Your search keyword '"Guangfa Xiao"' showing total 13 results

1. CXCR4/Let-7a Axis Regulates Metastasis and Chemoresistance of Pancreatic Cancer Cells Through Targeting HMGA2

Author

Guangfa Xiao, Xitao Wang, and Yaqun Yu

Subjects

Pancreatic cancer, CXCR4, Let-7a, HMGA2, Metastasis and drug resistance, Physiology, QP1-981, Biochemistry, QD415-436

Abstract

Background/Aims: Pancreatic cancer cells (PCC) is one of the most risky cancers and gemcitabine (GEM) is the standard first-line drug for treating PCC. The PCC will develop drug resistance to GEM after a period of treatment. However, the detailed molecular mechanism of pathogenesis and drug resistance remains unresolved. Methods: we employed qRT-PCR and western blot to examine the expression level of CXCR4, let-7a and HMGA2. In addition, we used MTT assay to detect cell proliferation and transwell assay to measure migration and invasiveness. The expression level of epithelial marker E-cadherin and mesenthymal marker N-cadherin was detected by western blot. The apoptosis was determined using annexin V-FITC/PI apoptosis detection kit by flow cytometry. Results: we first proved that CXCR4 negatively regulated let-7a in PCC. Next, let-7a was confirmed to play crucial role in tumorigenesis, metastasis and drug resistance of pancreatic cancer cells Bxpc-3 and Panc-1 in vitro and in vivo. Finally, we identified HMGA2 as important downsteam target of let-7a in PCC and overexpression of HMGA2 restores cell proliferation, metastasis and chemosensitivity of GEM inhibited by let-7a. Conlusion: Taken together, we show an important signaling pathway involved in pathogenesis and drug resistance of PCC, thereby providing deeper insight into molecular mechanism by which CXCR4/let-7a regulates tumorigenesis and drug resistance of PCC. These findings will help us develop new strategies for diagnosis and treatment of PCC.

Published

2017

2. Aberrant Expression of MicroRNA-15a and MicroRNA-16 Synergistically Associates with Tumor Progression and Prognosis in Patients with Colorectal Cancer

Author

Guangfa Xiao, Huihuan Tang, Wei Wei, Jian Li, Liandong Ji, and Jie Ge

Subjects

Diseases of the digestive system. Gastroenterology, RC799-869

Abstract

The aim of this study was to reveal the associations of microRNA miR-15a and miR-16 dysregulation with clinicopathological characteristics and prognosis in patients with colorectal cancer. As a result, we found that miR-15a and miR-16 expression, detected by quantitative real time-PCR, were both significantly downregulated in colorectal cancer tissues compared with adjacent colorectal mucosa (both P

Published

2014

3. Hepatocyte function within a stacked double sandwich culture plate cylindrical bioreactor for bioartificial liver system

Author

Yuzhan Kang, Guangfa Xiao, Hwa Liang Leo, Lei Xia, Hee Joo Poh, Thomas Adi Kurnia Susanto, Shufang Zhang, Tianming Cheng, Xiaoye Tuo, Hanry Yu, Janani Sundararajan, and Talha Arooz

Subjects

Male, Materials science, Cell Survival, Hepatocyte function, Biophysics, Bioengineering, complex mixtures, law.invention, Biomaterials, Bioreactors, law, Bioreactor, Shear stress, Animals, Inner diameter, Rats, Wistar, Cells, Cultured, Chromatography, technology, industry, and agriculture, Liver failure, Bioartificial liver device, Cell Polarity, Equipment Design, equipment and supplies, Liver, Artificial, Alternative treatment, Rats, Flow perfusion, Oxygen, Mechanics of Materials, Hepatocytes, Ceramics and Composites, Stress, Mechanical, Biomedical engineering

