TY - JOUR
T1 - Role of microglia in blood pressure and respiratory responses to acute hypoxic exposure in rats
AU - Yoshizawa, Masashi
AU - Fukushi, Isato
AU - Takeda, Kotaro
AU - Kono, Yosuke
AU - Hasebe, Yohei
AU - Koizumi, Keiichi
AU - Ikeda, Keiko
AU - Pokorski, Mieczyslaw
AU - Toda, Takako
AU - Okada, Yasumasa
N1 - Publisher Copyright:
© 2022, The Author(s).
PY - 2022/12
Y1 - 2022/12
N2 - Microglia modulate cardiorespiratory activities during chronic hypoxia. It has not been clarified whether microglia are involved in the cardiorespiratory responses to acute hypoxia. Here we investigated this issue by comparing cardiorespiratory responses to two levels of acute hypoxia (13% O2 for 4 min and 7% O2 for 5 min) in conscious unrestrained rats before and after systemic injection of minocycline (MINO), an inhibitor of microglia activation. MINO increased blood pressure but not lung ventilation in the control normoxic condition. Acute hypoxia stimulated cardiorespiratory responses in MINO-untreated rats. MINO failed to significantly affect the magnitude of hypoxia-induced blood pressure elevation. In contrast, MINO tended to suppress the ventilatory responses to hypoxia. We conclude that microglia differentially affect cardiorespiratory regulation depending on the level of blood oxygenation. Microglia suppressively contribute to blood pressure regulation in normoxia but help maintain ventilatory augmentation in hypoxia, which underscores the dichotomy of central regulatory pathways for both systems.
AB - Microglia modulate cardiorespiratory activities during chronic hypoxia. It has not been clarified whether microglia are involved in the cardiorespiratory responses to acute hypoxia. Here we investigated this issue by comparing cardiorespiratory responses to two levels of acute hypoxia (13% O2 for 4 min and 7% O2 for 5 min) in conscious unrestrained rats before and after systemic injection of minocycline (MINO), an inhibitor of microglia activation. MINO increased blood pressure but not lung ventilation in the control normoxic condition. Acute hypoxia stimulated cardiorespiratory responses in MINO-untreated rats. MINO failed to significantly affect the magnitude of hypoxia-induced blood pressure elevation. In contrast, MINO tended to suppress the ventilatory responses to hypoxia. We conclude that microglia differentially affect cardiorespiratory regulation depending on the level of blood oxygenation. Microglia suppressively contribute to blood pressure regulation in normoxia but help maintain ventilatory augmentation in hypoxia, which underscores the dichotomy of central regulatory pathways for both systems.
KW - Acute hypoxia
KW - Blood pressure telemetry
KW - Cardiorespiratory regulation
KW - Hypoxic ventilatory response
KW - Microglia
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U2 - 10.1186/s12576-022-00848-y
DO - 10.1186/s12576-022-00848-y
M3 - Article
C2 - 36229778
AN - SCOPUS:85139953329
SN - 1880-6546
VL - 72
JO - Journal of Physiological Sciences
JF - Journal of Physiological Sciences
IS - 1
M1 - 26
ER -