Your search keyword '"Chi-Shiun Chiang"' showing total 13 results

1. Revealing intact neuronal circuitry in centimeter-sized formalin-fixed paraffinembedded brain.

Author

Ya-Hui Lin, Li-Wen Wang, Yen-Hui Chen, Yi-Chieh Chan, Shang-Hsiu Hu, Sheng-Yan Wu, Chi-Shiun Chiang, Guan-Jie Huang, Shang-Da Yang, Shi-Wei Chu, Kuo-Chuan Wang, Chin-Hsien Lin, Pei-Hsin Huang, Hwai-Jong Cheng, Bi-Chang Chen, and Li-An Chu

Published

2024

2. Targeting M-MDSCs enhances the therapeutic effect of BNCT in the 4-NQO-induced murine head and neck squamous cell carcinoma model.

Author

Chun-Hsiang Chang, Chi-Jui Chen, Ching-Fang Yu, Hui-Yu Tsai, Fang-Hsin Chen, and Chi-Shiun Chiang

Subjects

SQUAMOUS cell carcinoma, BORON-neutron capture therapy, TREATMENT effectiveness, IMMUNOSUPPRESSION, MYELOID-derived suppressor cells, PERIPHERAL nerve tumors

Abstract

Purpose: Malignant head and neck squamous cell carcinoma (HNSCC) is characterized by a poor prognosis and resistance to conventional radiotherapy. Infiltrating myeloid-derived suppressive cells (MDSCs) is prominent in HNSCC and is linked to immune suppression and tumor aggressiveness. This study aimed to investigate the impact of boron neutron capture therapy (BNCT) on the MDSCs in the tumor microenvironment and peripheral blood and to explore the potential for MDSCs depletion combined with BNCT to reactivate antitumor immunity. Methods and materials: Carcinogen, 4-NQO, -induced oral tumors were irradiated with a total physical dose of 2 Gy BNCT in Tsing Hua Open Reactor (THOR). Flow cytometry and immunohistochemistry accessed the dynamics of peripheral MDSCs and infiltrated MDSCs within the tumor microenvironment. Mice were injected with an inhibitor of CSF-1 receptor (CSF-1R), PLX3397, to determine whether modulating M-MDSCs could affect mice survival after BNCT. Results: Peripheral CD11b+Ly6ChighLy6G- monocytic-MDSCs (M-MDSCs), but not CD11b+Ly6CloLy6Ghigh polymorphonuclear-MDSCs (PMN-MDSCs), increased as tumor progression. After BNCT treatment, there were temporarily decreased and persistent increases of M-MDSCs thereafter, either in peripheral blood or in tumors. The administration of PLX-3397 hindered BNCT-caused MMDSCs infiltration, prolonged mice survival, and activated tumor immunity by decreasing tumor-associated macrophages (TAMs) and increasing CD8+ T cells. Conclusion: M-MDSCs were recruited into 4-NQO-induced tumors after BNCT, and their number was also increased in peripheral blood. Assessment of MMDSCs levels in peripheral blood could be an index to determine the optimal intervention window. Their temporal alteration suggests an association with tumor recurrence after BNCT, making M-MDSCs a potential intervention target. Our preliminary results showed that PLX-3397 had strong M-MDSCs, TAMs, and TIL (tumor-infiltrating lymphocyte) modulating effects that could synergize tumor control when combined with BNCT. [ABSTRACT FROM AUTHOR]

Published

2023

3. Salt-mediated, plasmonic field-field/field-lattice coupling-enhanced NIR-II photodynamic therapy using core-gap-shell gold nanopeanuts.

Author

Kuthala, Naresh, Shanmugam, Munusamy, Xiangyi Kong, Chi-Shiun Chiang, and Kuo Chu Hwang

Published

2022

4. Sunitinib Treatment-elicited Distinct Tumor Microenvironment Dramatically Compensated the Reduction of Myeloid-derived Suppressor Cells.

