Microglia regulate motor neuron plasticity via reciprocal fractalkine and adenosine signaling

Alexandria B. Marciante; Arash Tadjalli; Maria Nikodemova; Kayla A. Burrowes; Jose Oberto; Edward K. Luca; Yasin B. Seven; Jyoti J. Watters; Tracy L. Baker; Gordon S. Mitchell

doi:10.1038/s41467-024-54619-x

Microglia regulate motor neuron plasticity via reciprocal fractalkine and adenosine signaling

Alexandria B. Marciante
, Arash Tadjalli
, Maria Nikodemova
, Kayla A. Burrowes
, Jose Oberto
, Edward K. Luca
, Yasin B. Seven
, Jyoti J. Watters
, Tracy L. Baker
, Gordon S. Mitchell

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

10 Scopus citations

Abstract

We report an important role for microglia in regulating neuroplasticity within phrenic motor neurons. Brief episodes of low oxygen (acute intermittent hypoxia; AIH) elicit a form of respiratory motor plasticity known as phrenic long-term facilitation (pLTF) that is regulated by the balance of competing serotonin vs adenosine-initiated cellular mechanisms. Serotonin arises from brainstem raphe neurons, but the source of adenosine is unknown. We tested if hypoxic episodes initiate phrenic motor neuron to microglia fractalkine signaling that evokes extracellular adenosine formation using a well-defined neurophysiology preparation in male rats. With moderate AIH, phrenic motor neuron adenosine 2A receptor activation undermines serotonin-dominant pLTF whereas severe AIH induces pLTF by the adenosine-dependent mechanism. Consequently, phrenic motor neuron fractalkine knockdown, microglial fractalkine receptor inhibition, and microglial ablation enhance moderate AIH, but suppress severe AIH-induced pLTF. We conclude, microglia play important roles in healthy spinal cords, regulating plasticity in motor neurons responsible for breathing.

Original language	English
Article number	10349
Journal	Nature Communications
Volume	15
Issue number	1
DOIs	https://doi.org/10.1038/s41467-024-54619-x
State	Published - Dec 2024

Bibliographical note

Publisher Copyright:
© The Author(s) 2024.

Funding

Funding was provided by the National Institutes of Health grants R01HL149800 (GSM), R01HL148030 (GSM), T32HL134621-5 (ABM) and the Francis Family Foundation (ABM, AT).

Funders	Funder number
National Institutes of Health	R01HL149800, R01HL148030, T32HL134621-5
Francis Family Foundation

ASJC Scopus Subject Areas

General Chemistry
General Biochemistry,Genetics and Molecular Biology
General Physics and Astronomy

Disciplines

Medicine and Health Sciences
Chemistry
Biochemistry
Physics

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10.1038/s41467-024-54619-x

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title = "Microglia regulate motor neuron plasticity via reciprocal fractalkine and adenosine signaling",

abstract = "We report an important role for microglia in regulating neuroplasticity within phrenic motor neurons. Brief episodes of low oxygen (acute intermittent hypoxia; AIH) elicit a form of respiratory motor plasticity known as phrenic long-term facilitation (pLTF) that is regulated by the balance of competing serotonin vs adenosine-initiated cellular mechanisms. Serotonin arises from brainstem raphe neurons, but the source of adenosine is unknown. We tested if hypoxic episodes initiate phrenic motor neuron to microglia fractalkine signaling that evokes extracellular adenosine formation using a well-defined neurophysiology preparation in male rats. With moderate AIH, phrenic motor neuron adenosine 2A receptor activation undermines serotonin-dominant pLTF whereas severe AIH induces pLTF by the adenosine-dependent mechanism. Consequently, phrenic motor neuron fractalkine knockdown, microglial fractalkine receptor inhibition, and microglial ablation enhance moderate AIH, but suppress severe AIH-induced pLTF. We conclude, microglia play important roles in healthy spinal cords, regulating plasticity in motor neurons responsible for breathing.",

author = "Marciante, \{Alexandria B.\} and Arash Tadjalli and Maria Nikodemova and Burrowes, \{Kayla A.\} and Jose Oberto and Luca, \{Edward K.\} and Seven, \{Yasin B.\} and Watters, \{Jyoti J.\} and Baker, \{Tracy L.\} and Mitchell, \{Gordon S.\}",

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year = "2024",

month = dec,

doi = "10.1038/s41467-024-54619-x",

language = "English",

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AU - Marciante, Alexandria B.

AU - Tadjalli, Arash

AU - Nikodemova, Maria

AU - Burrowes, Kayla A.

AU - Oberto, Jose

AU - Luca, Edward K.

AU - Seven, Yasin B.

AU - Watters, Jyoti J.

AU - Baker, Tracy L.

AU - Mitchell, Gordon S.

PY - 2024/12

Y1 - 2024/12

N2 - We report an important role for microglia in regulating neuroplasticity within phrenic motor neurons. Brief episodes of low oxygen (acute intermittent hypoxia; AIH) elicit a form of respiratory motor plasticity known as phrenic long-term facilitation (pLTF) that is regulated by the balance of competing serotonin vs adenosine-initiated cellular mechanisms. Serotonin arises from brainstem raphe neurons, but the source of adenosine is unknown. We tested if hypoxic episodes initiate phrenic motor neuron to microglia fractalkine signaling that evokes extracellular adenosine formation using a well-defined neurophysiology preparation in male rats. With moderate AIH, phrenic motor neuron adenosine 2A receptor activation undermines serotonin-dominant pLTF whereas severe AIH induces pLTF by the adenosine-dependent mechanism. Consequently, phrenic motor neuron fractalkine knockdown, microglial fractalkine receptor inhibition, and microglial ablation enhance moderate AIH, but suppress severe AIH-induced pLTF. We conclude, microglia play important roles in healthy spinal cords, regulating plasticity in motor neurons responsible for breathing.

AB - We report an important role for microglia in regulating neuroplasticity within phrenic motor neurons. Brief episodes of low oxygen (acute intermittent hypoxia; AIH) elicit a form of respiratory motor plasticity known as phrenic long-term facilitation (pLTF) that is regulated by the balance of competing serotonin vs adenosine-initiated cellular mechanisms. Serotonin arises from brainstem raphe neurons, but the source of adenosine is unknown. We tested if hypoxic episodes initiate phrenic motor neuron to microglia fractalkine signaling that evokes extracellular adenosine formation using a well-defined neurophysiology preparation in male rats. With moderate AIH, phrenic motor neuron adenosine 2A receptor activation undermines serotonin-dominant pLTF whereas severe AIH induces pLTF by the adenosine-dependent mechanism. Consequently, phrenic motor neuron fractalkine knockdown, microglial fractalkine receptor inhibition, and microglial ablation enhance moderate AIH, but suppress severe AIH-induced pLTF. We conclude, microglia play important roles in healthy spinal cords, regulating plasticity in motor neurons responsible for breathing.

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Microglia regulate motor neuron plasticity via reciprocal fractalkine and adenosine signaling

Abstract

Bibliographical note

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Disciplines

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