Your search keyword '"Gilberto K.K. Leung"' showing total 4 results

1. Rutin increases the cytotoxicity of temozolomide in glioblastoma via autophagy inhibition

Author

Derek Lee, Xiao-Qin Zhang, Stella Sun, Ming Wai Poon, Ning Li, Gilberto K.K. Leung, Pingde Zhang, Amy Suk Wai Ho, Jenny Kan-suen Pu, Yin Stephen Cheng, and Karrie M.Y. Kiang

Subjects

0301 basic medicine, Cancer Research, Cell Survival, Rutin, Mice, Nude, Apoptosis, Pharmacology, Neuroprotection, Mice, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, In vivo, Cell Line, Tumor, Antineoplastic Combined Chemotherapy Protocols, Autophagy, Temozolomide, medicine, Animals, Humans, Viability assay, Cytotoxicity, Brain Neoplasms, Drug Synergism, Xenograft Model Antitumor Assays, Dacarbazine, 030104 developmental biology, Neurology, Oncology, chemistry, 030220 oncology & carcinogenesis, Neurology (clinical), Glioblastoma, medicine.drug

Abstract

The chemotherapeutic agent temozolomide (TMZ) is widely used in the treatment of glioblastoma multiforme (GBM). Rutin, a citrus flavonoid ecglycoside found in edible plants, has neuroprotective and anticancer activities. This study aimed to investigate the efficacy and the underlying mechanisms of rutin used in combination with TMZ in GBM. In vitro cell viability assay demonstrated that rutin alone had generally low cytotoxic effect, but it enhanced the efficacy of TMZ in a dose-dependent manner. Subcutaneous and orthotopic xenograft studies also showed that tumor volumes were significantly lower in mice receiving combined TMZ/Rutin treatment as compared to TMZ or rutin alone treatment. Moreover, immunoblotting analysis showed that TMZ activated JNK activity to induce protective response autophagy, which was blocked by rutin, resulting in decreased autophagy and increased apoptosis, suggesting that rutin enhances TMZ efficacy both in vitro and in vivo via inhibiting JNK-mediated autophagy in GBM. The combination rutin with TMZ may be a potentially useful therapeutic approach for GBM patient.

Published

2017

2. Outcome comparison between younger and older patients undergoing intracranial meningioma resections

Author

Linus Hing-Kai Fung, Gilberto K.K. Leung, Michael T C Poon, and Jenny Kan-Suen Pu

Subjects

Adult, Cancer Research, medicine.medical_specialty, Neurology, Neurosurgical Procedures, Meningioma, Young Adult, medicine, Humans, Young adult, Aged, Retrospective Studies, Aged, 80 and over, Brain Neoplasms, business.industry, Mortality rate, Age Factors, Retrospective cohort study, Perioperative, Length of Stay, Middle Aged, medicine.disease, humanities, Surgery, Treatment Outcome, Oncology, Neurology (clinical), Neurosurgery, Neoplasm Grading, Complication, business, Follow-Up Studies

Abstract

Studies directly comparing the outcomes of intracranial meningioma resection between elderly and younger patients are currently limited. This study aimed to assess the perioperative complications, mortalities and functional outcomes in these two groups. Consecutive elderly patients (aged ≥ 65) and tumor-location-matched younger patients who underwent intracranial meningioma resections were retrospectively reviewed. Outcomes were assessed at 30-day, 90-day, 6-month and 1-year. We used a standardized classification of operative complications, and conducted subgroup analyses based on tumor location [convexity, parasagittal and falcine (CPF) as one group; skull base (SB) as another]. There were 92 patients in each group. The mean age was 74.6 ± 6.4 years in the elderly and 49.3 ± 10.1 years in the younger groups. The cumulative 30-day, 90-day and 1-year mortality rates were 0, 2.2 and 4.3 % for the elderly, respectively, and 1.1 % for all time points in the young. These differences were not statistically significant. Overall, the elderly suffered from more perioperative complications (P = 0.010), and these were mostly minor complications according to the classification of operative complications. However, these differences were observed only in the SB but not in the CPF subgroup. More elderly patients had impaired functional outcome 1-year after surgery. Significantly more elderly patients had new neurological deficits 1-year after surgery (26.1 vs. 6.6 %; P = 0.001). Comparable mortality rates were observed in elderly and younger patients. However, the elderly had more minor complications and poorer functional outcomes. Patient selection remains key to good clinical outcome.

