Your search keyword '"Zulaziz, N."' showing total 7 results

1. Photodynamic therapy mediates innate immune responses via fibroblast–macrophage interactions

Author

Zulaziz, N., Azhim, A., Himeno, N., Tanaka, M., Satoh, Y., Kinoshita, M., Miyazaki, H., Saitoh, D., Shinomiya, N., and Morimoto, Y.

Published

2015

2. Development of diagnostic system for atherosclerosis based on intrinsic fluorescence using multispectral imaging

Author

Ho, C., primary, Horiuchi, T., additional, Taniguchi, H., additional, Umetsu, A., additional, Hagisawa, K., additional, Iwaya, K., additional, Azmi, A., additional, Zulaziz, N., additional, Azhim, A., additional, Shinomiya, N., additional, and Morimoto, Y., additional

Published

2015

3. A novel animal model for subcutaneous soft tissue infection using temporally neutropenic lys-EGFP mice

Author

Zulaziz, N., primary, Azhim, A., additional, Miyazaki, H., additional, Kinoshita, M., additional, Himeno, N., additional, Saitoh, D., additional, and Morimoto, Y., additional

Published

2015

4. The origins, roles and therapies of cancer associated fibroblast in liver cancer.

Author

Zulaziz N, Chai SJ, and Lim KP

Abstract

Hepatocellular carcinoma (HCC) is the most common form of liver cancer. It is often preceded by chronic inflammation such as liver fibrosis and cirrhosis. Different cell types are believed to give rise to liver-specific cancer associated fibroblast (CAF), these include resident fibroblast, hepatic stellate cell, liver cancer cell, hepatic sinusoidal endothelial cell and mesenchymal stromal cell. The abundance of fibroblasts has contributed to the cancer progression, immune modulation and treatment resistance in HCC. In this review, we discussed the origins, subtypes and roles of cancer associated fibroblasts in HCC. Their specific roles in shaping the tumor microenvironment, facilitating cancer growth, and modulating different immune cell types to confer a permissive environment for cancer growth. CAF is now an attractive therapeutic target for cancer treatment, however specific therapeutic development in HCC is still lacking. Hence, we have included preclinical and clinical development of CAF-specific interventions for other cancer types in this review. However, most CAF-specific therapies have resulted in disappointing clinical outcomes, likely due to the difficulties in differentiating CAF from normal fibroblast. A thorough understanding of the characteristics and functionalities of CAF is warranted to further improve the therapeutic efficacy of anti-CAF therapies., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Zulaziz, Chai and Lim.)

Published

2023

5. DNA Vaccines Targeting Novel Cancer-Associated Antigens Frequently Expressed in Head and Neck Cancer Enhance the Efficacy of Checkpoint Inhibitor.

Author

Wang C, Zainal NS, Chai SJ, Dickie J, Gan CP, Zulaziz N, Lye BKW, Sutavani RV, Ottensmeier CH, King EV, Abraham MT, Ismail SMB, Lau SH, Kallarakkal TG, Mun KS, Zain RB, Abdul Rahman ZA, Thomas GJ, Cheong SC, Savelyeva N, and Lim KP

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Animals, Combined Modality Therapy, Female, Humans, Lymphocytes, Tumor-Infiltrating immunology, Male, Mice, Mice, Inbred C57BL, Middle Aged, Squamous Cell Carcinoma of Head and Neck immunology, Squamous Cell Carcinoma of Head and Neck pathology, T-Lymphocytes immunology, Young Adult, Antigens, Neoplasm immunology, Cancer Vaccines immunology, Immune Checkpoint Inhibitors therapeutic use, Squamous Cell Carcinoma of Head and Neck therapy, Vaccines, DNA immunology

Abstract

HPV-independent head and neck squamous cell carcinoma (HNSCC) is a common cancer globally. The overall response rate to anti-PD1 checkpoint inhibitors (CPIs) in HNSCC is ~16%. One major factor influencing the effectiveness of CPI is the level of tumor infiltrating T cells (TILs). Converting TILlow tumors to TILhigh tumors is thus critical to improve clinical outcome. Here we describe a novel DNA vaccines to facilitate the T-cell infiltration and control tumor growth. We evaluated the expression of target antigens and their respective immunogenicity in HNSCC patients. The efficacy of DNA vaccines targeting two novel antigens were evaluated with or without CPI using a syngeneic model. Most HNSCC patients (43/44) co-expressed MAGED4B and FJX1 and their respective tetramer-specific T cells were in the range of 0.06-0.12%. In a preclinical model, antigen-specific T cells were induced by DNA vaccines and increased T cell infiltration into the tumor, but not MDSC or regulatory T cells. The vaccines inhibited tumor growth and improved the outcome alone and upon combination with anti-PD1 and resulted in tumor clearance in approximately 75% of mice. Pre-existence of MAGED4B and FJX1-reactive T cells in HNSCC patients suggests that these widely expressed antigens are highly immunogenic and could be further expanded by vaccination. The DNA vaccines targeting these antigens induced robust T cell responses and with the anti-PD1 antibody conferring excellent tumor control. This opens up an opportunity for combination immunotherapy that might benefit a wider population of HNSCC patients in an antigen-specific manner., Competing Interests: KL and NS received funding from Touchlight Genetics Ltd for translation of the preclinical work into early phase clinical testing. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Wang, Zainal, Chai, Dickie, Gan, Zulaziz, Lye, Sutavani, Ottensmeier, King, Abraham, Ismail, Lau, Kallarakkal, Mun, Zain, Abdul Rahman, Thomas, Cheong, Savelyeva and Lim.)

