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635 results on '"Ong, Wei-Yi"'

1. Hepatocyte-intrinsic SMN deficiency drives metabolic dysfunction and liver steatosis in spinal muscular atrophy

Author

Leow, Damien Meng-Kiat, Ng, Yang Kai, Wang, Loo Chien, Koh, Hiromi W.L., Zhao, Tianyun, Khong, Zi Jian, Tabaglio, Tommaso, Narayanan, Gunaseelan, Giadone, Richard M., Sobota, Radoslaw M., Ng, Shi-Yan, Teo, Adrian Kee Keong, Parson, Simon H., Rubin, Lee L., Ong, Wei-Yi, Darras, Basil T., and Yeo, Crystal J.J.

Subjects
Liver cells -- Health aspects -- Physiological aspects, Medical research, Medicine, Experimental, Fatty liver -- Risk factors -- Development and progression, Metabolic diseases -- Development and progression -- Risk factors, Spinal muscular atrophy -- Complications and side effects, Phenotype -- Research, Health care industry
Abstract

Spinal muscular atrophy (SMA) is typically characterized as a motor neuron disease, but extraneuronal phenotypes are present in almost every organ in severely affected patients and animal models. Extraneuronal phenotypes were previously underappreciated, as patients with severe SMA phenotypes usually died in infancy; however, with current treatments for motor neurons increasing patient lifespan, impaired function of peripheral organs may develop into significant future comorbidities and lead to new treatment-modified phenotypes. Fatty liver is seen in SMA animal models, but generalizability to patients and whether this is due to hepatocyte-intrinsic survival motor neuron (SMN) protein deficiency and/or subsequent to skeletal muscle denervation is unknown. If liver pathology in SMA is SMN dependent and hepatocyte intrinsic, this suggests SMN-repleting therapies must target extraneuronal tissues and motor neurons for optimal patient outcome. Here, we showed that fatty liver is present in SMA patients and that SMA patient- specific induced pluripotent stem cell-derived hepatocyte-like cells were susceptible to steatosis. Using proteomics, functional studies, and CRISPR/Cas9 gene editing, we confirmed that fatty liver in SMA is a primary SMN-dependent hepatocyte- intrinsic liver defect associated with mitochondrial and other hepatic metabolism implications. These pathologies require monitoring and indicate the need for systematic clinical surveillance and additional and/or combinatorial therapies to ensure continued SMA patient health., Introduction Spinal muscular atrophy (SMA) is one of the most common monogenetic autosomal recessive neuromuscular genetic diseases, with a worldwide carrier frequency of approximately 1 in 52 and disease incidence [...]

Published
2024
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2. Lewy Body-like Inclusions in Human Midbrain Organoids Carrying Glucocerebrosidase and α-Synuclein Mutations.

Author

Jo, Junghyun, Yang, Lin, Tran, Hoang-Dai, Yu, Weonjin, Sun, Alfred, Chang, Ya, Jung, Byung, Lee, Seung-Jae, Saw, Tzuen, Xiao, Bin, Khoo, Audrey, Yaw, Lai-Ping, Xie, Jessica, Lokman, Hidayat, Ong, Wei-Yi, Lim, Grace, Lim, Kah-Leong, Tan, Eng-King, Ng, Huck-Hui, and Je, Hyunsoo

Subjects
Embryonic Stem Cells, Glucosylceramidase, Humans, Lewy Bodies, Mesencephalon, Mutation, Organoids, alpha-Synuclein
Abstract