Published

2013

3. Hyperoxia resensitizes chemoresistant human glioblastoma cells to temozolomide

Author

Gilberto K.K. Leung, Ching-Fai Fung, Stella Sun, Nikki P. Lee, Stanley Thian Sze Wong, Derek Lee, Wai-Man Lui, and Jenny Kan-suen Pu

Subjects

Cell death, Cancer Research, Programmed cell death, Dacarbazine, Cell, Blotting, Western, Clinical Neurology, Apoptosis, Biology, Hyperoxia, Cell survival, Glioma, Cell Line, Tumor, medicine, Temozolomide, Humans, Cell structure, Hypoxia, Antineoplastic Agents, Alkylating, Mitogen-Activated Protein Kinase Kinases, Cancer resistance, Brain Neoplasms, medicine.disease, MAPK, medicine.anatomical_structure, Neurology, Oncology, Cell culture, Drug Resistance, Neoplasm, Immunology, Cancer research, Laboratory Investigation, Neurology (clinical), medicine.symptom, Glioblastoma, Chemoresistance, medicine.drug

Abstract

Temozolomide (TMZ) is standard chemotherapy for glioblastoma multiforme (GBM). Intratumoral hypoxia is common in GBM and may be associated with the development of TMZ resistance. Oxygen therapy has previously been reported to potentiate the effect of chemotherapy in cancer. In this study, we investigated whether hyperoxia can enhance the TMZ-induced cytotoxicity of human GBM cells, and whether and how it would resensitize TMZ-resistant GBM cells to TMZ. TMZ-sensitive human GBM cells (D54-S and U87-S) were treated with TMZ to develop isogenic subclones of TMZ-resistant cells (D54-R and U87-R). All cell lines were then exposed to different oxygen levels (1, 21, 40, or 80 %), with or without concomitant TMZ treatment, before assessment of cell cytotoxicity and morphology. Cell death and survival pathways elicited by TMZ and/or hyperoxia were elucidated by western blotting. Our results showed that TMZ sensitivity of both chemo-sensitive and resistant cells was enhanced significantly under hyperoxia. At the cell line-specific optimum oxygen concentration (D54-R, 80 %; U87-R, 40 %), resistant cells had the same response to TMZ as the parent chemosensitive cells under normoxia via the caspase-dependent pathway. Both TMZ and hyperoxia were associated with increased phosphorylation of ERK p44/42 MAPK (Erk1/2), but to a lesser extent in D54-R cells, suggesting that Erk1/2 activity may be involved in regulation of hyperoxia and TMZ-mediated cell death. Overall, hyperoxia enhanced TMZ toxicity in GBM cells by induction of apoptosis, possibly via MAPK-related pathways. Induced hyperoxia is a potentially promising approach for treatment of TMZ-resistant GBM., published_or_final_version

Published

2012

4. Protein alterations associated with temozolomide resistance in subclones of human glioblastoma cell lines

Author

Gilberto K.K. Leung, Thian-Sze Wong, Gloria Kwok Bo Ng, Stella Sun, Nikki P. Lee, Philip J. R. Day, Xiao Qin Zhang, Jenny Kan-suen Pu, and Wai-Man Lui

Subjects

Proteomics, Cancer Research, Dacarbazine, Blotting, Western, Clinical Neurology, Apoptosis, Vimentin, Real-Time Polymerase Chain Reaction, Cell Movement, Glioma, Two-dimensional gel electrophoresis, Biomarkers, Tumor, Cell Adhesion, In Situ Nick-End Labeling, medicine, Temozolomide, Humans, Neoplasm, Electrophoresis, Gel, Two-Dimensional, RNA, Messenger, Cell adhesion, Antineoplastic Agents, Alkylating, Cell Proliferation, Wound Healing, biology, Brain Neoplasms, Cell growth, Cell Cycle, Laboratory Investigation - Human/Animal Tissue, Cell cycle, Flow Cytometry, medicine.disease, Molecular biology, Oncology, Neurology, Drug Resistance, Neoplasm, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, biology.protein, Neurology (clinical), Glioblastoma, Chemoresistance, medicine.drug

Abstract

Temozolomide (TMZ) is the standard chemotherapeutic agent for human malignant glioma, but intrinsic or acquired chemoresistance represents a major obstacle to successful treatment of this highly lethal group of tumours. Obtaining better understanding of the molecular mechanisms underlying TMZ resistance in malignant glioma is important for the development of better treatment strategies. We have successfully established a passage control line (D54-C10) and resistant variants (D54-P5 and D54-P10) from the parental TMZ-sensitive malignant glioma cell line D54-C0. The resistant sub-cell lines showed alterations in cell morphology, enhanced cell adhesion, increased migration capacities, and cell cycle arrests. Proteomic analysis identified a set of proteins that showed gradual changes in expression according to their 50% inhibitory concentration (IC(50)). Successful validation was provided by transcript profiling in another malignant glioma cell line U87-MG and its resistant counterparts. Moreover, three of the identified proteins (vimentin, cathepsin D and prolyl 4-hydroxylase, beta polypeptide) were confirmed to be upregulated in high-grade glioma. Our data suggest that acquired TMZ resistance in human malignant glioma is associated with promotion of malignant phenotypes, and our reported molecular candidates may serve not only as markers of chemoresistance but also as potential therapeutic targets in the treatment of TMZ-resistant human malignant glioma, providing a platform for future investigations., published_or_final_version, Springer Open Choice, 21 Feb 2012