Author

SHENG-YUNG FU, CHUN-CHIEH WANG, FANG-HSIN CHEN, CHING-FANG YU, JI-HONG HONG, and CHI-SHIUN CHIANG

Subjects

PROTEIN-tyrosine kinase inhibitors, PROSTATE cancer treatment, SUPPRESSOR cells, TUMOR microenvironment, IMMUNOASSAY

Abstract

Background/Aim: The clinical response rate of prostate cancer to tyrosine kinase inhibitor (TKI) monotherapy is low. The mechanisms of resistance to TKI are unclear. This study aimed to examine if the tumor microenvironment (TME) is involved in the resistance. Materials and Methods: The antivascular effect of Sutent was examined by immunofluorescent staining in TRAMP-C1 tumor. The percentage of CD11b+ population were analyzed by flow cytometry. The level of cytokines and chemokines were measured by multiplex immunoassay. Results: The Sutent monotherapy caused 1.5 days of tumor growth delay, chronic hypoxia, and more mature vasculature. Sutent monotherapy increased the percentage of polymorphonuclear myeloid-derived suppressor cells (MDSCs) in peripheral blood. The evolved TME triggered the re-distribution of myeloid cells in chronically hypoxic areas. The multiplex immunoassay indicated higher levels of several cytokines and chemokines both in tumors and the blood. Conclusion: Sunitinib treatment induced a distinct tumor microenvironment that impaired the efficient reduction of MDSCs by TKI. [ABSTRACT FROM AUTHOR]

Published

2020

5. Distinct Role of CD11b+Ly6G−Ly6C− Myeloid-Derived Cells on the Progression of the Primary Tumor and Therapy-Associated Recurrent Brain Tumor.

Author

Sheng-Yan Wu and Chi-Shiun Chiang

Subjects

BRAIN tumors, DIPHTHERIA toxin, CANCER invasiveness, SUPPRESSOR cells

Abstract

Myeloid-derived cells have been implicated as playing essential roles in cancer therapy, particularly in cancer immunotherapy. Most studies have focused on either CD11b+Ly6G+Ly6C+ granulocytic or polymorphonuclear myeloid-derived suppressor cells (G-MDSCs or PMN-MDSCs) or CD11b+Ly6G−Ly6C+ monocytic MDSCs (M-MDSCs), for which clear roles have been established. On the other hand, CD11b+Ly6G−Ly6C− myeloid-derived cells (MDCs) have been less well studied. Here, the CD11b-diphtheria toxin receptor (CD11b-DTR) transgenic mouse model was used to evaluate the role of CD11b+ myeloid-derived cells in chemotherapy for an orthotopic murine astrocytoma, ALTS1C1. Using this transgenic mouse model, two injections of diphtheria toxin (DT) could effectively deplete CD11b+Ly6G−Ly6C− MDCs while leaving CD11b+Ly6G+Ly6C+ PMN-MDSCs and CD11b+Ly6G−Ly6C+ M-MDSCs intact. Depletion of CD11b+Ly6G−Ly6C− MDCs in mice bearing ALTS1C1-tk tumors and receiving ganciclovir (GCV) prolonged the mean survival time for mice from 30.7 to 37.8 days, but not the controls, while the effectiveness of temozolomide was enhanced. Mechanistically, depletion of CD11b+Ly6G−Ly6C− MDCs blunted therapy-induced increases in tumor-associated macrophages (TAMs) and compromised therapy-elicited angiogenesis. Collectively, our findings suggest that CD11b+Ly6G−Ly6C− MDCs could be manipulated to enhance the efficacy of chemotherapy for brain tumors. However, our study also cautions that the timing of any MDC manipulation may be critical to achieve the best therapeutic result. [ABSTRACT FROM AUTHOR]

Published

2020

6. Challenges of Using High-Dose Fractionation Radiotherapy in Combination Therapy.

Author

Ying-Chieh Yang and Chi-Shiun Chiang

Subjects

RADIOTHERAPY, PHYSIOLOGICAL effects of radiation

Abstract

Radiotherapy is crucial and substantially contributes to multimodal cancer treatment. The combination of conventional fractionation radiotherapy (CFRT) and systemic therapy has been established as the standard treatment for many cancer types. With advances in linear accelerators and image-guided techniques, high-dose fractionation radiotherapy (HFRT) is increasingly introduced in cancer centers. Clinicians are currently integrating HFRT into multimodality treatment. The shift from CFRT to HFRT reveals different effects on the tumor microenvironment and responses, particularly the immune response. Furthermore, the combination of HFRT and drugs yields different results in different types of tumors or using different treatment schemes. We have reviewed clinical trials and preclinical evidence on the combination of HFRT with drugs, such as chemotherapy, targeted therapy, and immune therapy. Notably, HFRT apparently enhances tumor cell killing and antigen presentation, thus providing opportunities and challenges in treating cancer. [ABSTRACT FROM AUTHOR]

Published

2016

7. Characterization of tumor vasculature derived from angiogenesis and vasculogenesis by high-frequency three-dimensional Doppler ultrasound.

