Your search keyword '"Chi-Lin Kuo"' showing total 31 results

1. Implementation of a machine learning application in preoperative risk assessment for hip repair surgery

Author

Yu-Yu Li, Jhi-Joung Wang, Sheng-Han Huang, Chi-Lin Kuo, Jen-Yin Chen, Chung-Feng Liu, and Chin-Chen Chu

Subjects

Hip surgery, Risk assessment, Machine learning, Anesthesiology, RD78.3-87.3

Abstract

Abstract Background This study aims to develop a machine learning-based application in a real-world medical domain to assist anesthesiologists in assessing the risk of complications in patients after a hip surgery. Methods Data from adult patients who underwent hip repair surgery at Chi-Mei Medical Center and its 2 branch hospitals from January 1, 2013, to March 31, 2020, were analyzed. Patients with incomplete data were excluded. A total of 22 features were included in the algorithms, including demographics, comorbidities, and major preoperative laboratory data from the database. The primary outcome was a composite of adverse events (in-hospital mortality, acute myocardial infarction, stroke, respiratory, hepatic and renal failure, and sepsis). Secondary outcomes were intensive care unit (ICU) admission and prolonged length of stay (PLOS). The data obtained were imported into 7 machine learning algorithms to predict the risk of adverse outcomes. Seventy percent of the data were randomly selected for training, leaving 30% for testing. The performances of the models were evaluated by the area under the receiver operating characteristic curve (AUROC). The optimal algorithm with the highest AUROC was used to build a web-based application, then integrated into the hospital information system (HIS) for clinical use. Results Data from 4,448 patients were analyzed; 102 (2.3%), 160 (3.6%), and 401 (9.0%) patients had primary composite adverse outcomes, ICU admission, and PLOS, respectively. Our optimal model had a superior performance (AUROC by DeLong test) than that of ASA-PS in predicting the primary composite outcomes (0.810 vs. 0.629, p

Published

2022

2. Role of μ-glucosidase 2 in aberrant glycosphingolipid metabolism: model of glucocerebrosidase deficiency in zebrafish

Author

Lindsey T. Lelieveld, Mina Mirzaian, Chi-Lin Kuo, Marta Artola, Maria J. Ferraz, Remco E.A. Peter, Hisako Akiyama, Peter Greimel, Richard J.B.H.N. van den Berg, Herman S. Overkleeft, Rolf G. Boot, Annemarie H. Meijer, and Johannes M.F.G. Aerts

Subjects

Gaucher disease, sphingolipids, lysosphingolipids, lipid metabolism, Biochemistry, QD415-436

Abstract

μ-glucosidases [GBA1 (glucocerebrosidase) and GBA2] are ubiquitous essential enzymes. Lysosomal GBA1 and cytosol-facing GBA2 degrade glucosylceramide (GlcCer); GBA1 deficiency causes Gaucher disease, a lysosomal storage disorder characterized by lysosomal accumulation of GlcCer, which is partly converted to glucosylsphingosine (GlcSph). GBA1 and GBA2 also may transfer glucose from GlcCer to cholesterol, yielding glucosylated cholesterol (GlcChol). Here, we aimed to clarify the role of zebrafish Gba2 in glycosphingolipid metabolism during Gba1 deficiency in zebrafish (Danio rerio), which are able to survive total Gba1 deficiency. We developed Gba1 (gba1−/−), Gba2 (gba2−/−), and double (gba1−/−:gba2−/−) zebrafish knockouts using CRISPR/Cas9 and explored the effects of both genetic and pharmacological interventions on GlcCer metabolism in individual larvae. Activity-based probes and quantification of relevant glycolipid metabolites confirmed enzyme deficiency. GlcSph increased in gba1−/− larvae (0.09 pmol/fish) but did not increase more in gba1−/−:gba2−/− larvae. GlcCer was comparable in gba1−/− and WT larvae but increased in gba2−/− and gba1−/−:gba2−/− larvae. Independent of Gba1 status, GlcChol was low in all gba2−/− larvae (0.05 vs. 0.18 pmol/fish in WT). Pharmacologic inactivation of zebrafish Gba1 comparably increased GlcSph. Inhibition of GlcCer synthase (GCS) in Gba1-deficient larvae reduced GlcCer and GlcSph, and concomitant inhibition of GCS and Gba2 with iminosugars also reduced excessive GlcChol. Finally, overexpression of human GBA1 and injection of recombinant GBA1 both decreased GlcSph. We determined that zebrafish larvae offer an attractive model to study glucosidase actions in glycosphingolipid metabolism in vivo, and we identified distinguishing characteristics of zebrafish Gba2 deficiency.