Abstract

Bioartificial liver (BAL) system is promising as an alternative treatment for liver failure. We have developed a bioreactor with stacked sandwich culture plates for the application of BAL. This bioreactor design addresses some of the persistent problems in flat-bed bioreactors through increasing cell packing capacity, eliminating dead flow, regulating shear stress, and facilitating the scalability of the bioreactor unit. The bioreactor contained a stack of twelve double-sandwich-culture plates, allowing 100 million hepatocytes to be housed in a single cylindrical bioreactor unit (7 cm of height and 5.5 cm of inner diameter). The serial flow perfusion through the bioreactor increased cell-fluid contact area for effective mass exchange. With the optimal perfusion flow rate, shear stress was minimized to achieve high and uniform cell viabilities across different plates in the bioreactor. Our results demonstrated that hepato- cytes cultured in the bioreactor could re-establish cell polarity and maintain liver-specific functions (e.g. albumin and urea synthesis, phase I&II metabolism functions) for seven days. The single bioreactor unit can be readily scaled up to house adequate number of functional hepatocytes for BAL development.

Published

2012

4. Upregulation of microRNA-196a and microRNA-196b cooperatively correlate with aggressive progression and unfavorable prognosis in patients with colorectal cancer

Author

Tailiang Lu, Guangfa Xiao, Jie Ge, Ruixing Li, and Zihua Chen

Subjects

Oncology, Disease free-survival, Cancer Research, medicine.medical_specialty, Colorectal cancer, Bioinformatics, medicine.disease_cause, MicroRNA-196a, microRNA-196b, Clinicopathological characteristics, Downregulation and upregulation, Internal medicine, microRNA, Genetics, medicine, In patient, Overall survival, Stage (cooking), business.industry, Cancer, medicine.disease, digestive system diseases, Biomarker (medicine), business, Carcinogenesis, Primary Research

Abstract

Background Both microRNA (miR)-196a and miR-196b are implicated in normal cell differentiation, proliferation, and in tumorigenesis of various cancer types. Especially, miR-196a exerts a pro-oncogenic influence in colorectal cancer (CRC) cells and miR-196b expression is upregulated in CRC tissues. The aim of this study was to evaluate the associations of miR-196a and miR-196b dysregulation with clinicopathological characteristics and prognosis in patients with CRC. Methods Quantitative real time-PCR (qRT-PCR) was performed to detect the expression levels of miR-196a and miR-196b in 126 pairs of fresh tumor samples matched with adjacent colorectal mucosa obtained from 126 patients with CRC. Results miR-196a and miR-196b expression levels in CRC tissues were significantly higher than those in adjacent colorectal mucosa (both P

Published

2014

5. A microfluidic 3D hepatocyte chip for drug toxicity testing

Author

Danny van Noort, Hanry Yu, Guangfa Xiao, Yi-Chin Toh, Teck Chuan Lim, and Dean C. S. Tai

Subjects

Drug, Male, Drug doses, Drug-Related Side Effects and Adverse Reactions, Cell Survival, media_common.quotation_subject, Microfluidics, Biomedical Engineering, Cell Culture Techniques, Bioengineering, Biochemistry, Lethal Dose 50, Inhibitory Concentration 50, In vivo, Toxicity Tests, medicine, Animals, Rats, Wistar, Drug toxicity, media_common, Dose-Response Relationship, Drug, Chemistry, Reproducibility of Results, General Chemistry, Microfluidic Analytical Techniques, Chip, Rats, medicine.anatomical_structure, Hepatocyte, Hepatocytes, Concentration gradient, Biomedical engineering

Abstract

We have developed a microfluidic 3D hepatocyte chip (3D HepaTox Chip) for in vitro drug toxicity testing to predict in vivo drug hepatotoxicity. The 3D HepaTox Chip is based on multiplexed microfluidic channels where a 3D microenvironment is engineered in each channel to maintain the hepatocytes' synthetic and metabolic functions. The multiplexed channels allow for simultaneous administration of multiple drug doses to functional primary hepatocytes while an incorporated concentration gradient generator enables the in vitro dose-dependent drug responses to predict in vivo hepatotoxicity. The IC(50) values of 5 model drugs derived from the dose-dependent on-chip testing correlate well with the reported in vivo LD(50) values. The 3D HepaTox Chip can be integrated with on-chip sensors and actuators as the next generation cell-based on-chip drug testing platform.

