Neuroprotective Roles of the Adenosine A3 Receptor Agonist AST-004 in Mouse Model of Traumatic Brain Injury

Eda Bozdemir; Fabio A. Vigil; Sang H. Chun; Liliana Espinoza; Vladislav Bugay; Sarah M. Khoury; Deborah M. Holstein; Aiola Stoja; Damian Lozano; Ceyda Tunca; Shane M. Sprague; Jose E. Cavazos; Robert Brenner; Theodore E. Liston; Mark S. Shapiro; James D. Lechleiter

doi:10.1007/s13311-021-01113-7

Neuroprotective Roles of the Adenosine A₃ Receptor Agonist AST-004 in Mouse Model of Traumatic Brain Injury

Eda Bozdemir, Fabio A. Vigil, Sang H. Chun, Liliana Espinoza, Vladislav Bugay, Sarah M. Khoury, Deborah M. Holstein, Aiola Stoja, Damian Lozano, Ceyda Tunca, Shane M. Sprague, Jose E. Cavazos, Robert Brenner, Theodore E. Liston, Mark S. Shapiro, James D. Lechleiter

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

5 Scopus citations

Abstract

Traumatic brain injury (TBI) remains one of the greatest public health concerns with increasing morbidity and mortality rates worldwide. Our group reported that stimulation of astrocyte mitochondrial metabolism by P2Y₁ receptor agonists significantly reduced cerebral edema and reactive gliosis in a TBI model. Subsequent data on the pharmacokinetics (PK) and rapid metabolism of these compounds suggested that neuroprotection was likely mediated by a metabolite, AST-004, which binding data indicated was an adenosine A₃ receptor (A₃R) agonist. The neuroprotective efficacy of AST-004 was tested in a control closed cortical injury (CCCI) model of TBI in mice. Twenty-four (24) hours post-injury, mice subjected to CCCI and treated with AST-004 (0.22 mg/kg, injected 30 min post-trauma) exhibited significantly less secondary brain injury. These effects were quantified with less cell death (PSVue794 fluorescence) and loss of blood brain barrier breakdown (Evans blue extravasation assay), compared to vehicle-treated TBI mice. TBI-treated mice also exhibited significantly reduced neuroinflammatory markers, glial-fibrillary acidic protein (GFAP, astrogliosis) and ionized Ca²⁺-binding adaptor molecule 1 (Iba1, microgliosis), both at the mRNA (qRT-PCR) and protein (Western blot and immunofluorescence) levels, respectively. Four (4) weeks post-injury, both male and female TBI mice presented a significant reduction in freezing behavior during contextual fear conditioning (after foot shock). AST-004 treatment prevented this TBI-induced impairment in male mice, but did not significantly affect impairment in female mice. Impairment of spatial memory, assessed 24 and 48 h after the initial fear conditioning, was also reduced in AST-004-treated TBI-male mice. Female TBI mice did not exhibit memory impairment 24 and 48 h after contextual fear conditioning and similarly, AST-004-treated female TBI mice were comparable to sham mice. Finally, AST-004 treatments were found to increase in vivo ATP production in astrocytes (GFAP-targeted luciferase activity), consistent with the proposed mechanism of action. These data reveal AST-004 as a novel A₃R agonist that increases astrocyte energy production and enhances their neuroprotective efficacy after brain injury.

Original language	English (US)
Pages (from-to)	2707-2721
Number of pages	15
Journal	Neurotherapeutics
Volume	18
Issue number	4
DOIs	https://doi.org/10.1007/s13311-021-01113-7
State	Published - Oct 2021

Keywords

ADORA3
ATP
Astrocytes
Concussion treatment
Mitochondrial metabolism

ASJC Scopus subject areas

Clinical Neurology
Pharmacology (medical)
Pharmacology

Access to Document

10.1007/s13311-021-01113-7

Cite this

Bozdemir, E., Vigil, F. A., Chun, S. H., Espinoza, L., Bugay, V., Khoury, S. M., Holstein, D. M., Stoja, A., Lozano, D., Tunca, C., Sprague, S. M., Cavazos, J. E., Brenner, R., Liston, T. E., Shapiro, M. S., & Lechleiter, J. D. (2021). Neuroprotective Roles of the Adenosine A₃ Receptor Agonist AST-004 in Mouse Model of Traumatic Brain Injury. Neurotherapeutics, 18(4), 2707-2721. https://doi.org/10.1007/s13311-021-01113-7

Bozdemir, E, Vigil, FA, Chun, SH, Espinoza, L, Bugay, V, Khoury, SM, Holstein, DM, Stoja, A, Lozano, D, Tunca, C, Sprague, SM, Cavazos, JE, Brenner, R, Liston, TE, Shapiro, MS & Lechleiter, JD 2021, 'Neuroprotective Roles of the Adenosine A₃ Receptor Agonist AST-004 in Mouse Model of Traumatic Brain Injury', Neurotherapeutics, vol. 18, no. 4, pp. 2707-2721. https://doi.org/10.1007/s13311-021-01113-7