Published

2019

3. Reweighting of the sensory inputs for postural control in patients with cervical spondylotic myelopathy after surgery

Author

Iu-Shiuan Lin, Dar-Ming Lai, Jian-Jiun Ding, Andy Chien, Chih-Hsiu Cheng, Shwu-Fen Wang, Jaw-Lin Wang, Chi-Lin Kuo, and Wei-Li Hsu

Subjects

Sensory integration, Time-frequency analysis, Gabor transform, Center of pressure, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Abstract Background Cervical spondylotic myelopathy (CSM) is a degenerative cervical disease in which the spinal cord is compressed. Patients with CSM experience balance disturbance because of impaired proprioception. The weighting of the sensory inputs for postural control in patients with CSM is unclear. Therefore, this study investigated the weighting of sensory systems in patients with CSM. Method Twenty-four individuals with CSM (CSM group) and 24 age-matched healthy adults (healthy control group) were analyzed in this observational study. The functional outcomes (modified Japanese Orthopaedic Association Scale [mJOA], Japanese Orthopaedic Association Cervical Myelopathy Questionnaire [JOACMEQ], Nurick scale) and static balance (eyes-open and eyes-closed conditions) were assessed for individuals with CSM before surgery, 3 and 6 months after surgery. Time-domain and time–frequency-domain variables of the center of pressure (COP) were analyzed to examine the weighting of the sensory systems. Results In the CSM group, lower extremity function of mJOA and Nurick scale significantly improved 3 and 6 months after surgery. Before surgery, the COP mean velocity and total energy were significantly higher in the CSM group than in the control group for both vision conditions. Compared with the control group, the CSM group exhibited lower energy content in the moderate-frequency band (i.e., proprioception) and higher energy content in the low-frequency band (i.e., cerebellar, vestibular, and visual systems) under the eyes-open condition. The COP mean velocity of the CSM group significantly decreased 3 months after surgery. The energy content in the low-frequency band (i.e., visual and vestibular systems) of the CSM group was closed to that of the control group 6 months after surgery under the eyes-open condition. Conclusion Before surgery, the patients with CSM may have had compensatory sensory weighting for postural control, with decreased weighting on proprioception and increased weighting on the other three sensory inputs. After surgery, the postural control of the patients with CSM improved, with decreased compensation for the proprioceptive system from the visual and vestibular inputs. However, the improvement remained insufficient because the patients with CSM still had lower weighting on proprioception than the healthy adults did. Therefore, patients with CSM may require balance training and posture education after surgery. Trial registration Trial Registration number: NCT03396055 Name of the registry: ClinicalTrials.gov Date of registration: January 10, 2018 - Retrospectively registered Date of enrolment of the first participant to the trial: October 19, 2015

Published

2019

4. 1,6-Cyclophellitol Cyclosulfates: A New Class of Irreversible Glycosidase Inhibitor

Author

Marta Artola, Liang Wu, Maria J. Ferraz, Chi-Lin Kuo, Lluís Raich, Imogen Z. Breen, Wendy A. Offen, Jeroen D. C. Codée, Gijsbert A. van der Marel, Carme Rovira, Johannes M. F. G. Aerts, Gideon J. Davies, and Herman S. Overkleeft