Published

2009

6. Laminar-flow immediate-overlay hepatocyte sandwich perfusion system for drug hepatotoxicity testing

Author

Susanne Ng, Guangfa Xiao, Hanry Yu, Rongbin Han, Hwa Liang Leo, Tianming Cheng, Lei Xia, and Xiaoye Tuo

Subjects

Drug, Male, Materials science, Drug Industry, Polymers, media_common.quotation_subject, Biophysics, Cell Culture Techniques, Drug Evaluation, Preclinical, Bioengineering, Matrix (biology), Biomaterials, Perfusion Culture, Bioreactors, medicine, Bioreactor, Animals, Technology, Pharmaceutical, Rats, Wistar, Biotransformation, media_common, In vitro, Rats, medicine.anatomical_structure, Biochemistry, Liver, Mechanics of Materials, Cell culture, Hepatocyte, Ceramics and Composites, Hepatocytes, Collagen, Perfusion, Porosity, Biomedical engineering

Abstract

Drug hepatotoxicity testing requires in vitro hepatocyte culture to maintain the long-term and stable liver specific functions. We developed a drug testing platform based on laminar-flow immediate-overlay hepatocyte sandwich perfusion culture. The immediate-overlay sandwich (collagen-coated porous polymeric membrane as top overlay) protects the cells and integrity of the top collagen matrix from the impact of flow. A bioreactor was designed that allowed proper control of shear stress and mass transfer. The culture parameters such as the optimal perfusion initiation time and flow rate were systematically and mechanistically determined. The optimized system could re-establish hepatocyte polarity to support biliary excretion and to maintain other liver specific functions, such as the biotransformation enzyme activities, for two weeks that extended the usable in vitro hepatocyte-based drug testing window. When the perfusion cultured hepatocytes from days 7 or 14 were used for drug testing, the APAP-induced hepatotoxicity measurements were more sensitive and consistent over time than the static culture control, enabling further exploitations in large-scale drug testing applications.

Published

2009

7. Microfabricated silicon nitride membranes for hepatocyte sandwich culture

Author

Siew Min Ong, Chiang Huen Kang, Guangfa Xiao, Lei Xia, Hwa Liang Leo, Shyi Herng Kan, Hui Huan Tang, Yi-Chin Toh, Shufang Zhang, Hanry Yu, and Danny van Noort

Subjects

Male, Materials science, Biophysics, Cell Culture Techniques, Bioengineering, Biocompatible Materials, Nitride, Porous silicon, Biomaterials, chemistry.chemical_compound, Cell polarity, Materials Testing, medicine, Animals, Composite material, Rats, Wistar, Cell Shape, Cells, Cultured, Liver cell, Silicon Compounds, Cell Polarity, Galactose, Biological Transport, Membranes, Artificial, Rats, Membrane, medicine.anatomical_structure, Silicon nitride, chemistry, Mechanics of Materials, Cell culture, Hepatocyte, Ceramics and Composites, Hepatocytes, Porosity

Abstract

We have developed a hepatocyte sandwich culture with improved mass transport properties based on ultra-thin microfabricated porous silicon nitride (Si(3)N(4)) membranes. The dimensions and uniformity of the membrane pores can be configurable, which confers more control over the mass transport. Instead of collagen gels used in conventional sandwich culture, we utilized galactose ligands immobilized on the Si(3)N(4) membranes to support hepatocyte attachment and function in the sandwich culture. Diffusion studies using FITC-dextrans confirmed that mass transport of the microfabricated Si(3)N(4) membrane based sandwich was significantly better than conventional collagen gel sandwich and can be configured by varying the porosity of the Si(3)N(4) membrane. Hepatocytes cultured in the microfabricated Si(3)N(4) membrane based sandwich culture exhibited earlier apical repolarization and biliary excretion, improved differentiated functions and enhanced drug sensitivity compared to hepatocytes cultured in a collagen gel sandwich. The Si(3)N(4) membrane based sandwich culture allows for a systematic optimization of the mass transport properties of hepatocyte culture by changing the pore size and inter-pore distance. This will enable more effective drug testing applications where optimal mass transport is required for hepatocyte function maintenance and drug accessibility.

