The nucleus tractus solitarius mediates hyperalgesia induced by chronic pancreatitis in rats

Bai, Yang; Chen, Ying-Biao; Qiu, Xin-Tong; Chen, Yanbing; Ma, Li-Tian; Li, Ying‐Qi; Sun, Hongke; Zhang, Mingming; Zhang, Ting; Chen, Tao; Fan, Boyuan; Li, Hui; Li, Yunqing

doi:10.3748/wjg.v25.i40.6077

Cited by 20 publications

(16 citation statements)

References 76 publications

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“…In addition, the neurocircuitry in the ACC that is the basis of the modulation of painful CP has received little attention. Our previous studies support the hypothesis that the NTS is an important central site for the processing of visceral pain caused by CP and angina pectoris [27,28]. We propose that the ACC may receive direct visceral pain inputs from the NTS, and neuroplastic changes within the ACC are involved in hyperalgesia and comorbid anxiety under the condition of painful CP.…”

Section: Introductionsupporting

confidence: 85%

Anterior Cingulate Cortex Mediates Hyperalgesia and Anxiety Induced by Chronic Pancreatitis in Rats

Ren

Qiu

et al. 2021

Neurosci. Bull.

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Central sensitization is essential in maintaining chronic pain induced by chronic pancreatitis (CP), but cortical modulation of painful CP remains elusive. Here, we examined the role of the anterior cingulate cortex (ACC) in the pathogenesis of abdominal hyperalgesia in a rat model of CP induced by intraductal administration of trinitrobenzene sulfonic acid (TNBS). TNBS treatment resulted in long-term abdominal hyperalgesia and anxiety in rats. Morphological data indicated that painful CP induced a significant increase in FOS-expressing neurons in the nucleus tractus solitarii (NTS) and ACC, and some FOS-expressing neurons in the NTS projected to the ACC. In addition, a larger portion of ascending fibers from the NTS innervated pyramidal neurons, the neural subpopulation primarily expressing FOS under the condition of painful CP, rather than GABAergic neurons within the ACC. CP rats showed increased expression of vesicular glutamate transporter 1, and increased membrane trafficking and phosphorylation of the N-methyl-D-aspartate receptor (NMDAR) subunit NR2B and the α-amino-3-hydroxy-5-methyl-4-isoxazole propionic acid receptor (AMPAR) subunit GluR1 within the ACC. Microinjection of NMDAR and AMPAR antagonists into the ACC to block excitatory synaptic transmission significantly attenuated abdominal hyperalgesia in CP rats, which was similar to the analgesic effect of endomorphins injected into the ACC. Specifically inhibiting the excitability of ACC pyramidal cells via chemogenetics reduced both hyperalgesia and comorbid anxiety, whereas activating these neurons via optogenetics failed to aggravate hyperalgesia and anxiety in CP rats. Taken together, these findings provide neurocircuit, biochemical, and behavioral evidence for involvement of the ACC in hyperalgesia and anxiety in CP rats, as well as novel insights into the cortical modulation of painful CP, and highlights the ACC as a potential target for neuromodulatory interventions in the treatment of painful CP.

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Section: Introductionsupporting

confidence: 85%

Anterior Cingulate Cortex Mediates Hyperalgesia and Anxiety Induced by Chronic Pancreatitis in Rats

Ren

Qiu

et al. 2021

Neurosci. Bull.

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“…In other studies, the stimulation of the vagus nerve had neuroprotective effects in the PD model (Farrand et al, 2020 ). From these perspectives, the elevated levels of c-Fos-positive cells found in the Sol seem to be related to the mechanism of anti-inflammation process against PD pathogenesis (Bonaz et al, 2017 ; Bai et al, 2019 ). However, further studies are warranted to reveal the exact mechanism associated with the increase of c-Fos neurons by acupuncture.…”

Section: Discussionmentioning

confidence: 99%

Acupuncture Regulates Symptoms of Parkinson’s Disease via Brain Neural Activity and Functional Connectivity in Mice

Lee

Hwang

et al. 2022

Front. Aging Neurosci.

