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The subfornical organ regulates acidosis‐evoked fear by engaging microglial acid‐sensor TDAG8 and forebrain neurocircuits in male mice

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An important role of pH homeostasis has been suggested in the physiology of panic disorder, with acidosis as an interoceptive trigger leading to fear and panic. Identification of novel mechanisms… Click to show full abstract

An important role of pH homeostasis has been suggested in the physiology of panic disorder, with acidosis as an interoceptive trigger leading to fear and panic. Identification of novel mechanisms that can translate acidosis into fear will promote a better understanding of panic physiology. The current study explores a role of the subfornical organ (SFO), a blood–brain barrier compromised brain area, in translating acidosis to fear‐relevant behaviors. We performed SFO‐targeted acidification in male, wild‐type mice and mice lacking microglial acid‐sensing G protein–coupled receptor—T‐cell death‐associated gene 8 (TDAG8). Localized SFO acidification evoked significant freezing and reduced exploration that was dependent on the presence of acid‐sensor TDAG8. Acidosis promoted the activation of SFO microglia and neurons that were absent in TDAG8‐deficient mice. The assessment of regional neuronal activation in wild‐type and TDAG8‐deficient mice following SFO acidification revealed significant acidosis and genotype‐dependent alterations in the hypothalamus, amygdala, prefrontal cortex, and periaqueductal gray nuclei. Furthermore, mapping of interregional co‐activation patterns revealed that SFO acidosis promoted positive hypothalamic‐cortex associations and desynchronized SFO‐cortex and amygdala‐cortex associations, suggesting an interplay of homeostatic and fear regulatory areas. Importantly, these alterations were not evident in TDAG8‐deficient mice. Overall, our data support a regulatory role of subfornical organ microglial acid sensing in acidosis‐evoked fear, highlighting a centralized role of blood–brain barrier compromised nodes in interoceptive sensing and behavioral regulation. Identification of pathways by which humoral information can modulate fear behavior is relevant to panic disorder, where aberrant interoceptive signaling has been reported.

Keywords: acidosis; acid; physiology; fear; mice; subfornical organ

Journal Title: Journal of Neuroscience Research
Year Published: 2022

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