OBJECTIVE: We utilized human midbrain-like organoids (hMLOs) generated from human pluripotent stem cells carrying glucocerebrosidase gene (GBA1) and α-synuclein (α-syn; SNCA) perturbations to investigate genotype-to-phenotype relationships in Parkinson disease, with the particular aim of recapitulating α-syn- and Lewy body-related pathologies and the process of neurodegeneration in the hMLO model. METHODS: We generated and characterized hMLOs from GBA1-/- and SNCA overexpressing isogenic embryonic stem cells and also generated Lewy body-like inclusions in GBA1/SNCA dual perturbation hMLOs and conduritol-b-epoxide-treated SNCA triplication hMLOs. RESULTS: We identified for the first time that the loss of glucocerebrosidase, coupled with wild-type α-syn overexpression, results in a substantial accumulation of detergent-resistant, β-sheet-rich α-syn aggregates and Lewy body-like inclusions in hMLOs. These Lewy body-like inclusions exhibit a spherically symmetric morphology with an eosinophilic core, containing α-syn with ubiquitin, and can also be formed in Parkinson disease patient-derived hMLOs. We also demonstrate that impaired glucocerebrosidase function promotes the formation of Lewy body-like inclusions in hMLOs derived from patients carrying the SNCA triplication. INTERPRETATION: Taken together, the data indicate that our hMLOs harboring 2 major risk factors (glucocerebrosidase deficiency and wild-type α-syn overproduction) of Parkinson disease provide a tractable model to further elucidate the underlying mechanisms for progressive Lewy body formation. ANN NEUROL 2021;90:490-505.

Published
2021

13. #134 : Unraveling the mTORC1 Mediated Pathway for Reproductive Longevity Rejuvenation by Targetting RPS6

Author

Tan, Xue Ting, primary, Teh, Daniel BL, additional, Lau, Lang-Chu, additional, Sim, Weiling Eunice, additional, Lee, Jovin, additional, Tang, Richard, additional, Lee, Jonathan, additional, Lee, Jin-Young, additional, Deng, Shuo, additional, Yap, Celestial Theresa, additional, Tan, Tuan Zea, additional, Ong, Wei Yi, additional, Pan, Feng, additional, Tan, Xing Fei, additional, Yip, George W., additional, and Huang, Zhongwei, additional

Published
2023
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14. Deletion of Mfsd2b impairs thrombotic functions of platelets

Author

Chandrakanthan, Madhuvanthi, Nguyen, Toan Quoc, Hasan, Zafrul, Muralidharan, Sneha, Vu, Thiet Minh, Li, Aaron Wei Liang, Le, Uyen Thanh Nha, Thi Thuy Ha, Hoa, Baik, Sang-Ha, Tan, Sock Hwee, Foo, Juat Chin, Wenk, Markus R., Cazenave-Gassiot, Amaury, Torta, Federico, Ong, Wei Yi, Chan, Mark Yan Yee, and Nguyen, Long N.

Published
2021
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42. Differences in the ultrastructure of neurons in the spinal ganglion and dorsal rootlet between rats treated with cisplatin only versus co‐administration with a sphingosine 1‐phosphate receptor 2 agonist in attenuating neuropathy and allodynia.

Author

Chayaburakul, Kanokporn, Ong, Wei Yi, Herr, Deron R., Kobutree, Phetnarin, and Chantra, Kraisri

Subjects
*NEURONS, *NEUROLOGICAL disorders, *ANIMAL experimentation, *ELECTRON microscopy, *CISPLATIN, *DESCRIPTIVE statistics, *RESEARCH funding, *TUMORS, *NERVOUS system regeneration, *MICE, *SPHINGOSINE-1-phosphate
Abstract

Background and Aims: Cisplatin is a chemotherapeutic agent for many types of cancer. The neurotoxicity of cisplatin includes neuropathy and allodynia. We aimed to study structural changes by using CYM54‐78, attenuating cisplatin‐induced neuropathy and blocking the pathogenesis in neurons, and promoting axonal regeneration. Methods: TEM (transmission electron microscopy) was used to distinguish ultrastructural changes in dorsal root ganglion (DRG) and dorsal rootlets (DR) between rats treated with cisplatin alone and rats co‐treated with cisplatin and sphingosine ‐1‐phosphate receptor2 (S1P2) agonist, CYM‐5478. Results: In DRG of rats treated with cisplatin alone, TEM micrographs showed necrosis and apoptotic cells. Neuronal cytoplasm showed numerous vacuole (stage C) and swelling (stage B➔C) mitochondrial degeneration. Neurons in DRG from cisplatin+CYM‐5478 group showed a higher percentage of healthy mitochondria (from 5.3% to 75.6%) than those treated with cisplatin alone. DR of cisplatin only group showed abnormal axoplasm, axolemma, and focal detached myelin sheaths, especially in Aδ (fast pain) and Aβ (touch) fibers, and revealed collateral branches that sprouted from Aβ fibers, which is characteristic of allodynia. Moreover, vasoconstriction was observed in DRG and DR. Rats in cisplatin+CYM‐5478 group showed not only fewer abnormal structures than those in cisplatin only group, but also showed Bands of Büngner and onion bulb‐like structures, which are characteristic of nerve regeneration. Interpretation: Together with our previous study, showed that CYM‐5478 attenuated neuropathy and allodynia in a rat model of cisplatin‐induced neuropathy, these results suggest S1P2 agonists as a potential approach the for treatment of cancer due to the reduction of side effects of cisplatin. [ABSTRACT FROM AUTHOR]

