Using a mouse model, the researchers found that PTH from the peripheral system bound to SFO, a circumventricular organ without a blood-brain barrier. Brain slice electrophysiology study and calcium fluorescent study indicated that peripheral PTH activated the SFO neurons.
The researchers identified the expression of PTH receptors on SFO neurons. Knockdown of PTH receptor 1 induced a decrease in basic PTH levels in mice and their response to peripheral stimulation of calcium.
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“These results indicate that the central nervous system (CNS) senses the circulating PTH, and the sensation of PTH from the brain is also necessary during the regulation of serum PTH,” said Prof. YANG Fan from SIAT, corresponding author of the study.
Furthermore, the researchers studied whether stimulation of the SFO neurons could modulate the peripheral PTH level in return. Both GABAergic and glutamatergic neurons were activated through chemogenetic technology.
Stimulation of the inhibitory GABAergic neurons induced a decrease in serum PTH and a decrease in trabecular bone density, while stimulation of the excitatory glutamatergic neurons showed the opposite effect.
Exploring the Neuroendocrine Connection in Brain-Bone Metabolism
“What is worth noting is, GABAergic neurons dominate the SFO cells expressing PTH receptor 1 while the glutamatergic neurons dominate the cells expressing PTH receptor 2,” said Prof. YANG.
The research team also studied the brain nucleus downstream of SFO. They found that the paraventricular nucleus (PVN) of the hypothalamus that receives GABAergic projection from SFO also modulates the serum PTH level and trabecular bone metabolism.
Previous studies generally focused on the afferent and efferent nerve fibers surrounding bones when discussing brain-bone connections. Now the current researchers have revealed that chemical signaling through the endocrine system also plays an important role in brain-bone talk.
“Traditionally, the subfornical organ is taken as a center of water-salt balance. Our study indicates that SFO is far more than that. The loose blood-brain barrier structure in SFO endows it with a variety of abilities sensing the peripheral humoral hormones,” said Dr. ZHANG Lu, the first author of the study. “We expect other circumventricular organs should also perform more in the interoception process.”
This study reveals the critical role of the brain-parathyroid-bone axis in maintaining bone metabolism homeostasis. It also provides new ideas for understanding how bone homeostasis is maintained.
Source: Eurekalert
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