Published

2008

8. Fibro-C-Index: comprehensive, morphology-based quantification of liver fibrosis using second harmonic generation and two-photon microscopy

Author

Chien-Shing Chen, Shuoyu Xu, Chee Leong Cheng, Aileen Wee, Shi Chang, Huihuan Tang, Ser-Mien Chia, Chiang Huen Kang, Chiang Li Wei, Anju M. Raja, Nancy Tan, Peter T. C. So, Hanary Yu, Guangfa Xiao, Jagath C. Rajapakse, and Dean C. S. Tai

Subjects

Liver Cirrhosis, Pathology, medicine.medical_specialty, Liver fibrosis, Biomedical Engineering, Sensitivity and Specificity, Biomaterials, Imaging, Three-Dimensional, Two-photon excitation microscopy, Image Interpretation, Computer-Assisted, medicine, Humans, Animal study, medicine.diagnostic_test, business.industry, Reproducibility of Results, Equipment Design, Image Enhancement, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Equipment Failure Analysis, Microscopy, Fluorescence, Multiphoton, Tissue optics, Fully automated, Clinical diagnosis, Liver biopsy, business, Algorithms

Abstract

We develop a standardized, fully automated, quantification system for liver fibrosis assessment using second harmonic generation microscopy and a morphology-based quantification algorithm. Liver fibrosis is associated with an abnormal increase in collagen as a result of chronic liver diseases. Histopathological scoring is the most commonly used method for liver fibrosis assessment, where a liver biopsy is stained and scored by experienced pathologists. Due to the intrinsic limited sensitivity and operator-dependent variations, there exist high inter- and intraobserver discrepancies. We validate our quantification system, Fibro-C-Index, with a comprehensive animal study and demonstrate its potential application in clinical diagnosis to reduce inter- and intraobserver discrepancies.

Published

2009

9. Nonlinear optical microscopy: use of second harmonic generation and two-photon microscopy for automated quantitative liver fibrosis studies

Author

Hanry Yu, Guangfa Xiao, Wanxin Sun, Huihuan Tang, Dean C. S. Tai, Nancy Tan, and Shi Chang

Subjects

Liver Cirrhosis, Male, Pathology, medicine.medical_specialty, Biomedical Engineering, Cell morphology, Sensitivity and Specificity, Pattern Recognition, Automated, Biomaterials, Extracellular matrix, chemistry.chemical_compound, Two-photon excitation microscopy, Artificial Intelligence, Trichrome, Fibrosis, Image Interpretation, Computer-Assisted, Microscopy, medicine, Animals, Rats, Wistar, Sirius Red, Reproducibility of Results, Image Enhancement, medicine.disease, Atomic and Molecular Physics, and Optics, Rats, Electronic, Optical and Magnetic Materials, Staining, Microscopy, Fluorescence, Multiphoton, Nonlinear Dynamics, chemistry, Subtraction Technique, Algorithms

Abstract

Liver fibrosis is associated with an abnormal increase in an extracellular matrix in chronic liver diseases. Quantitative characterization of fibrillar collagen in intact tissue is essential for both fibrosis studies and clinical applications. Commonly used methods, histological staining followed by either semiquantitative or computerized image analysis, have limited sensitivity, accuracy, and operator-dependent variations. The fibrillar collagen in sinusoids of normal livers could be observed through second-harmonic generation (SHG) microscopy. The two-photon excited fluorescence (TPEF) images, recorded simultaneously with SHG, clearly revealed the hepatocyte morphology. We have systematically optimized the parameters for the quantitative SHG/TPEF imaging of liver tissue and developed fully automated image analysis algorithms to extract the information of collagen changes and cell necrosis. Subtle changes in the distribution and amount of collagen and cell morphology are quantitatively characterized in SHG/TPEF images. By comparing to traditional staining, such as Masson's trichrome and Sirius red, SHG/TPEF is a sensitive quantitative tool for automated collagen characterization in liver tissue. Our system allows for enhanced detection and quantification of sinusoidal collagen fibers in fibrosis research and clinical diagnostics.

