Cheng Yang scite author profile

Renal fibrosis, especially tubulointerstitial fibrosis, is the inevitable outcome of all progressive chronic kidney diseases (CKDs) and exerts a great health burden worldwide. For a long time, interests in renal fibrosis have been concentrated on fibroblasts and myofibroblasts. However, in recent years, growing numbers of studies have focused on the role of tubular epithelial cells (TECs). TECs, rather than a victim or bystander, are probably a neglected mediator in renal fibrosis, responding to a variety of injuries. The maladaptive repair mechanisms of TECs may be the key point in this process. In this review, we will focus on the role of TECs in tubulointerstitial fibrosis. We will follow the fate of a tubular cell and depict the intracellular changes after injury. We will then discuss how the repair mechanism of tubular cells becomes maladaptive, and we will finally discuss the intercellular crosstalk in the interstitium that ultimately proceeds tubulointerstitial fibrosis.

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Regulation of Opioid Tolerance by let-7 Family MicroRNA Targeting the μ Opioid Receptor

Hé¹,

Yang²,

Kirkmire³

et al. 2010

J. Neurosci.

177

155

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MicroRNA has emerged as a critical regulator of neuronal functions. This study aimed to test whether let-7 microRNAs can regulate the opioid receptor (MOR) and opioid tolerance. Employing bioinformatics, we identified a let-7 binding site in the 3Ј-untranslated region (UTR) of MOR mRNA, which was experimentally confirmed as a direct target of let-7. The repressive regulation of MOR by let-7 was revealed using a LNA-let-7 inhibitor to knockdown let-7 in SH-SY5Y cells. Conversely, morphine significantly upregulated let-7 expression in SH-SY5Y cells and in a mouse model of opioid tolerance. The LNA-let-7 inhibitor decreased brain let-7 levels and partially attenuated opioid antinociceptive tolerance in mice. Although chronic morphine treatment did not change overall MOR transcript, polysome-associated mRNA declined in a let-7-dependent manner. let-7 was identified as a mediator translocating and sequestering MOR mRNA to P-bodies, leading to translation repression. These results suggest that let-7 plays an integral role in opioid tolerance.

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Reversal of Chronic Inflammatory Pain by Acute Inhibition of Ca²⁺/Calmodulin-Dependent Protein Kinase II

Luo

Yang

Chen

et al. 2008

J Pharmacol Exp Ther

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Ca2ϩ /calmodulin-dependent protein kinase II (CaMKII) is a major protein kinase that is capable of regulating the activities of many ion channels and receptors. In the present study, the role of CaMKII in the complete Freund's adjuvant (CFA)-induced inflammatory pain was investigated. Intraplantarly injected CFA was found to induce spinal activity of CaMKII (phosphorylated CaMKII), which was blocked by KN93 [[2-[N-(2-hydroxyethyl) ]-N-(4-methoxybenzenesulfonyl)]amino-N-(4-chlorocinnamyl)-Nmethylbenzylamine)], a CaMKII inhibitor. Pretreatment with KN93(i.t.) dose-dependently prevented the development of CFAinduced thermal hyperalgesia and mechanical allodynia. Acute treatment with KN93 (i.t.) also dose-dependently reversed CFAinduced thermal hyperalgesia and mechanical allodynia. The action of KN93 started in 30 min and lasted for at least 2 to 4 h.

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Ca²⁺/Calmodulin-Dependent Protein Kinase IIα Is Required for the Initiation and Maintenance of Opioid-Induced Hyperalgesia

Chen

Yang

Wang³

2010

J. Neurosci.

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Repeated administration of opioids not only leads to tolerance and dependence, but also results in nociceptive enhancement called opioid-induced hyperalgesia (OIH). Nociceptive mediators involved in OIH generation remain poorly understood. In the present study, we tested the hypothesis that Ca 2ϩ /calmodulin-depent protein kinase II (CaMKII␣) is critical for OIH. Opioid-induced hyperalgesia was produced by repeated morphine administration or pellet implantation in mice. Correlating with the development of tactile allodynia and thermal hyperalgesia, spinal CaMKII␣ activity was significantly increased in OIH. KN93, a CaMKII inhibitor, dose-and time-dependently reversed OIH and CaMKII activation without impairing locomotor coordination. To elucidate the specific CaMKII isoform involved, we targeted CaMKII␣ by using small interfering RNA and demonstrated that knockdown of spinal CaMKII␣ attenuated OIH. Furthermore, morphine failed to induce OIH in CaMKII␣ T286A point mutant mice, although wild-type littermate mice developed robust OIH after repeated treatments with morphine. These data implicate, for the first time, an essential role of CaMKII␣ as a cellular mechanism leading to and maintaining opioid-induced hyperalgesia.

