Ping Mo

Washington University in St. Louis

4 Papers

Ping Mo is an academic researcher from Washington University in St. Louis. The author has contributed to research in topics: Histamine & Internal medicine. The author has an hindex of 4, co-authored 4 publications. Previous affiliations of Ping Mo include Southern Medical University & Fourth Military Medical University.

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Papers

•Journal Article•10.1016/J.NEURON.2014.10.003

Descending Control of Itch Transmission by the Serotonergic System via 5-HT1A-Facilitated GRP-GRPR Signaling

Zhong Qiu Zhao, +22 more

- 19 Nov 2014

- Neuron

TL;DR: It is demonstrated that the descending 5-HT system facilitates GRP-GRPR signaling via 5-ht1A to augment itch-specific outputs, and a disruption of crosstalk between 5- HT1A and GRPR may be a useful antipruritic strategy.

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•Journal Article•10.1126/SCISIGNAL.AAF1047

Facilitation of TRPV4 by TRPV1 is required for itch transmission in some sensory neuron populations

Seung Il Kim, +17 more

- 19 Jul 2016

- Science Signaling

TL;DR: TRPV4 is identified as a channel that contributes to both histamine- and chloroquine-induced itch and indicated that the function of TRPV 4 in itch signaling involves TRPv1-mediated facilitation, which is beneficial in treating intractable chronic itch.

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•Journal Article•10.1038/S41598-017-15756-0

Distinct roles of NMB and GRP in itch transmission

Li Wan, +22 more

- 13 Nov 2017

- Scientific Reports

TL;DR: It is shown that itch deficits in mice lacking NMB or GRP are non-redundant and Nmb/Grp double KO (DKO) mice displayed additive deficits, and it is proposed that NMB and GRP may transmit discrete itch information and NMBR neurons are an integral part of neural circuits for itch in the spinal cord.

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Ping Mo

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Papers

Descending Control of Itch Transmission by the Serotonergic System via 5-HT1A-Facilitated GRP-GRPR Signaling

Facilitation of TRPV4 by TRPV1 is required for itch transmission in some sensory neuron populations

Distinct roles of NMB and GRP in itch transmission

Non-canonical Opioid Signaling Inhibits Itch Transmission in the Spinal Cord of Mice