Xiaodong Gu scite author profile

Exosomes are small extracellular vesicles released by cells for cell-cell communication. They play important roles in cancer development, metastasis, and drug resistance. Exosomal proteins have been demonstrated by many studies as promising biomarkers for cancer screening, diagnosis, and monitoring. Among many detection techniques, surface plasmon resonance (SPR) is a highly sensitive, label-free, and real-time optical detection method. Commercial prism-based wavelength/angular-modulated SPR sensors afford high sensitivity and resolution, but their large footprint and high cost limit their adaptability for clinical settings. Recently, a nanoplasmonic exosome (nPLEX) assay was developed to detect exosomal proteins for ovarian cancer diagnosis. However, comparing with conventional SPR biosensors, the broad applications of nanoplasmonic biosensors are limited by the difficult and expensive fabrication of nanostructures. We have developed an intensity-modulated, compact SPR biosensor (25 cm × 10 cm × 25 cm) which uses a conventional SPR sensing mechanism and does not require nanostructure fabrication. Calibration from glycerol showed that the compact SPR biosensor offered sensitivity of 9.258 × 10%/RIU and resolution of 8.311 × 10 RIU. We have demonstrated the feasibility of the compact SPR biosensor in lung cancer diagnosis using exosomal epidermal growth factor receptor (EGFR) and programmed death-ligand 1 (PD-L1) as biomarkers. It detected a higher level of exosomal EGFR from A549 nonsmall cell lung cancer (NSCLC) cells than BEAS-2B normal cells. With human serum samples, the compact SPR biosensor detected similar levels of exosomal EGFR in NSCLC patients and normal controls, and higher expression of exosomal PD-L1 in NSCLC patients than normal controls. The compact SPR biosensor showed higher detection sensitivity than ELISA and similar sensing accuracy as ELISA. It is a simple and user-friendly sensing platform, which may serve as an in vitro diagnostic test for cancer.

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Mechanistic insights into immunomodulation by hepatic stellate cells in mice

Yang

Chou²,

Gu³

et al. 2009

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The liver is considered to be an immune-privileged organ that favors the induction of tolerance. The underlying mechanisms are not completely understood. Interestingly, liver transplants are spontaneously accepted in several animal models, but hepatocyte transplants are acutely rejected, suggesting that liver nonparenchymal cells may effectively protect the parenchymal cells from immune attack. We have shown the profound T cell inhibitory activity of hepatic stellate cells (HSCs). Thus, cotransplantation with HSCs effectively protects islet allografts from rejection in mice. In this study, using T cell receptor transgenic and gene knockout approaches, we provided definitive evidence that HSCs protected cotransplanted islet allografts by exerting comprehensive inhibitory effects on T cells, including apoptotic death in graft-infiltrating antigen-specific effector T cells and marked expansion of CD4 ؉ Forkhead box protein ( H epatic tolerance has been recognized by spontaneous acceptance of liver transplants in several animal models 1 and by induction of tolerance to antigens delivered through the portal vein. 2 Compared with other organ transplants, human liver transplants manifest absence of hyperacute rejection and low incidence of chronic rejection. 3 A certain percentage of liver transplantation patients have been weaned from immunosuppression without graft rejection. 2 Interestingly, liver allografts are accepted, whereas hepatocyte transplants are acutely rejected, 4 suggesting that liver nonparenchymal cells play a role in protecting parenchymal cells (hepatocytes) from immune injury. We have examined a variety of mouse liver nonparenchymal cells, and found that hepatic stellate cells (HSCs), abundant liver stromal cells known for storing retinoids and participating in fibrogenesis, have potent immune regulatory activity. HSCs can effectively protect islet allografts from rejection when they are cotransplanted. 5,6 Interferon-␥ (IFN-␥) is an important proinflammatory cytokine mainly produced by T helper 1 cells and natural killer cells, mediating both innate and adaptive immune responses. Recent accumulating evidence suggests that IFN-␥ is also critical for tolerance induction. [7][8][9][10][11][12] Thus, IFN-␥ stimulation is required for liver transplant tolerance, because liver allografts transplanted into wild-

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Circulating exosomal CPNE3 as a diagnostic and prognostic biomarker for colorectal cancer

Sun

Zhou

et al. 2018

Journal Cellular Physiology

109

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Exosomal proteins are emerging as relevant diagnostic and prognostic biomarkers for cancer. This study was aimed at illustrating the clinical significance of exosomal Copine III (CPNE3) purified from the plasma of colorectal cancer (CRC) patients. The CPNE3 expression levels in CRC tissues were analyzed by real-time PCR, western blot, and immunohistochemistry. Plasma exosomes were isolated to examine the CPNE3 level using ELISA. Pearson's correlation analysis was performed to investigate the CPNE3 levels between CRC tissues and matched plasma samples. Receiver operating characteristic curve analysis was developed to measure the diagnostic performance of exosomal CPNE3. The Kaplan-Meier method and Cox's proportional hazards model were utilized to determine statistical differences in survival times. CPNE3 showed increased expressions in the CRC tissues. A moderately significant correlation was found between CPNE3 expression in CRC tissues by immunohistochemistry and matched serum exosomal CPNE3 expression by ELISA (r = 0.645,(r = 0.645, p < 0.001). < 0.001). Exosomal CPNE3 yielded a sensitivity of 67.5% and a specificity of 84.4% in CRC at the cutoff value of 0.143 pg per 1ug1 ug exosome. Combined data from carcinoembryonic antigen and exosomal CPNE3 achieved 84.8% sensitivity and 81.2% specificity as a diagnostic tool. CRC patients with lower exosomal CPNE3 levels had substantially better disease-free survival (hazard ratio [HR], 2.9; 95% confidence interval [CI]: 1.3-6.4; p = 0.009) = 0.009) and overall survival (HR, 3.4; 95% CI: 1.2-9.9; p = 0.026) = 0.026) compared with those with higher exosomal CPNE3 levels. Exosomal CPNE3 show potential implications in CRC diagnosis and prognosis.

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Xiaodong Gu

Sensitive Detection of Exosomal Proteins via a Compact Surface Plasmon Resonance Biosensor for Cancer Diagnosis

Mechanistic insights into immunomodulation by hepatic stellate cells in mice

Circulating exosomal CPNE3 as a diagnostic and prognostic biomarker for colorectal cancer

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