Jingyu Wan scite author profile

Despite the great achievements that nanomedicines have obtained so far, deep penetration of nanomedicines into tumors is still a major challenge in tumor treatment. The enhanced permeability and retention (EPR) effect was the main theoretical foundation for using nanomedicines to treat solid tumor. However, the antitumor efficiency is modest because the tumor is heterogeneous, with dense collagen matrix, abnormal tumor vasculature, and lymphatic system. Nanomedicines could only passively accumulate near leaky site of tumor vessels, and they cannot reach the deep region of tumor. To enhance further the tumor penetration efficiency, we developed a novel strategy of coadministering cell-homing penetration peptide iRGD with size-shrinkable and tumor-microenvironment-responsive multistage system (DOX-AuNPs-GNPs) to overcome these barriers. First, iRGD could specifically increase the permeability of tumor vascular and tumor tissue, leading to more DOX-AuNPs-GNPs leaking out from tumor vasculature. Second, the multistage system passively accumulated in tumor tissue and shrank from 131.1 to 46.6 nm to reach the deep region of tumor. In vitro, coadministering iRGD with DOX-AuNPs-GNPs showed higher cellular uptake and apoptosis ratio. In vivo, coadministering iRGD with DOX-AuNPs-GNPs presented higher penetration and accumulation in tumor than giving DOX-AuNPs-GNPs alone, leading to the best antitumor efficiency in 4T1 tumor-bearing mouse model.

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PEGylated Fluorescent Carbon Nanoparticles for Noninvasive Heart Imaging

Ruan

Wan

et al. 2014

Bioconjugate Chem.

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Fluorescent carbon nanoparticles (CNP) have gained much attention due to their unique fluorescent properties and safety. In this study, we evaluated the potential application of CNP and PEGylated CNP (PEG-CNP) in noninvasive heart imaging. CNP was prepared by hydrothermal treatment of silk. The particle size and zeta potential of CNP were 121.8 nm and -3.7 mV, respectively, which did not change significantly after PEGylation with a PEG density of 4.43 ± 0.02 μg/mg CNP. FTIR and XPS showed that CNP possessed several functional groups, such as -COOH, -OH, and NH2, which could be utilized for PEGylation and other modifications. CNP displayed strong blue fluorescence after excitation at the wavelength of 375 nm. PEG-CNP displayed better serum stability compared to CNP. The hemolysis rate of PEG-CNP was lower than that of CNP, suggesting PEGylation could enhance the hemocompatibility of CNP. Both CNP and PEG-CNP showed higher uptake capacity by H9c2 cells (a heart cell line) than that by human umbilical vein endothelial cells (HUVEC), suggesting the particles tend to be selectively taken up by heart cells. Both CNP and PEG-CNP were proven to be taken up through endosome-mediated pathway, and the colocalization of nanoparticles with mitochondria was also observed. In vivo results demonstrated that CNP could target heart with much higher fluorescent intensity than liver and spleen. Although PEGylation could decrease the distribution in heart, it remained high for PEG-CNP. In conclusion, CNP could be used for heart imaging, and moreover, PEGylation could improve the stability and biocompatibility of CNP.

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Significantly enhanced tumor cellular and lysosomal hydroxychloroquine delivery by smart liposomes for optimal autophagy inhibition and improved antitumor efficiency with liposomal doxorubicin

et al. 2016

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He (2016) Significantly enhanced tumor cellular and lysosomal hydroxychloroquine delivery by smart liposomes for optimal autophagy inhibition and improved antitumor efficiency with liposomal doxorubicin, Autophagy, 12:6, 949-962, DOI: 10.1080/15548627.2016 HCQ/Lip-TR was efficiently internalized as a result of its ability to bind ITGAV-ITGB3/integrin a v b 3 receptors highly expressed on the tumor cell surface and to undergo charge reversal from anionic at pH 7.4 to cationic at pH 6.5. Studies in vitro at pH 6.5 showed that the intracellular HCQ concentration was 35.68-fold higher, and lysosomal HCQ concentration 32.22-fold higher, after treating cultures with HCQ/Lip-TR than after treating them with free HCQ. The corresponding enhancements observed in mice bearing B16F10 tumors were 15.16-fold within tumor cells and 14.10-fold within lysosomes. HCQ/Lip-TR was associated with milder anemia and milder myosuppressive reductions in white blood cell and platelet counts than free HCQ, as well as less accumulation in the small intestine, which may reduce risk of intestinal side effects. In addition, co-delivering HCQ/Lip-TR with either free doxorubicin (DOX) or liposomal DOX improved the ability of DOX to inhibit tumor growth. Biochemical, electron microscopy and immunofluorescence experiments confirmed that HCQ/Lip-TR blocked autophagic flux in tumor cells. Our results suggest that loading HCQ into Lip-TR liposomes may increase the effective concentration of the inhibitor in tumor cells, allowing less toxic doses to be used.