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title = "Neuroprotective Roles of the Adenosine A3 Receptor Agonist AST-004 in Mouse Model of Traumatic Brain Injury",

abstract = "Traumatic brain injury (TBI) remains one of the greatest public health concerns with increasing morbidity and mortality rates worldwide. Our group reported that stimulation of astrocyte mitochondrial metabolism by P2Y1 receptor agonists significantly reduced cerebral edema and reactive gliosis in a TBI model. Subsequent data on the pharmacokinetics (PK) and rapid metabolism of these compounds suggested that neuroprotection was likely mediated by a metabolite, AST-004, which binding data indicated was an adenosine A3 receptor (A3R) agonist. The neuroprotective efficacy of AST-004 was tested in a control closed cortical injury (CCCI) model of TBI in mice. Twenty-four (24) hours post-injury, mice subjected to CCCI and treated with AST-004 (0.22 mg/kg, injected 30 min post-trauma) exhibited significantly less secondary brain injury. These effects were quantified with less cell death (PSVue794 fluorescence) and loss of blood brain barrier breakdown (Evans blue extravasation assay), compared to vehicle-treated TBI mice. TBI-treated mice also exhibited significantly reduced neuroinflammatory markers, glial-fibrillary acidic protein (GFAP, astrogliosis) and ionized Ca2+-binding adaptor molecule 1 (Iba1, microgliosis), both at the mRNA (qRT-PCR) and protein (Western blot and immunofluorescence) levels, respectively. Four (4) weeks post-injury, both male and female TBI mice presented a significant reduction in freezing behavior during contextual fear conditioning (after foot shock). AST-004 treatment prevented this TBI-induced impairment in male mice, but did not significantly affect impairment in female mice. Impairment of spatial memory, assessed 24 and 48 h after the initial fear conditioning, was also reduced in AST-004-treated TBI-male mice. Female TBI mice did not exhibit memory impairment 24 and 48 h after contextual fear conditioning and similarly, AST-004-treated female TBI mice were comparable to sham mice. Finally, AST-004 treatments were found to increase in vivo ATP production in astrocytes (GFAP-targeted luciferase activity), consistent with the proposed mechanism of action. These data reveal AST-004 as a novel A3R agonist that increases astrocyte energy production and enhances their neuroprotective efficacy after brain injury.",

keywords = "ADORA3, ATP, Astrocytes, Concussion treatment, Mitochondrial metabolism",

author = "Eda Bozdemir and Vigil, {Fabio A.} and Chun, {Sang H.} and Liliana Espinoza and Vladislav Bugay and Khoury, {Sarah M.} and Holstein, {Deborah M.} and Aiola Stoja and Damian Lozano and Ceyda Tunca and Sprague, {Shane M.} and Cavazos, {Jose E.} and Robert Brenner and Liston, {Theodore E.} and Shapiro, {Mark S.} and Lechleiter, {James D.}",

note = "Funding Information: Images were generated in the Core Optical Imaging Facility which is supported by UT Health San Antonio and National Institutes of Health — National Cancer Institute P30 CA54174. Funding Information: These studies were supported by grants from the Department of Defense: W81XWH-15–1-0283 (J. Lechleiter) and W81XWH-15–1-0284 (M. Shapiro) and from the Welch Foundation Grant: AQ-1980–20190330 (R. Brenner). Publisher Copyright: {\textcopyright} 2021, The American Society for Experimental NeuroTherapeutics, Inc.",

year = "2021",

month = oct,

doi = "10.1007/s13311-021-01113-7",

language = "English (US)",

volume = "18",

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T1 - Neuroprotective Roles of the Adenosine A3 Receptor Agonist AST-004 in Mouse Model of Traumatic Brain Injury

AU - Bozdemir, Eda

AU - Vigil, Fabio A.

AU - Chun, Sang H.

AU - Espinoza, Liliana

AU - Bugay, Vladislav

AU - Khoury, Sarah M.

AU - Holstein, Deborah M.

AU - Stoja, Aiola

AU - Lozano, Damian

AU - Tunca, Ceyda

AU - Sprague, Shane M.

AU - Cavazos, Jose E.

AU - Brenner, Robert

AU - Liston, Theodore E.

AU - Shapiro, Mark S.

AU - Lechleiter, James D.

