya R.

AU - Matsui, Takeshi K.

AU - Mori, Eiichiro

AU - Cajigas-Hernandez, Ambar

AU - Zuurbier, Kielen

AU - Estus, Steven

AU - Goldberg, Mark P.

AU - Monson, Nancy L.

AU - Stowe, Ann M.

PY - 2025/4

Y1 - 2025/4

N2 - Following stroke, B cells enter brain regions outside of the ischemic injury to mediate functional recovery. Although B cells produce neurotrophins that support remote plasticity, including brain-derived neurotrophic factor (BDNF), it remains unclear which signal(s) activate B cells in the absence of infarct-localized pro-inflammatory cues. Activation of N-methyl-D-aspartate (NMDA)-type receptor (NMDAR) subunits on neurons can upregulate mature BDNF (mBDNF) production from a pro-BDNF precursor, but whether this occurs in B cells is unknown. We identified GluN2A and GluN2B NMDAR subunits on B cells that respond to glutamate and mediate nearly half of the glutamate-induced Ca2+ responses in activated B cell subsets. Ischemic stroke recruits GluN2A+ B cells into the ipsilesional hemisphere and both stroke and neurophysiologic levels of glutamate regulate gene and surface expression. Regardless of injury, pro-BDNF+ B cells localize to spleen/circulation whereas mBDNF+ B cells localize to the brain, including in aged male and female mice. We confirmed B cell-derived BDNF was required for in vitro and in vivo B cell-mediated neuroprotection. Lastly, GluN2A, GluN2B, glutamate-induced Ca2+ responses, and BDNF expression were all clinically confirmed in B cells from healthy donors, with BDNF+ B cells present in post-stroke human parenchyma. These data suggest that B cells express functional NMDARs that respond to glutamate, enhance NMDAR signaling with activation, and upregulate mature BDNF expression within the brain. This study identifies potential glutamate-induced neurotrophic roles for B cells in the brain; an immune response to neurotransmitters unique from established pro-inflammatory stimuli and relevant to any CNS-localized injury or disease.

AB - Following stroke, B cells enter brain regions outside of the ischemic injury to mediate functional recovery. Although B cells produce neurotrophins that support remote plasticity, including brain-derived neurotrophic factor (BDNF), it remains unclear which signal(s) activate B cells in the absence of infarct-localized pro-inflammatory cues. Activation of N-methyl-D-aspartate (NMDA)-type receptor (NMDAR) subunits on neurons can upregulate mature BDNF (mBDNF) production from a pro-BDNF precursor, but whether this occurs in B cells is unknown. We identified GluN2A and GluN2B NMDAR subunits on B cells that respond to glutamate and mediate nearly half of the glutamate-induced Ca2+ responses in activated B cell subsets. Ischemic stroke recruits GluN2A+ B cells into the ipsilesional hemisphere and both stroke and neurophysiologic levels of glutamate regulate gene and surface expression. Regardless of injury, pro-BDNF+ B cells localize to spleen/circulation whereas mBDNF+ B cells localize to the brain, including in aged male and female mice. We confirmed B cell-derived BDNF was required for in vitro and in vivo B cell-mediated neuroprotection. Lastly, GluN2A, GluN2B, glutamate-induced Ca2+ responses, and BDNF expression were all clinically confirmed in B cells from healthy donors, with BDNF+ B cells present in post-stroke human parenchyma. These data suggest that B cells express functional NMDARs that respond to glutamate, enhance NMDAR signaling with activation, and upregulate mature BDNF expression within the brain. This study identifies potential glutamate-induced neurotrophic roles for B cells in the brain; an immune response to neurotransmitters unique from established pro-inflammatory stimuli and relevant to any CNS-localized injury or disease.

KW - B lymphocytes

KW - Brain-derived neurotrophic factor

KW - Cerebral ischemia

KW - GluN2A

KW - GluN2B

KW - IL-10

KW - Neuroprotection

UR - http://www.scopus.com/inward/record.url?scp=85217944551&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85217944551&partnerID=8YFLogxK

U2 - 10.1016/j.nbd.2025.106819

DO - 10.1016/j.nbd.2025.106819

M3 - Article

C2 - 39900302

AN - SCOPUS:85217944551

SN - 0969-9961

VL - 207

JO - Neurobiology of Disease

JF - Neurobiology of Disease

M1 - 106819

ER -

B cells upregulate NMDARs, respond to extracellular glutamate, and express mature BDNF to protect the brain from ischemic injury

Abstract

Bibliographical note

Funding

Keywords

ASJC Scopus subject areas

UN SDGs

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