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Pharmacological characterization of a novel gastrodin derivative as a potential anti-migraine agent

et al. 2016

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microRNA‐196a‐5p inhibits testicular germ cell tumor progression via NR6A1/E‐cadherin axis

Liu

Fan

et al. 2020

Cancer Medicine

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Testicular germ cell tumors (TGCTs) are a diverse group of neoplasms that are derived from dysfunctional fetal germ cells and can also present in extragonadal sites. The genetic drivers underlying malignant transformation of TGCTs have not been fully elucidated so far. The aim of the present study is to clarify the functional role and regulatory mechanism of miR‐196a‐5p in TGCTs. We demonstrated that miR‐196a‐5p was downregulated in TGCTs. It can inhibit the proliferation, migration, and invasion of testicular tumor cell lines including NT‐2 and NCCIT through targeting the NR6A1 gene, which we proved its role in promotion of cell proliferation and repression of cellular junction and aggregation. Mechanistically, NR6A1 inhibited E‐cadherin through binding with DR0 sites in the CDH1 gene promoter and recruiting methyltransferases Dnmt1. Further, NR6A1 promoted neuronal marker protein MAP2 expression in RA‐induced neurodifferentiation of NT‐2 cells and testicular tumor xenografts. Clinical histopathologically, NR6A1 was positively correlated with MAP2, and negatively correlated with E‐cadherin in TGCTs. These findings revealed that the miR‐196a‐5p represses cell proliferation, migration, invasion, and tumor neurogenesis by inhibition of NR6A1/E‐cadherin signaling axis, which may be a potential target for diagnosis and therapy of TGCTs.

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Chromodomain helicase DNA-binding domain 2 maintains spermatogonial self-renewal by promoting chromatin accessibility and mRNA stability

Min¹,

Xin²,

Liu³

et al. 2022

iScience

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MiR-196a-5p/NR6A1 Regulates All-Trans Retinoic Acid Induced Neural Differentiation of hNtera-2 Stem Cells via E-Cadherin Inhibition

et al. 2019

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NR2C2 of macrophages promotes inflammation via NF-κB in LPS-induced orchitis in mice

Min

Wan

Huan

et al. 2023

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Bacterial infection and induced inflammation are important causes of male infertility. Here, we described the characteristics of expression and the regulatory role of nuclear receptor subfamily 2 group C member 2 (NR2C2) in testicular inflammatory injury induced by infection with the bacterial endotoxin LPS. We found that NR2C2 was highly expressed in the testes and the expression of NR2C2 was upregulated in testicular macrophages in the LPS-induced mouse orchitis model in vivo. In primary testicular macrophages and RAW264.7 cells in vitro, RNA interference with the Nr2c2 gene downregulated the expression of inflammatory factors such as IL-1β and IL-6. In addition, the knockdown of NR2C2 in macrophages alleviated the inhibitory effect of the inflammatory supernatant secreted by the macrophages on the proliferation of spermatogonia GC-1 SPG cells. Mechanistically, NR2C2 activated NF-κB signaling by binding with DR elements in the promotor of the Nfκb gene and promoted the development of inflammation. These data are the first to confirm that during LPS-induced bacterial infection, NR2C2 plays a proinflammatory role by activating IL-1β and IL-6 via the NF-κB pathway in testicular macrophages, consequently inhibiting the proliferation of spermatogonia and damaging the quality of sperm. Our findings reveal the important role of NR2C2 in testicular inflammatory injury induced via LPS and provide a new potential target and a molecular basis for the treatment of male infertility caused by bacterial infection.

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Jingyu Wan

A Novel Strategy through Combining iRGD Peptide with Tumor-Microenvironment-Responsive and Multistage Nanoparticles for Deep Tumor Penetration

PEGylated Fluorescent Carbon Nanoparticles for Noninvasive Heart Imaging

Significantly enhanced tumor cellular and lysosomal hydroxychloroquine delivery by smart liposomes for optimal autophagy inhibition and improved antitumor efficiency with liposomal doxorubicin

Pharmacological characterization of a novel gastrodin derivative as a potential anti-migraine agent

microRNA‐196a‐5p inhibits testicular germ cell tumor progression via NR6A1/E‐cadherin axis

Chromodomain helicase DNA-binding domain 2 maintains spermatogonial self-renewal by promoting chromatin accessibility and mRNA stability

MiR-196a-5p/NR6A1 Regulates All-Trans Retinoic Acid Induced Neural Differentiation of hNtera-2 Stem Cells via E-Cadherin Inhibition

NR2C2 of macrophages promotes inflammation via NF-κB in LPS-induced orchitis in mice

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