Identification of candidate genes and miRNAs associated with neuropathic pain induced by spared nerve injury

Wan, Hongquan; Zhao, Haijun; Luan, Shuxin; Zhang, Chun‐Guo

doi:10.3892/ijmm.2019.4305

Cited by 9 publications

(13 citation statements)

References 54 publications

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“…In silico analysis has shown some association of CXCR2 with atrial fibrillationpotential miRNAs that decrease CXCR2 expression are miR-5001-3p and miR-4283 [24]. Another in silico analysis of genes associated with neuropathic pain has shown that CXCR2 expression may be increased by reducing the expression of miR-7688-3p [25]. The study was associated with the earlier observation that CXCR2 is a receptor important in the development of neuropathic pain [26].…”

Section: Involvement Of Micrornas In the Regulation Of Cxcr2 Expressionsupporting

confidence: 55%

CXCR2 Receptor: Regulation of Expression, Signal Transduction, and Involvement in Cancer

Korbecki

Kupnicka

Chlubek

et al. 2022

IJMS

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Chemokines are a group of about 50 chemotactic cytokines crucial for the migration of immune system cells and tumor cells, as well as for metastasis. One of the 20 chemokine receptors identified to date is CXCR2, a G-protein-coupled receptor (GPCR) whose most known ligands are CXCL8 (IL-8) and CXCL1 (GRO-α). In this article we present a comprehensive review of literature concerning the role of CXCR2 in cancer. We start with regulation of its expression at the transcriptional level and how this regulation involves microRNAs. We show the mechanism of CXCR2 signal transduction, in particular the action of heterotrimeric G proteins, phosphorylation, internalization, intracellular trafficking, sequestration, recycling, and degradation of CXCR2. We discuss in detail the mechanism of the effects of activated CXCR2 on the actin cytoskeleton. Finally, we describe the involvement of CXCR2 in cancer. We focused on the importance of CXCR2 in tumor processes such as proliferation, migration, and invasion of tumor cells as well as the effects of CXCR2 activation on angiogenesis, lymphangiogenesis, and cellular senescence. We also discuss the importance of CXCR2 in cell recruitment to the tumor niche including tumor-associated neutrophils (TAN), tumor-associated macrophages (TAM), myeloid-derived suppressor cells (MDSC), and regulatory T (Treg) cells.

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Section: Involvement Of Micrornas In the Regulation Of Cxcr2 Expressionsupporting

confidence: 55%

CXCR2 Receptor: Regulation of Expression, Signal Transduction, and Involvement in Cancer

Korbecki

Kupnicka

Chlubek

et al. 2022

IJMS

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show abstract

“…Similar to human studies, differentially expressed miRNAs are extensively explored in preclinical neuropathic pain models [31,[59][60][61][62][63][64]. In several of the routinely used models, specific miRNAs are up-or down-regulated all along the pain pathway and described in a number of recent publications and reviews [59,60,62,[64][65][66][67][68][69][70][71]. The following section takes a more mechanistic approach and provides an overview of miRNAs deregulated in tissues in relevant preclinical pain models for which a relevant target gene and insight into neuropathic pain mechanisms have been validated (see Table 3 ).…”

Section: Mirna Tissue Expression In Rodent Modelsmentioning

confidence: 99%

Non-coding RNAs in neuropathic pain

2020

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Neuro-immune alterations in the peripheral and central nervous system play a role in the pathophysiology of chronic pain in general, and members of the non-coding RNA (ncRNA) family, specifically the short, 22 nucleotide microRNAs (miRNAs) and the long non-coding RNAs (lncRNAs) act as master switches orchestrating both immune as well as neuronal processes. Several chronic disorders reveal unique ncRNA expression signatures, which recently generated big hopes for new perspectives for the development of diagnostic applications. lncRNAs may offer perspectives as candidates indicative of neuropathic pain in liquid biopsies. Numerous studies have provided novel mechanistic insight into the role of miRNAs in the molecular sequelae involved in the pathogenesis of neuropathic pain along the entire pain pathway. Specific processes within neurons, immune cells, and glia as the cellular components of the neuropathic pain triad and the communication paths between them are controlled by specific miRNAs. Therefore, nucleotide sequences mimicking or antagonizing miRNA actions can provide novel therapeutic strategies for pain treatment, provided their human homologues serve the same or similar functions. Increasing evidence also sheds light on the function of lncRNAs, which converge so far mainly on purinergic signalling pathways both in neurons and glia, and possibly even other ncRNA species that have not been explored so far.

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“…MicroRNAs (miRNAs) are noncoding genes that contain 19-25 nucleotides, which play a pivotal role in controlling biological processes by affecting messenger RNA (mRNA) stability and protein translation (Lopez-Gonzalez et al, 2017). There are a large number of reports of miRNA changes in the spinal cord of neuropathic pain models (Gong et al, 2015;Liu et al, 2018;Cao et al, 2019), whereas only a few studies have examined the mPFC (Li et al, 2019). We hypothesized that changes in miRNA and mRNA expression in the PL might influence behavioral changes in neuropathic pain and will become potential targets for pain control therapy.…”

Section: Introductionmentioning

confidence: 99%

Network Analysis of miRNA and mRNA Changes in the Prelimbic Cortex of Rats With Chronic Neuropathic Pain: Pointing to Inflammation

et al. 2020

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Neuropathic pain (NP) is a complex, chronic pain condition caused by injury or dysfunction affecting the somatosensory nervous system. This study aimed to identify crucial mRNAs and microRNAs (miRNAs) in the prelimbic cortex (PL) of NP rats. mRNA and miRNA microarrays were applied in the present study. The miRNA-mRNA regulatory network was constructed by using ingenuity pathway analysis (IPA). A total of 35 differentially expressed (DE) RNAs (24 miRNAs and 10 mRNAs) were identified in the spared nerve injury (SNI) group compared with the control group. The DE miRNA-mRNA network showed that IL-6 and tumor necrosis factor (TNF) were core components. Mir-30c-5p and mir-16-5p were the most connected miRNAs in the network. Interestingly, four mRNAs (Rnase 4, Egr2, Rexo4, and Klf2) with significantly increased expression were abundantly expressed in microglia, which was verified by the real-time quantitative polymerase chain reaction (qPCR). Furthermore, the expression of Rnase4 and Egr2 decreased in M1-polarized macrophages and increased in M2-polarized macrophages. In conclusion, we screened dozens of DE mRNAs and miRNAs in the PL of SNI rats. The core of the DE mRNA and miRNA network pointed to molecules associated with inflammation. Four mRNAs (Rnase4, Egr2, Rexo4, and Klf2) might be the potential markers of M2 polarization.

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Identification of candidate genes and miRNAs associated with neuropathic pain induced by spared nerve injury

Cited by 9 publications

References 54 publications

CXCR2 Receptor: Regulation of Expression, Signal Transduction, and Involvement in Cancer

CXCR2 Receptor: Regulation of Expression, Signal Transduction, and Involvement in Cancer

Non-coding RNAs in neuropathic pain

Network Analysis of miRNA and mRNA Changes in the Prelimbic Cortex of Rats With Chronic Neuropathic Pain: Pointing to Inflammation

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