Published

2021

6. Fluorescence multispectral imaging-based diagnostic system for atherosclerosis.

Author

Ho CS, Horiuchi T, Taniguchi H, Umetsu A, Hagisawa K, Iwaya K, Nakai K, Azmi A, Zulaziz N, Azhim A, Shinomiya N, and Morimoto Y

Subjects

Animals, Aorta, Abdominal diagnostic imaging, Aorta, Abdominal pathology, Atherosclerosis diagnosis, Atherosclerosis pathology, Coronary Vessels diagnostic imaging, Coronary Vessels pathology, Humans, Image Processing, Computer-Assisted, Rabbits, Atherosclerosis diagnostic imaging, Optical Imaging

Abstract

Background: Composition of atherosclerotic arterial walls is rich in lipids such as cholesterol, unlike normal arterial walls. In this study, we aimed to utilize this difference to diagnose atherosclerosis via multispectral fluorescence imaging, which allows for identification of fluorescence originating from the substance in the arterial wall., Methods: The inner surface of extracted arteries (rabbit abdominal aorta, human coronary artery) was illuminated by 405 nm excitation light and multispectral fluorescence images were obtained. Pathological examination of human coronary artery samples were carried out and thickness of arteries were calculated by measuring combined media and intima thickness., Results: The fluorescence spectra in atherosclerotic sites were different from those in normal sites. Multiple regions of interest (ROI) were selected within each sample and a ratio between two fluorescence intensity differences (where each intensity difference is calculated between an identifier wavelength and a base wavelength) from each ROI was determined, allowing for discrimination of atherosclerotic sites. Fluorescence intensity and thickness of artery were found to be significantly correlated., Conclusions: These results indicate that multispectral fluorescence imaging provides qualitative and quantitative evaluations of atherosclerosis and is therefore a viable method of diagnosing the disease.

Published

2016

7. Transcriptomic analysis and 3D bioengineering of astrocytes indicate ROCK inhibition produces cytotrophic astrogliosis.

Author

O'Shea RD, Lau CL, Zulaziz N, Maclean FL, Nisbet DR, Horne MK, and Beart PM

Abstract

Astrocytes provide trophic, structural and metabolic support to neurons, and are considered genuine targets in regenerative neurobiology, as their phenotype arbitrates brain integrity during injury. Inhibitors of Rho kinase (ROCK) cause stellation of cultured 2D astrocytes, increased L-glutamate transport, augmented G-actin, and elevated expression of BDNF and anti-oxidant genes. Here we further explored the signposts of a cytotrophic, "healthy" phenotype by data-mining of our astrocytic transcriptome in the presence of Fasudil. Gene expression profiles of motor and autophagic cellular cascades and inflammatory/angiogenic responses were all inhibited, favoring adoption of an anti-migratory phenotype. Like ROCK inhibition, tissue engineered bioscaffolds can influence the extracellular matrix. We built upon our evidence that astrocytes maintained on 3D poly-ε-caprolactone (PCL) electrospun scaffolds adopt a cytotrophic phenotype similar to that produced by Fasudil. Using these procedures, employing mature 3D cultured astrocytes, Fasudil (100 μM) or Y27632 (30 μM) added for the last 72 h of culture altered arborization, which featured numerous additional minor processes as shown by GFAP and AHNAK immunolabelling. Both ROCK inhibitors decreased F-actin, but increased G-actin labeling, indicative of disassembly of actin stress fibers. ROCK inhibitors provide additional beneficial effects for bioengineered 3D astrocytes, including enlargement of the overall arbor. Potentially, the combined strategy of bio-compatible scaffolds with ROCK inhibition offers unique advantages for the management of glial scarring. Overall these data emphasize that manipulation of the astrocyte phenotype to achieve a "healthy biology" offers new hope for the management of inflammation in neuropathologies.

Published

2015