Publications by authors named "Qingzhi Gao"

Oxaliplatin-based chemotherapy has proven to be one of the most effective treatments for advanced or metastatic colorectal cancer. However, increasing clinical resistance to oxaliplatin poses unprecedented challenges for both patients and clinicians. Despite extensive efforts to combat this issue, to date, no new molecules have been discovered that can successfully replace oxaliplatin.

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The artificially synthesized strigolactone (SL) analogue GR24 is currently the most widely used reference compound in studying the biological functions of SLs. To elucidate the structure-activity relationship and find more promising derivatives with unique molecular profiles, we design and synthesized three series of novel GR24 derivatives and explored their activities in hypocotyl and root development of . Among the 50 synthesized compounds, , , and were found to have high activities comparable to GR24 for hypocotyl and/or primary root elongation inhibition in .

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Proteolysis Targeting Chimeras (PROTACs) based on multi-target inhibitors have been reported several times recently. The advantages of PROTACs technology and the synergistic mechanism of multi-target drugs endow this class of protein degraders with special research significance. Herein, twelve new PROTACs based on Sunitinib and VHL-ligand were synthesized and evaluated for their in vitro anticancer activities.

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The biomedical application of corannulene π-bowls is historically limited by low solubility and bioavailability despite the potential in their unique electronic properties for new functional materials. Herein, the unexpected role and molecular mechanism of Corranulene π-bowls are uncovered in biomedical applications as an effective anticancer agent for Warburg effect mediated selective tumor targeting. The corannulene triazolyl monosaccharides Cor-sugars exhibit highly potent cytotoxicity against human cancer cells and effectively inhibit xenograft growth of hyperglycolytic tumors.

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Fluorescently labeled calix[4]arene glycoconjugates demonstrate multifunctional potential in both Warburg effect mediated tumor imaging and GLUT1 targeted drug delivery. Nitrobenzoxadiazole and mannose conjugated NBD-Man-CA was found to be selectively recognized by GLUT1 and act as a "molecular carrier" for selective tumor targeting.

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Increased expression of glucose transporters, especially GLUT1 has been proven to be involved in the Warburg effect. Therefore, GLUT1-targeted oncological approaches are being successfully employed for clinical tumor diagnostic imaging (e.g.

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We report a non-antibody GLUT1 inhibitor probe NBDQ that is 30 times more sensitive than the traditional GLUT1 transportable tracer for cancer cell imaging and Warburg effect-based tumor detection. NBDQ reveals significant advantages in terms of tumor selectivity, fluorescence stability and in vivo biocompatibility in xenograft tumor imaging, including triple-negative breast cancer.

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Oxaliplatin-based chemotherapy is the current standard of care in adjuvant therapy for advanced colorectal cancer (CRC). But acquired resistance to oxaliplatin eventually occurs and becoming a major cause of treatment failure. Thus, there is an unmet need for developing new chemical entities (NCE) as new therapeutic candidates to target chemotherapy-resistant CRC.

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Ryanodine receptors (RyRs) are calcium release channels located on endoplasmic reticulum (ER) membrane, which play important role in excitation-contraction coupling in muscular response. Flubendiamide represents a novel chemical family of green insecticides which selectively activate invertebrate RyR by interacting with the receptor distinct from the ryanodine binding site and has almost no effect on mammalian ryanodine receptors. Traditional methods to screen RyR modulators involve either radio-labeled RyR substrates or calcium signal-based indirect approaches.

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Ryanodine receptors (RyRs) are homotetrameric intracellular calcium (Ca) release channels responsible for excitation-contraction coupling of muscle cells. Diamide insecticides specifically act on RyRs of Lepidoptera and Coleoptera pests and are safe for nontargeted organisms, generating big worldwide sales. Despite their popularity, several devastating agricultural pests have been reported to be resistant to them because of mutations in a small transmembrane region of their RyRs, hinting a binding pocket nearby.

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A key feature of amyotrophic lateral sclerosis (ALS) and other neurodegenerative disorders including Alzheimer disease (AD), Parkinson disease (PD) and Huntington's disease (HD) is abnormal aggregation and deposition of misfolded proteins. Previous studies have shown that autophagy plays an important role in the clearance of disease-linked protein aggregates. In the current study, we report that ibudilast, which is a non-selective inhibitor of phosphodiesterases (PDEs) and an anti-inflammation drug, can induce autophagy and lysosomal biogenesis through mammalian target of rapamycin complex 1 - transcription factor EB (mTORC1-TFEB) signaling.

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The abnormal expression of epidermal growth factor receptors HER1(EGFR) and HER2 is strongly associated with cancer invasion, metastasis, and angiogenesis. Their molecular detection is mainly executed using genetically encoded or antibody-based diagnostic tracers, but no dual-targeting small-molecule bioprobe has been achieved. Here, we report the novel small-molecule fluorescent probes Cy3-AFTN and Cy5-AFTN as potent dual-targeting inhibitors for efficient detection of HER1/HER2 expression in cancer cells and in vivo tumor diagnostic imaging.

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Background: There is an urgent need to develop novel inhibitors against clinically widespread extended-spectrum β-lactamases (ESBLs) to meet the challenges of the ever-evolving threat of antibiotic resistances. Most existing ESBL inhibitors sharing a common chemical feature of β-lactam ring in their molecule, this structural characteristic makes them intrinsically susceptible to enzymatic breakdown by the resistance mechanisms employed by the bacteria.

Objective: The aim of this study was to screen and discover novel lead compounds by using Lproline as initial scaffold to create a "non-sulfur, non-β-lactam" new chemotypes for potential ESBL inhibitors.