N1 - Funding Information: Images were generated in the Core Optical Imaging Facility which is supported by UT Health San Antonio and National Institutes of Health — National Cancer Institute P30 CA54174. Funding Information: These studies were supported by grants from the Department of Defense: W81XWH-15–1-0283 (J. Lechleiter) and W81XWH-15–1-0284 (M. Shapiro) and from the Welch Foundation Grant: AQ-1980–20190330 (R. Brenner). Publisher Copyright: © 2021, The American Society for Experimental NeuroTherapeutics, Inc.

PY - 2021/10

Y1 - 2021/10

N2 - Traumatic brain injury (TBI) remains one of the greatest public health concerns with increasing morbidity and mortality rates worldwide. Our group reported that stimulation of astrocyte mitochondrial metabolism by P2Y1 receptor agonists significantly reduced cerebral edema and reactive gliosis in a TBI model. Subsequent data on the pharmacokinetics (PK) and rapid metabolism of these compounds suggested that neuroprotection was likely mediated by a metabolite, AST-004, which binding data indicated was an adenosine A3 receptor (A3R) agonist. The neuroprotective efficacy of AST-004 was tested in a control closed cortical injury (CCCI) model of TBI in mice. Twenty-four (24) hours post-injury, mice subjected to CCCI and treated with AST-004 (0.22 mg/kg, injected 30 min post-trauma) exhibited significantly less secondary brain injury. These effects were quantified with less cell death (PSVue794 fluorescence) and loss of blood brain barrier breakdown (Evans blue extravasation assay), compared to vehicle-treated TBI mice. TBI-treated mice also exhibited significantly reduced neuroinflammatory markers, glial-fibrillary acidic protein (GFAP, astrogliosis) and ionized Ca2+-binding adaptor molecule 1 (Iba1, microgliosis), both at the mRNA (qRT-PCR) and protein (Western blot and immunofluorescence) levels, respectively. Four (4) weeks post-injury, both male and female TBI mice presented a significant reduction in freezing behavior during contextual fear conditioning (after foot shock). AST-004 treatment prevented this TBI-induced impairment in male mice, but did not significantly affect impairment in female mice. Impairment of spatial memory, assessed 24 and 48 h after the initial fear conditioning, was also reduced in AST-004-treated TBI-male mice. Female TBI mice did not exhibit memory impairment 24 and 48 h after contextual fear conditioning and similarly, AST-004-treated female TBI mice were comparable to sham mice. Finally, AST-004 treatments were found to increase in vivo ATP production in astrocytes (GFAP-targeted luciferase activity), consistent with the proposed mechanism of action. These data reveal AST-004 as a novel A3R agonist that increases astrocyte energy production and enhances their neuroprotective efficacy after brain injury.

AB - Traumatic brain injury (TBI) remains one of the greatest public health concerns with increasing morbidity and mortality rates worldwide. Our group reported that stimulation of astrocyte mitochondrial metabolism by P2Y1 receptor agonists significantly reduced cerebral edema and reactive gliosis in a TBI model. Subsequent data on the pharmacokinetics (PK) and rapid metabolism of these compounds suggested that neuroprotection was likely mediated by a metabolite, AST-004, which binding data indicated was an adenosine A3 receptor (A3R) agonist. The neuroprotective efficacy of AST-004 was tested in a control closed cortical injury (CCCI) model of TBI in mice. Twenty-four (24) hours post-injury, mice subjected to CCCI and treated with AST-004 (0.22 mg/kg, injected 30 min post-trauma) exhibited significantly less secondary brain injury. These effects were quantified with less cell death (PSVue794 fluorescence) and loss of blood brain barrier breakdown (Evans blue extravasation assay), compared to vehicle-treated TBI mice. TBI-treated mice also exhibited significantly reduced neuroinflammatory markers, glial-fibrillary acidic protein (GFAP, astrogliosis) and ionized Ca2+-binding adaptor molecule 1 (Iba1, microgliosis), both at the mRNA (qRT-PCR) and protein (Western blot and immunofluorescence) levels, respectively. Four (4) weeks post-injury, both male and female TBI mice presented a significant reduction in freezing behavior during contextual fear conditioning (after foot shock). AST-004 treatment prevented this TBI-induced impairment in male mice, but did not significantly affect impairment in female mice. Impairment of spatial memory, assessed 24 and 48 h after the initial fear conditioning, was also reduced in AST-004-treated TBI-male mice. Female TBI mice did not exhibit memory impairment 24 and 48 h after contextual fear conditioning and similarly, AST-004-treated female TBI mice were comparable to sham mice. Finally, AST-004 treatments were found to increase in vivo ATP production in astrocytes (GFAP-targeted luciferase activity), consistent with the proposed mechanism of action. These data reveal AST-004 as a novel A3R agonist that increases astrocyte energy production and enhances their neuroprotective efficacy after brain injury.

KW - ADORA3

KW - ATP

KW - Astrocytes

KW - Concussion treatment

KW - Mitochondrial metabolism

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