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Parkinson’s disease (PD) is a multilayered progressive brain disease characterized by motor dysfunction and a variety of other symptoms. Although acupuncture has been used to ameliorate various symptoms of neurodegenerative disorders, including PD, the underlying mechanisms are unclear. Here, we investigated the mechanism of acupuncture by revealing the effects of acupuncture treatment on brain neural responses and its functional connectivity in an animal model of PD. We observed that destruction of neuronal network between many brain regions in PD mice were reversed by acupuncture. Using machine learning analysis, we found that the key region associated with the improvement of abnormal behaviors might be related to the neural activity of M1, suggesting that the changes of c-Fos in M1 could predict the improvement of motor function induced by acupuncture treatment. In addition, acupuncture treatment was shown to significantly normalize the brain neural activity not only in M1 but also in other brain regions related to motor behavior (striatum, substantia nigra pars compacta, and globus pallidus) and non-motor symptoms (hippocampus, lateral hypothalamus, and solitary tract) of PD. Taken together, our results demonstrate that acupuncture treatment might improve the PD symptoms by normalizing the brain functional connectivity in PD mice model and provide new insights that enhance our current understanding of acupuncture mechanisms for non-motor symptoms.

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Section: Discussionmentioning

confidence: 99%

“…Future studies will be directed to determine if DSS-induced inflammation might cause a reduction of inhibitory inputs and/or an increase of excitatory inputs to spinal VGLUT3 lineage neurons, such that low-threshold colorectal distension can sufficiently activate VGLUT3 neurons, followed by T neuron activation to drive affective pain. One hallmark for inflammatory visceral pain manifestation is the development of referred cutaneous mechanical hypersensitivity (Bai et al, 2019; Bielefeldt et al, 2006; Bourdu et al, 2005; Cao et al, 2021; Gao et al, 2021; Jain et al, 2022; Laird et al, 2000; Laird et al, 2002; Lv et al, 2019; Traub et al, 2008; Zhou et al, 2008). Such referred hypersensitivity was also abolished in VGLUT3 Lbx1 -Abl mice, suggesting that VGLUT3 neurons must be part of previously proposed spinal circuits receiving convergent inputs from cutaneous and visceral afferents (Cervero, 2009; Cui et al, 2022; Fang et al, 2021; Fuentes and Christianson, 2018; Gebhart and Bielefeldt, 2016; Luz et al, 2015; Qiao and Tiwari, 2020).…”

Section: Discussionmentioning

confidence: 99%

Spinal VGLUT3 lineage neurons drive visceral mechanical allodynia but not visceromotor reflexes

Lin

2022

Preprint

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Visceral pain is among the most prevalent and bothersome forms of chronic pain, but their transmission in the spinal cord is still poorly understood. Here we used a focal colorectal distention (fCRD) method to drive visceromotor responses (VMRs) plus affective pain-indicative aversive learning. We first found that spinal CCK neurons were necessary for noxious fCRD to drive both VMRs and aversion. We next showed that spinal VGLUT3 neurons mediate affective visceral allodynia, whose ablation caused loss of aversion evoked by low-intensity fCRD in mice with gastrointestinal (GI) inflammation or spinal circuit disinhibition. Importantly, these neurons are dispensable for driving VMRs. Anatomically, VGLUT3 neurons send projection to the parabrachial nuclei, whose photoactivation sufficiently generated aversion in mice with GI inflammation. Our studies suggest the presence of different spinal substrates that transmit nociceptive versus affective dimensions of visceral sensory information.

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The nucleus tractus solitarius mediates hyperalgesia induced by chronic pancreatitis in rats

Cited by 20 publications

References 76 publications

Anterior Cingulate Cortex Mediates Hyperalgesia and Anxiety Induced by Chronic Pancreatitis in Rats

Anterior Cingulate Cortex Mediates Hyperalgesia and Anxiety Induced by Chronic Pancreatitis in Rats

Acupuncture Regulates Symptoms of Parkinson’s Disease via Brain Neural Activity and Functional Connectivity in Mice

Spinal VGLUT3 lineage neurons drive visceral mechanical allodynia but not visceromotor reflexes

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