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Query: UNIPROT:P06889 (
Mol
)
630,302
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Visceral pain
models are used to study afferent nerve traffic during noxious stimulation at the level of the visceral organ. This chapter provides details on several in vitro and in vivo models of organs in the gastrointestinal and genitourinary tract that use electrophysiological recordings of afferent nerve fibres in order to directly characterize stimulus-response relationships. These models can also be used to investigate stimulus-response patterns during physiological (nonpainful) stimulation of the visceral organs or during exposure to pathological stimuli, such as inflammatory mediators during inflammation of the visceral organ.
Methods
Mol
Biol 2010
PMID:Experimental models of visceral pain. 2033 18
Visceral pain
, characterized by abdominal discomfort, originates from organs in the abdominal cavity and is a characteristic symptom in patients suffering from irritable bowel syndrome, vulvodynia or interstitial cystitis. Most organs in which visceral pain originates are in contact with the external milieu and continuously exposed to microbes. In order to maintain homeostasis and prevent infections, the immune- and nervous system in these organs cooperate to sense and eliminate (harmful) microbes. Recognition of microbial components or products by receptors expressed on cells from the immune and nervous system can activate immune responses but may also cause pain. We review the microbial compounds and their receptors that could be involved in visceral pain development.
Biochim Biophys Acta
Mol
Basis Dis 2020 01 01
PMID:Painful interactions: Microbial compounds and visceral pain. 3163 34
Visceral pain
is a common clinical symptom, which is caused by mechanical stretch, spasm, ischemia and inflammation. Fragile X syndrome (FXS) with lack of fragile X mental retardation protein (FMRP) protein is an inherited disorder that is characterized by moderate or severe intellectual and developmental disabilities. Previous studies reported that FXS patients have self-injurious behavior, which may be associated with deficits in nociceptive sensitization. However, the role of FMRP in visceral pain is still unclear. In this study, the
FMR1
knock out (KO) mice and SH-SY5Y cell line were employed to demonstrate the role of FMRP in the regulation of visceral pain. The data showed that
FMR1
KO mice were insensitive to zymosan treatment. Recording in the anterior cingulate cortex (ACC), a structure involved in pain process, showed less presynaptic glutamate release and postsynaptic responses in the
FMR1
KO mice as compared to the wild type (WT) mice after zymosan injection. Zymosan treatment caused enhancements of adenylyl cyclase 1 (AC1), a pain-related enzyme, and NMDA GluN2B receptor in the ACC. However, these up-regulations were attenuated in the ACC of
FMR1
KO mice. Last, we found that zymosan treatment led to increase of FMRP levels in the ACC. These results were further confirmed in SH-SY5Y cells in vitro. Our findings demonstrate that FMRP is required for NMDA GluN2B and AC1 upregulation, and GluN2B/AC1/FMRP forms a positive feedback loop to modulate visceral pain.
Mol
Pain
PMID:FMRP acts as a key messenger for visceral pain modulation. 3324 40