Author

Jia-Jiun Chen, Yu-Hsiang Lin, Chi-Shiun Chiang, Ji-Hong Hong, and Chih-Kuang Yeh

Published

2010

8. Effects of surface functionality of carbon nanomaterials on short-term cytotoxicity and embryonic development in zebrafish.

Author

Vankayala, Raviraj, Kalluru, Poliraju, Hsin-Hui Tsai, Kuo Chu Hwang, and Chi-Shiun Chiang

Abstract

Nanomaterials have been widely used in the biomedical field as gene/drug carriers, magnetic resonance imaging (MRI) contrast reagents, photothermal therapy reagents, fluorescent cellular markers, etc. The origins and working mechanisms of cytotoxicities of nanomaterials, however, are not well understood. It is often stated in the literature that a nanomaterial is non-toxic and biocompatible. In this study, we show that the short term cytotoxicity of a nanomaterial is determined by the surface functionality, rather than the core nanomaterial. A so-called "non-toxic and biocompatible" nanomaterial, such as core/shell iron-filled carbon nanoparticles (Fe@CNPs) and nanodiamonds (NDs), can become cytotoxic when a cationic surface functionality, such as imidazolium (IM) and tertiary methyl ammonium ethyl methacrylate (TMAEA) moieties, was grafted onto the surface. To investigate the contributions of surface functionalities and the core nanomaterials on cytotoxicity, two "non-toxic and biocompatible" Fe@CNPs and NDs were surface-modified with different surface functionalities, including anionic COOH, zwitterionic PVP, neutral OH, cationic IM and TMAEA, and investigated for their cytotoxicities in both in vitro cancer cells (HeLa and U-87MG cells) and in vivo embryo development of zebrafish. Among these surface functionalities, cationic IM and TMAEA functionalities of both Fe@CNPs and NDs cause acute cytotoxicity to a similar extent in the in vitro cancer cell experiments, as well as affect severely the embryonic development and survival rates of zebrafish. Other surface functionalities do not show particularly strong cytotoxicities. To obtain information regarding the origins of cytotoxicities, the effects of surface functionalities were also examined on the lactate dehydrogenase (LDH) levels, cellular ROS generation, apoptosis, and changes in lysosomal membrane integrity, mitochondrial membrane potential, the intracellular pH (pH[sub ¡]), and cell cycles. Our results clearly point out that surface functionality, rather than the core nanomaterials, plays a critical role in dictating the short-term cytotoxicities. [ABSTRACT FROM AUTHOR]

Published

2014

9. Irradiation promotes an M2 macrophage phenotype in tumor hypoxia.

Author

Chi-Shiun Chiang, Sheng Yung Fu, Shu-Chi Wang, Ching-Fang Yu, Fang-Hsin Chen, Chi-Min Lin, Ji-Hong Hong, Shisuo Du, and Schultz, Christopher

Subjects

MACROPHAGES, HYPOXEMIA, CANCER cells, CELL populations, IRRADIATION, ANIMAL models in research