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Increased glycolysis has been one of the metabolic characteristics known as the Warburg effect. The functional and therapeutic importance of the Warburg effect in targeted therapy is scientifically recognized and the glucose metabolic pathway has become a desirable target of anticancer strategies. Glucose transporters (GLUTs) play an important role in cancer glycolysis to sustain cancer cell proliferation, metastasis and survival.

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Ethnopharmacological Relevance: The genus Polygonatum (Asparagaceae) comprises 71 species distributed throughout the temperate Northern Hemisphere. The medicinal plants of Polygonatum have been traditionally used as tonics in China, India, Pakistan, Iran and Japan, and have been demonstrated to be highly effective in clinical practice for treating age-related diseases, diabetes, lung diseases, fatigue, feebleness and indigestion.

Aim Of The Review: This paper aims to provide the links among traditional uses, chemical constituents, pharmacological effects and toxicity to support their therapeutic potential and uncover opportunities for future research.

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Ryanodine receptors (RyRs) are large calcium-release channels located in sarcoplasmic reticulum membrane. They play a central role in excitation-contraction coupling of muscle cells. Three commercialized insecticides targeting pest RyRs generate worldwide sales over 2 billion U.

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Cellular uptake and transport mechanisms directly correlate with the drug-like profiles of lead compounds. To decipher the molecular origin of the toxicity of combretastatin A4 (CA4), an important microtubule targeting agent, we investigated the interactions between CA4 and six key drug transporters, namely hOAT1, hOAT3, hOCT1, hOCT2, hOATP1B3, and hOATP2B1. Three combretastatin-based glycoconjugates, namely , , and with glucose, mannose, and galactose respectively, were synthesized and their and biological characteristics were evaluated.

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Increased glycolysis and overexpression of glucose transporters (GLUTs) are physiological characteristics of human malignancies. Based on the so-called Warburg effect, 18flurodeoxyglucose-positron emission tomography (FDG-PET) has successfully developed as clinical modality for the diagnosis and staging of many cancers. To leverage this glucose transporter mediated metabolic disparity between normal and malignant cells, in the current report, we focus on the fluorine substituted series of glucose, mannose and galactose-conjugated (trans-R,R-cyclohexane-1,2-diamine)-2-flouromalonato-platinum(II) complexes for a comprehensive evaluation on their selective tumor targeting.

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Despite numerous studies that report the glucose derived glycoconjugates as antitumor candidates, using mannose as sugar motif for specific tumor targeting remains less studied. In this research, two novel mannose-conjugated platinum complexes 4a and 4b that target the Warburg effect were designed, synthesized and evaluated for their antitumor activities in vitro and in vivo. Compared with oxaliplatin, both complexes exhibited substantial enhancement in water solubility as well as excellent or comparative cytotoxicity in six human cancer cell lines.

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Two novel fluorescent bioprobes, namely, 6N-Gly-Cy3 and 6N-Gly-Cy5, were designed and synthesized for real-time glucose transport imaging as well as potentially useful tracer for galactokinase metabolism. The structure of the bioprobes was fully characterized by H NMR, C NMR, IR, and HRMS. The fluorescence properties, glucose transporter (GLUT) specificity, and the quenching and safety profiles were studied.

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Novel cis-2-methylmalonato(trans-R,R-cyclohexane-1,2-diamine)platinum(II) glycoconjugates derived from different sugar motifs, namely, glucose (Glu-Me-Pt), mannose (Man-Me-Pt) and galactose (Gal-Me-Pt) were designed and synthesized based on the third generation clinical drug oxaliplatin for potential glucose transporters (GLUTs) mediated tumor targeting. All platinum(II) glycoconjugates were characterized by H NMR, C NMR, IR, HRMS as well as Pt-NMR analysis. Despite their substantial improvement in water solubility, the conjugates exhibited comparable or better in vitro cytotoxicities than oxaliplatin determined in six different human cancer cell lines.

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Methyl 6-aminodeoxy-d-pyranoside-derived platinum(II) glycoconjugates were designed and synthesized based on the clinical drug oxaliplatin for glucose transporter (GLUT)-mediated tumor targeting. In addition to a substantial improvement in water solubility, the conjugates exhibited cytotoxicity similar to or higher than that of oxaliplatin in six different human cancer cell lines. GLUT-mediated transport of the complexes was investigated with a cell-based fluorescence competition assay and GLUT-inhibitor-mediated cytotoxicity analysis in a GLUT-overexpressing human colorectal adenocarcinoma (HT29) cell line.

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Two novel cyanine-based 1-amino-1-deoxy-β-glucose conjugates (Glu-1N-Cy3 and Glu-1N-Cy5) were designed, synthesized and their fluorescence characteristics were studied. Both Glu-1N-Cy3 and Glu-1N-Cy5 accumulate in living HT29 human colon cancer cells, which overexpress glucose transporters (GLUTs). The cellular uptake of the bioprobes was inhibited by natural GLUT substrate d-glucose and 2-deoxy-d-glucose.

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The glucose transporter 1 (GLUT1) belongs to the major facilitator superfamily (MFS) and is responsible for the constant uptake of glucose. However, the molecular mechanism of sugar transport remains obscure. In this study, homology modeling and molecular dynamics (MD) simulations in lipid bilayers were performed to investigate the combination of the alternate and multisite transport mechanism of glucose with GLUT1 in atomic detail.

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Malignant neoplasms exhibit a higher rate of glycolysis than normal cells; this is known as the Warburg effect. To target it, a galactose-conjugated (trans-R,R-cyclohexane-1,2-diamine)-2-chloromalonato-platinum(II) complex (Gal-Pt) was designed, synthesized, and evaluated in five human cancer cell lines and against two different xenograft tumour models. Gal-Pt exhibits much higher aqueous solubility (over 25 times) and improved cytotoxicity than oxaliplatin, especially in human colon (HT29) and lung (H460) cancer cell lines.

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