Subjects

Chemistry, QD1-999

Published

2017

5. Detection of Active Mammalian GH31 α‑Glucosidases in Health and Disease Using In-Class, Broad-Spectrum Activity-Based Probes

Author

Jianbing Jiang, Chi-Lin Kuo, Liang Wu, Christian Franke, Wouter W. Kallemeijn, Bogdan I. Florea, Eline van Meel, Gijsbert A. van der Marel, Jeroen D. C. Codée, Rolf G. Boot, Gideon J. Davies, Herman S. Overkleeft, and Johannes M. F. G. Aerts

Subjects

Chemistry, QD1-999

Published

2016

6. Correction to 'Detection of Active Mammalian GH31 α‑Glucosidases in Health and Disease Using In-Class, Broad-Spectrum Activity-Based Probes'

Author

Jianbing Jiang, Chi-Lin Kuo, Liang Wu, Christian Franke, Wouter W. Kallemeijn, Bogdan I. Florea, Eline van Meel, Gijsbert A. van der Marel, Jeroen D. C. Codée, Rolf G. Boot, Gideon J. Davies, Herman S. Overkleeft, and Johannes M. F. G. Aerts

Subjects

Chemistry, QD1-999

Published

2017

7. Opioid use and prescription in emergency departments visits in Taiwan: a nationwide population-based retrospective study.

Author

Chi-Lin Kuo, Chung-Han Ho, Kuo-Chuan Hung, Yao-Tsung Lin, Ping-Heng Tan, Jhi-Joung Wang, and Chin-Chen Chu

Subjects

*EMERGENCY room visits, *CHEST pain, *CANCER pain, *NATIONAL health insurance, *MEDICAL prescriptions, *OPIOIDS

Abstract

The emergency departments (EDs) prescribed opioids in acute pains and had thus been one of its major sources. We aimed to describe the features of EDs opioid use in Taiwan from 2008 to 2018. A retrospective cross-sectional study was conducted through Taiwan’s National Health Insurance Database. The patients having an index EDs visit from 2008 to 2018 were identified who had been administered or prescribed opioid at discharge. The general trend and the trend for each type of opioid prescribed from EDs in Taiwan were explored along with the diagnosis resulting in opioid prescriptions in EDs. The opioid prescription from EDs in the study period accounted for 9.72% to 11.97% of the total opioid prescriptions in Taiwan. The rate (prescriptions per 104 persons) of opioids prescription in EDs peaked from 282.64/104 in 2008 to 330.24/104 in 2015, and declined to 286.47/104 in 2018. The pethidine prescription rate had downward trend from 123.05/104 in 2008 to 23.69/104 in 2018 in EDs. Morphine was the most administered opioid in 2009 (121.11/104 ) which increased to 180.99/104 in 2018. The reasons for opioid prescriptions in EDs were the abdominal pain followed by chest pain, respiratory discomfort and cancer-related pain. It was noted that EDs prescriptions of morphine, codeine and fentanyl had an increasing trend in Taiwan between 2008 to 2018, while pethidine had a declining trend. Morphine was the most used and prescribed opioid in EDs, and the leading cause for opioid usage was abdominal pains. [ABSTRACT FROM AUTHOR]

Published

2024

8. HEPES‐buffering of bicarbonate‐containing culture medium perturbs lysosomal glucocerebrosidase activity

Author

Martijn J. C. Lienden, Jan Aten, Rolf G. Boot, Marco Eijk, Johannes M. F. G. Aerts, Chi‐Lin Kuo, and Pathology

Subjects

glucosylsphingosine, diagnosis, glucocerebrosidase, Gaucher disease, Cell Biology, Biochemistry, cell culture medium, Bicarbonates, lysosome, Glucosylceramidase, Humans, Lysosomes, HEPES, Molecular Biology