Abstract

Macrophages display different phenotypes with distinct functions and can rapidly respond to environmental changes. Previous studies on TRAMP-C1 tumor model have shown that irradiation has a strong impact on tumor microenvironments. The major changes include the decrease of microvascular density, the increase of avascular hypoxia, and the aggregation of tumor-associated macrophages in avascular hypoxic regions. Similar changes were observed no matter the irradiation was given to tissue bed before tumor implantation (pre-IR tumors), or to established tumors (IR tumors). Recent results on three murine tumors, TRAMP-C1 prostate adenocarcinoma, ALTS1C1 astrocytoma, and GL261 glioma, further demonstrate that different phenotypes of inflammatory cells are spatially distributed into different microenvironments in both IR and pre-IR tumors. Regions with avascular hypoxia and central necrosis have CD11bhigh/Gr-1+ neutrophils in the center of the necrotic area. Next to them are CD11blow/F4/80+ macrophages that sit at the junctions between central necrotic and surrounding hypoxic regions. The majority of cells in the hypoxic regions are CD11blow/CD68+ macrophages. These inflammatory cell populations express different levels of Arg I. This distribution pattern, except for neutrophils, is not observed in tumors receiving chemotherapy or an anti-angiogenesis agent which also lead to avascular hypoxia. This unique distribution pattern of inflammatory cells in IR tumor sites is interfered with by targeting the expression of a chemokine protein, SDF-1α, by tumor cells, and this also increases radiation-induced tumor growth delay. This indicates that irradiated-hypoxia tissues have distinct tumor microenvironments that favor the development of M2 macrophages and that is affected by the levels of tumor-secreted SDF-1α. [ABSTRACT FROM AUTHOR]

Published

2012

10. Gene Expression Profiling of Dendritic Cells in Different Physiological Stages under Cordyceps sinensis Treatment.

Author

Chia-Yang Li, Chi-Shiun Chiang, Wei-Chung Cheng, Shu-Chi Wang, Hung-Tsu Cheng, Chaang-Ray Chen, Wun-Yi Shu, Min-Lung Tsai, Ruey-Shyang Hseu, Cheng-Wei Chang, Chao-Ying Huang, Shih-Hua Fang, and Hsu, Ian C.

Subjects

CORDYCEPS, HERBAL medicine, DIETARY supplements, DNA microarrays, GENE expression

Abstract

Cordyceps sinensis (CS) has been commonly used as herbal medicine and a health supplement in China for over two thousand years. Although previous studies have demonstrated that CS has benefits in immunoregulation and antiinflammation, the precise mechanism by which CS affects immunomodulation is still unclear. In this study, we exploited duplicate sets of loop-design microarray experiments to examine two different batches of CS and analyze the effects of CS on dendritic cells (DCs), in different physiology stages: naïve stage and inflammatory stage. Immature DCs were treated with CS, lipopolysaccharide (LPS), or LPS plus CS (LPS/CS) for two days, and the gene expression profiles were examined using cDNA microarrays. The results of two loop-design microarray experiments showed good intersection rates. The expression level of common genes found in both loop-design microarray experiments was consistent, and the correlation coefficients (Rs), were higher than 0.96. Through intersection analysis of microarray results, we identified 295 intersecting significantly differentially expressed (SDE) genes of the three different treatments (CS, LPS, and LPS/CS), which participated mainly in the adjustment of immune response and the regulation of cell proliferation and death. Genes regulated uniquely by CS treatment were significantly involved in the regulation of focal adhesion pathway, ECM-receptor interaction pathway, and hematopoietic cell lineage pathway. Unique LPS regulated genes were significantly involved in the regulation of Toll-like receptor signaling pathway, systemic lupus erythematosus pathway, and complement and coagulation cascades pathway. Unique LPS/CS regulated genes were significantly involved in the regulation of oxidative phosphorylation pathway. These results could provide useful information in further study of the pharmacological mechanisms of CS. This study also demonstrates that with a rigorous experimental design, the biological effects of a complex compound can be reliably studied by a complex system like cDNA microarray. [ABSTRACT FROM AUTHOR]

Published

2012

11. Repeated Small Perturbation Approach Reveals Transcriptomic Steady States.

Author

Ching-Lung Huang, Wun-Yi Shu, Min-Lung Tsai, Chi-Shiun Chiang, Cheng-Wei Chang, Chiu-Ting Chang, and Hsu, Ian C.