Published

2008

10. Upregulation of microRNA-196a and microRNA-196b cooperatively correlate with aggressive progression and unfavorable prognosis in patients with colorectal cancer.

Author

Jie Ge, Zihua Chen, Ruixing Li, Tailiang Lu, and Guangfa Xiao

Subjects

MICRORNA, CELL differentiation, COLON cancer, CELL proliferation, NEOPLASTIC cell transformation, QUANTITATIVE research

Abstract

Background: Both microRNA (miR)-196a and miR-196b are implicated in normal cell differentiation, proliferation, and in tumorigenesis of various cancer types. Especially, miR-196a exerts a pro-oncogenic influence in colorectal cancer (CRC) cells and miR-196b expression is upregulated in CRC tissues. The aim of this study was to evaluate the associations of miR-196a and miR-196b dysregulation with clinicopathological characteristics and prognosis in patients with CRC. Methods: Quantitative real time-PCR (qRT-PCR) was performed to detect the expression levels of miR-196a and miR-196b in 126 pairs of fresh tumor samples matched with adjacent colorectal mucosa obtained from 126 patients with CRC. Results: miR-196a and miR-196b expression levels in CRC tissues were significantly higher than those in adjacent colorectal mucosa (both P < 0.002). Interestingly, the expression levels of miR-196a in CRC tissues were positively correlated with those of miR-196b. Then, high miR-196a expression and high miR-196b expression, alone or in combination, were all statistically linked to the presence of lymph node metastasis, the poor differentiation grade, and the advanced TNM stage of CRC. Moreover, overall and disease-free survivals of CRC patients with high miR-196a expression, high miR-196b expression and miR-196a-high/miR-196b-high expression tended to be shorter than the corresponding control groups (log-rank statistic, all P < 0.001). Furthermore, multivariate analysis indicated miR-196a and/or miR- 196b expression as independent prognostic indicators for CRC patients (all P < 0.05). Conclusions: Both miR-196a and miR-196b may be correlated with aggressive progression and unfavorable clinical outcome in CRC patients. Combined expression of miR-196a and miR-196b may be a promising biomarker in identifying a poor prognosis group of CRC. [ABSTRACT FROM AUTHOR]

Published

2014

11. A microfluidic 3D hepatocyte chip for drug toxicity testingElectronic supplementary information (ESI) available: Schematic of one-pass perfusion system used during perfusion culture and drug testing with the 3D HepaTox Chip (Fig. S1); solubilizing agents can increase the solubility of hydrophobic drugs (ketoconazole and rifampin), which had a tendency to be adsorbed onto the tubing used to deliver the drug solutions into the 3D HepaTox Chip, resulting in a lower effective drug concentration (Fig. S2); confocal images of nuclei staining for necrotic and total cell population in the 3D HepaTox Chip after 24 hours of treatment with 14.29 mM acetaminophen (APAP) (Fig. S3); comparison of IC50values calculated from the 3D HepaTox Chip and reported IC50values from literature (Table S1). See DOI: 10.1039/b900912d

Author

Yi-Chin Toh, Teck Chuan Lim, Dean Tai, Guangfa Xiao, Danny van Noort, and Hanry Yu

Subjects

MICROFLUIDIC devices, LIVER cells, DRUG toxicity, HEPATOTOXICOLOGY, METABOLISM, PHARMACODYNAMICS, MICROELECTROMECHANICAL systems