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A novel proteolysis-resistant cyclic helix B peptide ameliorates kidney ischemia reperfusion injury

Yang

Zhao

et al. 2014

Biochimica et Biophysica Acta (BBA) - Molecular Basis of Diseas

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The mTOR signal regulates myeloid-derived suppressor cells differentiation and immunosuppressive function in acute kidney injury

Zhang

Wang

et al. 2017

Cell Death Dis

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The mammalian target of rapamycin (mTOR) signal controls innate and adaptive immune response in multiple immunoregulatory contexts. Myeloid-derived suppressor cells (MDSCs) are a heterogeneous population of myeloid cells of potent immunosuppressive capacity. In this study, we aimed to investigate the role of MDSCs in the protection of acute kidney injury (AKI) and the regulation of mTOR signal on MDSC's protective role in this context. In mice AKI model, rapamycin administration was associated with improved renal function, restored histological damage and decreased CD4+ and CD8+ T-cell infiltration in kidney tissue. MDSCs, especially CD11b+Ly6G+Ly6Clow G-MDSCs were recruited to the injured kidney following the interaction of CXCL1, CXCL2 and their receptor CXCR2 after inhibiting mTOR signal with rapamycin treatment. The adoptive transfer of rapamycin-treated MDSCs into the mice with AKI significantly improved the renal function, ameliorated histologic damages and limited the infiltration of T cells in kidney tissue. In addition, the expression of pro-inflammatory cytokines IL-1β and IFN-γ mRNA was downregulated while the expression of TGF-β1 and Foxp3 mRNA was upregulated in kidney tissue after transferring rapamycin-treated MDSCs. Adoptive transfer of rapamycin-treated MDSCs also downregulated the serum levels of IL-1β, IL-6 and IFN-γ and upregulated the serum levels of TGF-β1 compared with the IR group and PBS-treated MDSC group. In in vitro study, inhibiting mTOR signal regulated the induction of MDSC towards the CD11b+Ly6G+Ly6Clow G-MDSC subset. The ability to suppress T-cell proliferation of both bone marrow–derived CD11b+Ly6G+Ly6Clow G-MDSCs and CD11b+Ly6G-Ly6Chigh M-MDSCs was enhanced by mTOR signal inhibition via upregulating the expression of Arginase-1 and iNOS. Accordingly, both G-MDSCs and M-MDSCs presented downregulated runx1 gene expression after rapamycin treatment. Taken together, our results demonstrated that MDSCs ameliorated AKI and the protective effect was enhanced by mTOR signal inhibition via promoting MDSCs recruitment, regulating the induction of MDSCs and strengthening their immunosuppressive activity.

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Erythropoietin and its derivatives: from tissue protection to immune regulation

et al. 2020

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Erythropoietin (EPO) is an evolutionarily conserved hormone well documented for its erythropoietic role via binding the homodimeric EPO receptor (EPOR) 2. In past decades, evidence has proved that EPO acts far beyond erythropoiesis. By binding the tissue-protective receptor (TPR), EPO suppresses proinflammatory cytokines, protects cells from apoptosis and promotes wound healing. Very recently, new data revealed that TPR is widely expressed on a variety of immune cells, and EPO could directly modulate their activation, differentiation and function. Notably, nonerythropoietic EPO derivatives, which mimic the structure of helix B within EPO, specifically bind TPR and show great potency in tissue protection and immune regulation. These small peptides prevent the cardiovascular side effects of EPO and are promising as clinical drugs. This review briefly introduces the receptors and tissue-protective effects of EPO and its derivatives and highlights their immunomodulatory functions and application prospects.

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Cheng Yang

Proteinase-activated receptor 2 sensitizes transient receptor potential vanilloid 1, transient receptor potential vanilloid 4, and transient receptor potential ankyrin 1 in paclitaxel-induced neuropathic pain

Renal tubular epithelial cells: the neglected mediator of tubulointerstitial fibrosis after injury

Regulation of Opioid Tolerance by let-7 Family MicroRNA Targeting the μ Opioid Receptor

Reversal of Chronic Inflammatory Pain by Acute Inhibition of Ca²⁺/Calmodulin-Dependent Protein Kinase II

Ca²⁺/Calmodulin-Dependent Protein Kinase IIα Is Required for the Initiation and Maintenance of Opioid-Induced Hyperalgesia

A novel proteolysis-resistant cyclic helix B peptide ameliorates kidney ischemia reperfusion injury

The mTOR signal regulates myeloid-derived suppressor cells differentiation and immunosuppressive function in acute kidney injury

Erythropoietin and its derivatives: from tissue protection to immune regulation

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Cheng Yang

Proteinase-activated receptor 2 sensitizes transient receptor potential vanilloid 1, transient receptor potential vanilloid 4, and transient receptor potential ankyrin 1 in paclitaxel-induced neuropathic pain

Renal tubular epithelial cells: the neglected mediator of tubulointerstitial fibrosis after injury

Regulation of Opioid Tolerance by let-7 Family MicroRNA Targeting the μ Opioid Receptor

Reversal of Chronic Inflammatory Pain by Acute Inhibition of Ca2+/Calmodulin-Dependent Protein Kinase II

Ca2+/Calmodulin-Dependent Protein Kinase IIα Is Required for the Initiation and Maintenance of Opioid-Induced Hyperalgesia

A novel proteolysis-resistant cyclic helix B peptide ameliorates kidney ischemia reperfusion injury

The mTOR signal regulates myeloid-derived suppressor cells differentiation and immunosuppressive function in acute kidney injury

Erythropoietin and its derivatives: from tissue protection to immune regulation

Contact Info

Product

Resources

About

Reversal of Chronic Inflammatory Pain by Acute Inhibition of Ca²⁺/Calmodulin-Dependent Protein Kinase II

Ca²⁺/Calmodulin-Dependent Protein Kinase IIα Is Required for the Initiation and Maintenance of Opioid-Induced Hyperalgesia