Your search keyword '"Choon Bing Low"' showing total 5 results

1. Discovery of Irreversible Inhibitors Targeting Histone Methyltransferase, SMYD3

Author

Jeffrey Hill, Joma Joy, Grace Lin, Nurul Dinie, Justina Fulwood, Sin Yin Chew, Xiaoying Koh-Stenta, Sugunavathi Sepramaniam, Xin Hui Chew, Rong Li, Melgious Jin Yan Ang, May Ann Lee, Alex Matter, Weixuan Yu, Zhiyuan Ke, Anna Ngo, Hwa Hwa Chung, Susmitha Vuddagiri, Kanda Sangthongpitag, Klement Foo, Vithya Manoharan, C. S. Brian Chia, Sravanthy Manesh, Esther H. Q. Ong, Nithya Baburajendran, Chuhui Huang, Zekui Perlyn Kwek, John Liang Kuan Wee, Yun Shan Chew, Priya Retna, Thomas H. Keller, Anders Poulsen, Si Si Liew, Choon Bing Low, and Vishal Pendharkar

Subjects

chemistry.chemical_classification, Methyltransferase, Chemistry, Organic Chemistry, Biochemistry, Cell biology, 3D cell culture, Enzyme, Mechanism of action, Covalent bond, Histone methyltransferase, Drug Discovery, medicine, Epigenetics, medicine.symptom, Transferase inhibitor

Abstract

[Image: see text] SMYD3 is a histone methyltransferase that regulates gene transcription, and its overexpression is associated with multiple human cancers. A novel class of tetrahydroacridine compounds which inhibit SMYD3 through a covalent mechanism of action is identified. Optimization of these irreversible inhibitors resulted in the discovery of 4-chloroquinolines, a new class of covalent warheads. Tool compound 29 exhibits high potency by inhibiting SMYD3′s enzymatic activity and showing antiproliferative activity against HepG2 in 3D cell culture. Our findings suggest that covalent inhibition of SMYD3 may have an impact on SMYD3 biology by affecting expression levels, and this warrants further exploration.

Published

2019

2. Towards Selective Mycobacterial ClpP1P2 Inhibitors with Reduced Activity against the Human Proteasome

Author

Wilfried Moreira, Sridhar Santhanakrishnan, Anders Poulsen, Thomas Dick, Brian W. Dymock, Grace J. Y. Ngan, Kanda Sangthongpitag, and Choon Bing Low

Subjects

0301 basic medicine, Models, Molecular, Proteases, medicine.medical_treatment, Mycobacterium smegmatis, Microbial Sensitivity Tests, Pharmacology, Mycobacterium tuberculosis, Bortezomib, 03 medical and health sciences, chemistry.chemical_compound, Mice, Bacterial Proteins, medicine, Potency, Animals, Pharmacology (medical), Experimental Therapeutics, dipeptidyl boronic acid, Tuberculosis, Pulmonary, antimycobacterial, Protease, biology, Serine Endopeptidases, Endopeptidase Clp, biology.organism_classification, Anti-Bacterial Agents, 030104 developmental biology, Infectious Diseases, chemistry, Proteasome, Drug Design, Toxicity, caseinolytic protease, Lead compound, Proteasome Inhibitors, medicine.drug

Abstract

Mycobacterium tuberculosis is responsible for the greatest number of deaths worldwide due to a bacterial agent. We recently identified bortezomib (Velcade; compound 1) as a promising antituberculosis (anti-TB) compound. We showed that compound 1 inhibits the mycobacterial caseinolytic proteases P1 and P2 (ClpP1P2) and exhibits bactericidal activity, and we established compound 1 and ClpP1P2 as an attractive lead/target couple. However, compound 1 is a human-proteasome inhibitor currently approved for cancer therapy and, as such, exhibits significant toxicity. Selective inhibition of the bacterial protease over the human proteasome is desirable in order to maintain antibacterial activity while reducing toxicity. We made use of structural data in order to design a series of dipeptidyl-boronate derivatives of compound 1. We tested these derivatives for whole-cell ClpP1P2 and human-proteasome inhibition as well as bacterial-growth inhibition and identified compounds that were up to 100-fold-less active against the human proteasome but that retained ClpP1P2 and mycobacterial-growth inhibition as well as bactericidal potency. The lead compound, compound 58, had low micromolar ClpP1P2 and anti- M. tuberculosis activity, good aqueous solubility, no cytochrome P450 liabilities, moderate plasma protein binding, and low toxicity in two human liver cell lines, and despite high clearance in microsomes, this compound was only moderately cleared when administered intravenously or orally to mice. Higher-dose oral pharmacokinetics indicated good dose linearity. Furthermore, compound 58 was inhibitory to only 11% of a panel of 62 proteases. Our work suggests that selectivity over the human proteasome can be achieved with a drug-like template while retaining potency against ClpP1P2 and, crucially, anti- M. tuberculosis activity.

Published

2017

3. Optimization of Selective Mitogen-Activated Protein Kinase Interacting Kinases 1 and 2 Inhibitors for the Treatment of Blast Crisis Leukemia.

Author

Haiyan Yang, Chennamaneni, Lohitha Rao, Wai Tuck Ho, Melvyn, Shi Hua Ang, Sum Wai Tan, Eldwin, Jeyaraj, Duraiswamy Athisayamani, Yoon Sheng Yeap, Boping Liu, Hq Ong, Esther, Joy, Joma Kanikadu, Liang Kuan Wee, John, Kwek, Perlyn, Retna, Priya, Dinie, Nurul, Thuy Thi Hanh Nguyen, Shi Jing Tai, Manoharan, Vithya, Pendharkar, Vishal, Choon Bing Low, and Yun Shan Chew

Published

2018

4. Scaffold Hopping and Optimization of Maleimide Based Porcupine Inhibitors.

Author

Soo Yei Ho, Alam, Jenefer, Jeyaraj, Duraiswamy Athisayamani, Weiling Wang, Grace Ruiting Lin, Shi Hua Ang, Eldwin Sum Wai Tan, May Ann Lee, Zhiyuan Ke, Madan, Babita, Virshup, David M., Li Jun Ding, Manoharan, Vithya, Yun Shan Chew, Choon Bing Low, Pendharkar, Vishal, Sangthongpitag, Kanda, Hill, Jeffrey, Keller, Thomas H., and Poulsen, Anders

Published

2017

5. Genetic Manipulation of Neural Stem Cells for Transplantation into the Injured Spinal Cord.

Author

Choon Bing Low

Subjects

*STEM cell transplantation, *SPINAL cord injuries, *DEVELOPMENTAL neurobiology, *TRANSCRIPTION factors

Abstract

The injured adult spinal cord is not conducive for neuronal regeneration and neurogenesis. Engrafted neural precursor cells (NPCs) differentiate largely into astroglia, with only a very small percentage becoming neurons (which might replace injured neurons) or oligodendroglia (which might improve injury induced demyelination of spared neurons). Several recent attempts have been made to enhanced neurogenesis or oligodendroglia differentiation of transplanted NPCs by genetic manipulation. These include exogenous expression of noggin, with the idea of antagonizing the astroglia differentiation promoting Bone Morphogenetic Proteins (BMPs). Direct attempts to enhance neurogenesis have also been made in transgenic over-expression of neurogenic basic helix-loop-helix transcription factors. These experiments resulted in some interesting observations, which we discuss here in the light of recent advances in development of cell-based engraftment therapy for spinal cord injuries. [ABSTRACT FROM AUTHOR]

Published

2007