Abstract

Glucocerebrosidase (GCase), encoded by the GBA gene, degrades the ubiquitous glycosphingolipid glucosylceramide. Inherited GCase deficiency causes Gaucher disease (GD). In addition, carriers of an abnormal GBA allele are at increased risk for Parkinson's disease. GCase undergoes extensive modification of its four N-glycans en route to and inside the lysosome that is reflected in changes in molecular weight as detected with sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Fluorescent activity-based probes (ABPs) that covalently label GCase in reaction-based manner in vivo and in vitro allow sensitive visualization of GCase molecules. Using these ABPs, we studied the life cycle of GCase in cultured fibroblasts and macrophage-like RAW264.7 cells. Specific attention was paid to the impact of 4-(2-hydroxyethyl)-1-piperazineethanesulfonic acid (HEPES) supplementation to bicarbonate-buffered medium. Here, we report how HEPES-buffered medium markedly influences processing of GCase, its lysosomal degradation, and the total cellular enzyme level. HEPES-containing medium was also found to reduce maturation of other lysosomal enzymes (alpha-glucosidase and beta-glucuronidase) in cells. The presence of HEPES in bicarbonate containing medium increases GCase activity in GD-patient derived fibroblasts, illustrating how the supplementation of HEPES complicates the use of cultured cells for diagnosing GD.

Published

2022

9. Synthesis of broad-specificity activity-based probes for exo-β-mannosidases

Author

Nicholas G. S. McGregor, Chi-Lin Kuo, Thomas J. M. Beenakker, Chun-Sing Wong, Wendy A. Offen, Zachary Armstrong, Bogdan I. Florea, Jeroen D. C. Codée, Herman S. Overkleeft, Johannes M. F. G. Aerts, and Gideon J. Davies

Subjects

Organic Chemistry, Physical and Theoretical Chemistry, Biochemistry

Abstract

Exo-beta-mannosidases are a broad class of stereochemically retaining hydrolases that are essential for the breakdown of complex carbohydrate substrates found in all kingdoms of life. Yet the detection of exo-beta-mannosidases in complex biological samples remains challenging, necessitating the development of new methodologies. Cyclophellitol and its analogues selectively label the catalytic nucleophiles of retaining glycoside hydrolases, making them valuable tool compounds. Furthermore, cyclophellitol can be readily redesigned to enable the incorporation of a detection tag, generating activity-based probes (ABPs) that can be used to detect and identify specific glycosidases in complex biological samples. Towards the development of ABPs for exo-beta-mannosidases, we present a concise synthesis of beta-manno-configured cyclophellitol, cyclophellitol aziridine, and N-alkyl cyclophellitol aziridines. We show that these probes covalently label exo-beta-mannosidases from GH families 2, 5, and 164. Structural studies of the resulting complexes support a canonical mechanism-based mode of action in which the active site nucleophile attacks the pseudoanomeric centre to form a stable ester linkage, mimicking the glycosyl enzyme intermediate. Furthermore, we demonstrate activity-based protein profiling using an N-alkyl aziridine derivative by specifically labelling MANBA in mouse kidney tissue. Together, these results show that synthetic manno-configured cyclophellitol analogues hold promise for detecting exo-beta-mannosidases in biological and biomedical research.

Published

2022

10. Xylose‐Configured Cyclophellitols as Selective Inhibitors for Glucocerebrosidase

Author

Chi-Lin Kuo, Rolf G. Boot, Marta Artola, Qin Su, Lindsey T. Lelieveld, Marri Verhoek, Sybrin P. Schröder, Maria J. Ferraz, Herman S. Overkleeft, and Johannes M. F. G. Aerts

Subjects

Molecular Conformation, Gaucher disease, Xylose, Biochemistry, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, In vivo, GBA3, activity-based probe, Animals, Humans, Glycoside hydrolase, Enzyme Inhibitors, Molecular Biology, Cells, Cultured, Zebrafish, 030304 developmental biology, 0303 health sciences, Full Paper, Chemistry, glucocerebrosidase, Organic Chemistry, Full Papers, Cyclohexanols, In vitro, 3. Good health, Cyclophellitol, HEK293 Cells, cyclophellitol, Molecular Medicine, Glucosylceramidase, Glucocerebrosidase, 030217 neurology & neurosurgery, Conduritol, conduritol B-epoxide

