Xing-Jun Liu
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Explore the profile of Xing-Jun Liu including associated specialties, affiliations and a list of published articles.
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Articles
22
Citations
644
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Recent Articles
1.
Chen H, Mohsin M, Ge J, Feng Y, Wang J, Ou Y, et al.
ACS Pharmacol Transl Sci
. 2024 Jan;
7(1):236-248.
PMID: 38230281
Optogenetics is a novel biotechnology widely used to precisely manipulate a specific peripheral sensory neuron or neural circuit. However, the use of optogenetics to assess the therapeutic efficacy of analgesics...
2.
Zhang F, Wang B, Hu H, Zhang Y, Chen H, Jiang Z, et al.
J Physiol Biochem
. 2023 Jan;
79(2):313-325.
PMID: 36696051
Signaling by the transforming growth factor (TGF)-β superfamily is necessary for proper neural development and is involved in pain processing under both physiological and pathological conditions. Sensory neurons that reside...
3.
Zhang F, Wang B, Hu H, Li Q, Chen H, Luo L, et al.
Endocr Metab Immune Disord Drug Targets
. 2022 Oct;
23(3):375-388.
PMID: 36201267
Background: Neuroinflammation and cytokines play critical roles in neuropathic pain and axon degeneration/regeneration. Cytokines of transforming growth factor-β superfamily have implications in pain and injured nerve repair processing. However, the...
4.
Jiang Z, Li Q, Zhang Y, Zeng M, Hu H, Zhang F, et al.
Neuroreport
. 2021 Mar;
32(5):378-385.
PMID: 33661805
The myeloid differentiation factor 88 (MyD88) adaptor mediates signaling by Toll-like receptors and some interleukins (ILs) in neural and non-neuronal cells. Recently, MyD88 protein was found to express in primary...
5.
Huang Y, Lu Y, Zhao X, Zhang J, Zhang F, Chen Y, et al.
Br J Pharmacol
. 2020 Oct;
177(24):5642-5657.
PMID: 33095918
Background And Purpose: The cytokine activin C is mainly expressed in small-diameter dorsal root ganglion (DRG) neurons and suppresses inflammatory pain. However, the effects of activin C in neuropathic pain...
6.
Mu D, Deng J, Liu K, Wu Z, Shi Y, Guo W, et al.
Science
. 2017 Aug;
357(6352):695-699.
PMID: 28818946
Although itch sensation is an important protective mechanism for animals, chronic itch remains a challenging clinical problem. Itch processing has been studied extensively at the spinal level. However, how itch...
7.
Lin S, Wang B, Zhang F, Fei Y, Gu J, Li J, et al.
Biochem Biophys Res Commun
. 2017 Apr;
487(4):801-806.
PMID: 28450109
T-type calcium channels are prominently expressed in primary nociceptive fibers and well characterized in pain processes. Although itch and pain share many similarities including primary sensory fibers, the function of...
8.
Lin S, Yu X, Liu X, Wang B, Li C, Sun Y, et al.
Neuroreport
. 2016 Aug;
27(15):1174-81.
PMID: 27571431
Substantial evidence indicates that T-type Cav3.2 channel and insulin-like growth factor-1 (IGF-1) contribute to pain hypersensitivity within primary sensory nerves. A recent study suggested that activation of IGF-1 receptor (IGF-1R)...
9.
Shi Z, Li X, Bai H, Xu W, Yang S, Lu Y, et al.
Heliyon
. 2016 Jul;
2(3):e00094.
PMID: 27441268
In this paper, theoretical calculations were conducted to determine the coefficient of thermal expansion (CTE) based on the effective medium approach using Green's function method. The influences of microstructural features...
10.
Liu X, Liu T, Chen G, Wang B, Yu X, Yin C, et al.
Sci Rep
. 2016 Jun;
6:28188.
PMID: 27312666
Increasing evidence suggests that neuro-immune and neuro-glial interactions are critically involved in chronic pain sensitization. It is well studied how immune/glial mediators sensitize pain, but how sensory neurons control neuroinflammation...