Excitatory projections from arcuate nucleus to ventrolateral periaqueductal gray in electroacupuncture inhibition of cardiovascular reflexes.

@article{Li2006ExcitatoryPF,
  title={Excitatory projections from arcuate nucleus to ventrolateral periaqueductal gray in electroacupuncture inhibition of cardiovascular reflexes.},
  author={Peng Li and Stephanie C Tjen-A-Looi and John C. Longhurst},
  journal={American journal of physiology. Heart and circulatory physiology},
  year={2006},
  volume={290 6},
  pages={
          H2535-42
        }
}
We have shown that the modulatory effect of electroacupuncture (EA) on the blood pressure (BP) response induced by visceral organ stimulation is related to inhibition of cardiovascular neurons in the rostral ventrolateral medulla (rVLM) through a mechanism that involves opioids. This effect is long lasting and may involve a long-loop neural supraspinal pathway, including the arcuate nucleus (ARC), which is an important site of opioid neurotransmitter synthesis. Therefore, we evaluated the role… 
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An arcuate-ventrolateral periaqueductal gray reciprocal circuit participates in electroacupuncture cardiovascular inhibition
Serotonergic projection from nucleus raphe pallidus to rostral ventrolateral medulla modulates cardiovascular reflex responses during acupuncture.
We have demonstrated that stimulation of somatic afferents during electroacupuncture (EA) inhibits sympathoexcitatory cardiovascular rostral ventrolateral medulla (rVLM) neurons and reflex responses.
Nucleus raphe pallidus participates in midbrain-medullary cardiovascular sympathoinhibition during electroacupuncture.
TLDR
Electroacupuncture activates the vlPAG, which excites the NRP to inhibit rVLM presympathetic neurons and reflex cardiovascular sympathoexcitatory responses.
Activation of reciprocal pathways between arcuate nucleus and ventrolateral periaqueductal gray during electroacupuncture: Involvement of VGLUT3
Long-loop pathways in cardiovascular electroacupuncture responses.
TLDR
The vlPAG, particularly, the caudal vl PAG, is required for ARC inhibition of rVLM neuronal activation and subsequent EA-related cardiovascular activation.
Role of medullary GABA, opioids, and nociceptin in prolonged inhibition of cardiovascular sympathoexcitatory reflexes during electroacupuncture in cats.
TLDR
The ARC, an important component in the long-loop pathway in the EA cardiovascular response, is required for prolonged suppression of reflex cardiovascular excitatory responses by EA.
Expression of c-Fos in arcuate nucleus induced by electroacupuncture: Relations to neurons containing opioids and glutamate
Midbrain vlPAG inhibits rVLM cardiovascular sympathoexcitatory responses during electroacupuncture.
TLDR
The inhibitory influence of EA involves vlPAG stimulation, which, in turn, inhibits rVLM neurons in the EA-related attenuation of the cardiovascular excitatory response during visceral afferent stimulation.
Paraventricular Nucleus Modulates Excitatory Cardiovascular Reflexes during Electroacupuncture
TLDR
The PVN and its projection to rVLM are important in processing acupuncture modulation of elevated blood pressure responses through a PVN opioid mechanism through a EA-modulation of sympathoexcite cardiovascular responses.
Processing cardiovascular information in the vlPAG during electroacupuncture in rats: roles of endocannabinoids and GABA.
TLDR
It is hypothesized that, during EA, endocannabinoids, acting through CB(1) receptors, presynaptically inhibit GABA release to disinhibit the vlPAG and ultimately modulate excitatory reflex blood pressure responses.
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References

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Midbrain vlPAG inhibits rVLM cardiovascular sympathoexcitatory responses during electroacupuncture.
TLDR
The inhibitory influence of EA involves vlPAG stimulation, which, in turn, inhibits rVLM neurons in the EA-related attenuation of the cardiovascular excitatory response during visceral afferent stimulation.
Prolonged inhibition of rostral ventral lateral medullary premotor sympathetic neurons by electroacupuncture in cats
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TLDR
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