Tengfei Yu scite author profile

BackgroundAs an active ingredient of Chinese herbal medicine, quercetin (QU) can significantly induce apoptosis of tumor cells and give play to other effect such as decreasing both fibroblast population and collagen in cancer cell nest. However, the antitumor efficacy of quercetin was mostly evaluated at cellular level and rarely developed in vivo by intravenous injection, which may be ascribed to its inferior physicochemical properties including water insolubility, short plasma half-time, and insufficient enrichment in the tumor tissues.MethodsThe DSPE-PEG was used to construct quercetin-loaded micelles, and the integrin ligand cRGDfK was grafted to modify the nanocarrier for enhancing its cancer-specific homing. The MALDI-TOF-MS, DLS, TEM, and UV were orderly operated to characterize guidance molecules and micelles by morphology, size distribution, Zeta potential, and drug encapsulation efficiency. In addition, the surface plasmon resonance study and real-time confocal analysis were employed to demonstrate αvβ3 integrin-overexpressing B16 cells-specific binding and uptake. After further pharmacodynamics studies in vitro and in vivo, we also evaluate systemic toxicity about cRGDfK-PM-QU.ResultsThe cRGDfK was successfully stitched with DSPE-PEG and modified on the surface of micelles. The ligand modification enhanced the negative charges of the micelles, but it did not induce significant changes in particle size. The quercetin micelles were about 15 nm in size and negatively charged, and had spherical morphology and high drug encapsulation efficiency. In vitro, the cRGDfK-modified micelles (cRGDfK-PM) showed αvβ3 integrin-overexpressing B16 cells-specific binding and uptake, and cRGDfK-PM-QU (QU loaded in cRGDfK-PM) induced more significant cell apoptosis and cytotoxic effects against B16 tumor cells than counterpart micelles (PM-QU). In vivo, the cRDGfK modification enhanced enrichment in B16 tumor tissue, improved the therapeutic efficacy of the quercetin-loaded micelles against B16 tumor, and exhibited lower systemic and pulmonary toxicity compared with counterpart micelles in the mouse mode.ConclusionQuercetin as a natural product has triggered increasing interest in the antitumor field. In this study, cRGDfK-modified DSPE-PEG micelles significantly optimized quercetin therapeutic efficacy and pulmonary toxicity as well as lowered systemic toxicity.

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Evaluation of the correlations between patient-derived xenograft (PDX) model-based mouse trials and cancer patient-based clinical trials.

Gu¹,

Jiang

Yan³

et al. 2017

JCO

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e23140 Background: Clinical trial to evaluate the safety and efficacy of an oncology drug candidate in general is a long and expensive process required for regulatory approval in drug development. High failure rates and difficulties to predict the outcome of clinical trials have wasted the resources and hindered the progress to bring more cancer drugs to patients. PDX models have been widely used recently in preclinical efficacy studies of new cancer agents. Comparing with tumor cell line derived xenografts, PDX models showed more similarities to cancer patients in tumor pathological features, molecular changes and drug responses. More importantly, the large number of available PDX models make it feasible to do preclinical tests in large scales which can represent cancer complexity similar to clinical trials with cancer patients. Methods: At GenenDesign, we have established over 1000 PDX tumor models in various cancer types and derived about 200 acquired drug resistance models. In our in house studies, we have tested near 40 treatments with standard of cares (SoCs) and late stage clinical drug candidates either as mono-therapies or combination therapies, and have generated over 3300 drug response datasets. Many tests with targeted drugs are based on cancer gene aberrations as predictive biomarkers. The drug responses were analyzed by Modifying Response Evaluation Criteria in Solid Tumors (mRECIST) method. Results: By comparing the mRECIST scores in mouse trials with results from about two dozens of historical clinical trials at phase 3 or phase 2, we found that there are high correlations in the rates of objective response (OR), stable disease (SD) and progressive disease (PD) between the mouse trials and their counterpart clinical trials. Progression-free survival also showed similar patterns in these analyses. Conclusions: PDX based mouse trials have advantages in flexibility of study design, quickness in testing new drug candidates and direct comparison of multiple drug treatments in the same models. It can provide valuable information on clinical trial outcome prediction and support clinical study design and patient selection.

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On seismic response of loess-mudstone slope with underlying anti-dip fault zone: laboratory investigation using shaking table test

Huang

Kang

et al. 2023

Bull Eng Geol Environ

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Tengfei Yu

Oral administration ofLactococcus lactisWHH2078 alleviates depressive and anxiety symptoms in mice with induced chronic stress

<p>cRGDfK-Grafted Small-Size Quercetin Micelles For Enhancing Therapy Efficacy Of Active Ingredient From The Chinese Medicinal Herb</p>

Evaluation of the correlations between patient-derived xenograft (PDX) model-based mouse trials and cancer patient-based clinical trials.

On seismic response of loess-mudstone slope with underlying anti-dip fault zone: laboratory investigation using shaking table test

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