Published
2023
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44. SPNS1 is required for the transport of lysosphingolipids and lysoglycerophospholipids from lysosomes

Author

Ha, Hoa T.T., primary, Nguyen, Xuan T.A., additional, Vo, Linh K., additional, Leong, Nancy C.P., additional, Liu, Siyi, additional, Nguyen, Dat T., additional, Lim, Pei Yen, additional, Wu, Ya Jun, additional, Nguyen, Toan Q., additional, Oh, Jeongah, additional, Wenk, Markus R., additional, Cazenave-Gassiot, Amaury, additional, Ong, Wei Yi, additional, and Nguyen, Long N., additional

Published
2022
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48. SIRIUS, Ultra-Scintillating Upconversion Breast Implant for Remote Orthotopic Photodynamic Therapy.

Author

Kamarudin, Jannah Binte Mohamed, Sun, Bowen, Foo, Aaron Song Chuan, Lim, Xin-Yuan, Judd, Heevah, Tan, Xingfei, Tan, Xuan Hao, Razar, Rafhanah Banu Binte Abdul, Liu, Min, Zhong, Jinglin, Chua, John Jia En, Ng, Celene Wei Qi, Goh, James C. H., Tan, Tuan Zea, Parikh, Bhav Harshad, Su, Xinyi, Kumar, Alan Prem, Ong, Wei Yi, Yamaguchi, Naoki, and Set, Sze Y.

Published
2023
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49. Protective Effect of Ergothioneine Against Stroke in Rodent Models.

Author

Ong, Wei-Yi, Kao, Mei-Han, Cheung, Wai-Mui, Leow, Damien Meng-Kiat, Cheah, Irwin Kee-Mun, and Lin, Teng-Nan

Abstract

Ergothioneine (ET) is a naturally occurring antioxidant and cytoprotective agent that is synthesized by fungi and certain bacteria. Recent studies have shown a beneficial effect of ET on neurological functions, including cognition and animal models of depression. The aim of this study is to elucidate a possible effect of ET in rodent models of stroke. Post-ischemic intracerebroventricular (i.c.v.) infusion of ET significantly reduced brain infarct volume by as early as 1 day after infusion in rats, as shown by triphenyltetrazolium chloride (TTC) assay. There was a dose-dependent increase in protection, from 50 to 200 ng of ET infusion. These results suggest that ET could have a protective effect on CNS neurons. We next elucidated the effect of systemic ET on brain infarct volume in mice after stroke. Daily i.p. injection of 35 mg/kg ET (the first dose being administered 3 h after stroke) had no significant effect on infarct volume. However, daily i.p. injections of 70 mg/kg, 100 mg/kg, 125 mg/kg and 150 mg/kg ET, with the first dose administered 3 h after stroke, significantly decreased infarct volume at 7 days after vessel occlusion in mice. In order to elucidate at what time interval during the 7 days there could be effective protection, a second set of experiments was carried out in mice, using one of the effective loading protocols, i.e. 125 mg/kg i.p. ET but the brains were analyzed at 1, 4 and 7 days post-stroke by MRI. We found that ET was already protective against neuronal injury and decreased the size of the brain infarct from as early as 1 day post-stroke. Behavioral experiments carried out on a third set of mice (using 125 mg/kg i.p. ET) showed that this was accompanied by significant improvements in certain behaviors (pole test) at 1 day after stroke. Together, results of this study indicate that i.c.v. and systemic ET are effective in reducing brain infarct volume after stroke in rodent models. [ABSTRACT FROM AUTHOR]

Published
2023
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