Subjects

HEREDITY, GENES, BIOLOGICAL systems, CELL death, CELL lines, GENE expression

Abstract

The study of biological systems dynamics requires elucidation of the transitions of steady states. A ''small perturbation'' approach can provide important information on the ''steady state'' of a biological system. In our experiments, small perturbations were generated by applying a series of repeating small doses of ultraviolet radiation to a human keratinocyte cell line, HaCaT. The biological response was assessed by monitoring the gene expression profiles using cDNA microarrays. Repeated small doses (10 J/m2) of ultraviolet B (UVB) exposure modulated the expression profiles of two groups of genes in opposite directions. The genes that were up-regulated have functions mainly associated with anti-proliferation/antimitogenesis/ apoptosis, and the genes that were down-regulated were mainly related to proliferation/mitogenesis/antiapoptosis. For both groups of genes, repetition of the small doses of UVB caused an immediate response followed by relaxation between successive small perturbations. This cyclic pattern was suppressed when large doses (233 or 582.5 J/m2) of UVB were applied. Our method and results contribute to a foundation for computational systems biology, which implicitly uses the concept of steady state. [ABSTRACT FROM AUTHOR]

Published

2011

12. Preparation, cytotoxicity and in vivo bioimaging of highly luminescent water-soluble silicon quantum dots.

Author

Jing-Wun Fan, Raviraj Vankayala, Chien-Liang Chang, Chia-Hua Chang, Chi-Shiun Chiang, and Kuo Chu Hwang

Subjects

SEMICONDUCTOR quantum dots, CELL-mediated cytotoxicity, PHOTOLUMINESCENCE, WATER-soluble organometallic compounds, SILICON, FLUORESCENT probes, BIO-imaging sensors

Abstract

Designing various inorganic nanomaterials that are cost effective, water soluble, optically photostable, highly fluorescent and biocompatible for bioimaging applications is a challenging task. Similar to semiconducting quantum dots (QDs), silicon QDs are another alternative and are highly fluorescent, but non-water soluble. Several surface modification strategies were adopted to make them water soluble. However, the photoluminescence of Si QDs was seriously quenched in the aqueous environment. In this report, highly luminescent, water-dispersible, blue- and green-emitting Si QDs were prepared with good photostability. In vitro studies in monocytes reveal that Si QDs exhibit good biocompatibility and excellent distribution throughout the cytoplasm region, along with the significant fraction translocated into the nucleus. The in vivo zebrafish studies also reveal that Si QDs can be evenly distributed in the yolk-sac region. Overall, our results demonstrate the applicability of water-soluble and highly fluorescent Si QDs as excellent in vitro and in vivo bioimaging probes. [ABSTRACT FROM AUTHOR]

Published

2015

13. Functional phenotype of macrophages depends on assay procedures.

Author

Chi-Shiun Chiang, Fang-Hsin Chen, Ji-Hong Hong, Pei-Shin Jiang, Hsiang-Ling Huang, Chun-Chieh Wang, and William H. McBride

Subjects

MACROPHAGES, PHENOTYPES, MICROBIOLOGICAL assay, CYTOKINES

Abstract

Macrophages display different phenotypes that can switch in response to their micro-environment. In our earlier study (Chiang, C. S., Liu, W. C. and Jung, S. M., 2005. Compartmental responses after thoracic irradiation of mice: strain differences. Int. J. Radiat. Oncol. Biol. Phys. 62:862) on radiation-induced cytokine expression in lung lavage samples, there was a suggestion that the procedures used to harvest lung macrophages affected the profiles they expressed. To further explore this issue, we examined gene expression by cell populations, mainly macrophages, isolated by lavage from lung and peritoneal cavity following either in vivo or in vitro stimulation with LPS, IFN-γ or irradiation. We found that expression of mRNA for tumor necrosis factor-alpha, IL-1α/β and IL-6 varied several fold depending on whether the assay was performed on cells immediately after isolation or after in vitro manipulation. The relative level of inducible nitric oxide synthase (iNOS) to arginase I (Arg I), which is frequently used as index of the M1 versus M2 functional macrophage phenotype, also varied. LPS stimulation in vivo was able to change the profile from Arg I expression to one where the iNOS pathway became dominant, but was unable to do this in vitro. This contrasts with the ability of IFN-γ to generate an iNOS-dominant pathway in vitro, but not in vivo. This study cautions that the expression of inflammatory cytokines and the iNOS to Arg I ratio, which is often used as an index of their functional capacity, varies with the experimental conditions. [ABSTRACT FROM AUTHOR]

Published

2008