Abstract

We have developed a microfluidic 3D hepatocyte chip (3D HepaTox Chip) for in vitrodrug toxicity testing to predict in vivodrug hepatotoxicity. The 3D HepaTox Chip is based on multiplexed microfluidic channels where a 3D microenvironment is engineered in each channel to maintain the hepatocytes' synthetic and metabolic functions. The multiplexed channels allow for simultaneous administration of multiple drug doses to functional primary hepatocytes while an incorporated concentration gradient generator enables the in vitrodose-dependent drug responses to predict in vivohepatotoxicity. The IC50values of 5 model drugs derived from the dose-dependent on-chip testing correlate well with the reported in vivoLD50values. The 3D HepaTox Chip can be integrated with on-chip sensors and actuators as the next generation cell-based on-chip drug testing platform. [ABSTRACT FROM AUTHOR]

Published

2009

12. Fibro-C-Index: comprehensive, morphology-based quantification of liver fibrosis using second harmonic generation and two-photon microscopy.

Author

Dean C. S. Tai, Nancy Tan, Shuoyu Xu, Chiang Huen Kang, Ser Mien Chia, Chee Leong Cheng, Aileen Wee, Chiang Li Wei, Anju Mythreyi Raja, Guangfa Xiao, Shi Chang, Jagath C. Rajapakse, Peter T. C. So, Hui-Huan Tang, Chien Shing Chen, and Hanry Yu

Subjects

SECOND harmonic generation, PHOTONS, LIVER disease diagnosis, ALGORITHMS, HISTOPATHOLOGY, FIBROSIS, MEDICAL microscopy, DIAGNOSIS

Abstract

We develop a standardized, fully automated, quantification system for liver fibrosis assessment using second harmonic generation microscopy and a morphology-based quantification algorithm. Liver fibrosis is associated with an abnormal increase in collagen as a result of chronic liver diseases. Histopathological scoring is the most commonly used method for liver fibrosis assessment, where a liver biopsy is stained and scored by experienced pathologists. Due to the intrinsic limited sensitivity and operator-dependent variations, there exist high inter- and intraobserver discrepancies. We validate our quantification system, Fibro-C-Index, with a comprehensive animal study and demonstrate its potential application in clinical diagnosis to reduce inter- and intraobserver discrepancies. [ABSTRACT FROM AUTHOR]

Published

2009

13. Nonlinear optical microscopy: use of second harmonic generation and two-photon microscopy for automated quantitative liver fibrosis studies.

Author

Wanxin Sun, Shi Chang, Dean C. S. Tai, Nancy Tan, Guangfa Xiao, Huihuan Tang, and Hanry Yu

Subjects

EXTRACELLULAR matrix proteins, PROTEINS, COLLAGEN, ELASTIN, FIBRONECTINS, TENASCIN

Abstract

Liver fibrosis is associated with an abnormal increase in an extracellular matrix in chronic liver diseases. Quantitative characterization of fibrillar collagen in intact tissue is essential for both fibrosis studies and clinical applications. Commonly used methods, histological staining followed by either semiquantitative or computerized image analysis, have limited sensitivity, accuracy, and operator-dependent variations. The fibrillar collagen in sinusoids of normal livers could be observed through second-harmonic generation (SHG) microscopy. The two-photon excited fluorescence (TPEF) images, recorded simultaneously with SHG, clearly revealed the hepatocyte morphology. We have systematically optimized the parameters for the quantitative SHG/TPEF imaging of liver tissue and developed fully automated image analysis algorithms to extract the information of collagen changes and cell necrosis. Subtle changes in the distribution and amount of collagen and cell morphology are quantitatively characterized in SHG/TPEF images. By comparing to traditional staining, such as Masson’s trichrome and Sirius red, SHG/TPEF is a sensitive quantitative tool for automated collagen characterization in liver tissue. Our system allows for enhanced detection and quantification of sinusoidal collagen fibers in fibrosis research and clinical diagnostics. [ABSTRACT FROM AUTHOR]

Published

2008