Abstract

Glucocerebrosidase (GBA), a lysosomal retaining β‐d‐glucosidase, has recently been shown to hydrolyze β‐d‐xylosides and to transxylosylate cholesterol. Genetic defects in GBA cause the lysosomal storage disorder Gaucher disease (GD), and also constitute a risk factor for developing Parkinson's disease. GBA and other retaining glycosidases can be selectively visualized by activity‐based protein profiling (ABPP) using fluorescent probes composed of a cyclophellitol scaffold having a configuration tailored to the targeted glycosidase family. GBA processes β‐d‐xylosides in addition to β‐d‐glucosides, this in contrast to the other two mammalian cellular retaining β‐d‐glucosidases, GBA2 and GBA3. Here we show that the xylopyranose preference also holds up for covalent inhibitors: xylose‐configured cyclophellitol and cyclophellitol aziridines selectively react with GBA over GBA2 and GBA3 in vitro and in vivo, and that the xylose‐configured cyclophellitol is more potent and more selective for GBA than the classical GBA inhibitor, conduritol B‐epoxide (CBE). Both xylose‐configured cyclophellitol and cyclophellitol aziridine cause accumulation of glucosylsphingosine in zebrafish embryo, a characteristic hallmark of GD, and we conclude that these compounds are well suited for creating such chemically induced GD models., New selective GBA inhibitor: We show that the β‐d‐xylose configured epoxide and aziridine are potent selective inhibitors towards GBA in vitro and in vivo, and their selectivity and inhibitory effect towards GBA are superior to the widely used GBA inhibitor Conduritol B‐epoxide (CBE).

Published

2021

11. Glycosphingolipids and lysosomal storage disorders as illustrated by gaucher disease

Author

Martijn J.C. van der Lienden, Lindsey T. Lelieveld, Chi-Lin Kuo, Johannes M. F. G. Aerts, Marta Artola, Herman S. Overkleeft, and Daphne E.C. Boer

Subjects

Glucocerebrosidase, 0301 basic medicine, Chemical biology, Lysosomal storage disorders, Gaucher disease, Disease, 010402 general chemistry, 01 natural sciences, Biochemistry, Glycosphingolipids, Analytical Chemistry, 03 medical and health sciences, chemistry.chemical_compound, Lysosome, Animals, Humans, Medicine, business.industry, Glycosphingolipid, Disease monitoring, 3. Good health, 0104 chemical sciences, 030104 developmental biology, medicine.anatomical_structure, chemistry, Glucosylsphingosine, lipids (amino acids, peptides, and proteins), business, Biomarkers

Abstract

Glycosphingolipids are important building blocks of the outer leaflet of the cell membrane. They are continuously recycled, involving fragmentation inside lysosomes by glycosidases. Inherited defects in degradation cause lysosomal glycosphingolipid storage disorders. The relatively common glycosphingolipidosis Gaucher disease is highlighted here to discuss new insights in the molecular basis and pathophysiology of glycosphingolipidoses reached by fundamental research increasingly using chemical biology tools. We discuss improvements in the detection of glycosphingolipid metabolites by mass spectrometry and review new developments in laboratory diagnosis and disease monitoring as well as therapeutic interventions.

Published

2019

12. In vivo inactivation of glycosidases by conduritol B epoxide and cyclophellitol as revealed by activity‐based protein profiling

Author

Marta Artola, Herman S. Overkleeft, Annemarie H. Meijer, Anthony H. Futerman, Lindsey T. Lelieveld, Ayelet Vardi, Iris Zoutendijk, Mina Mirzaian, Wouter W. Kallemeijn, Chi-Lin Kuo, Johannes M. F. G. Aerts, and Herman P. Spaink

Subjects

0301 basic medicine, Cell, Gaucher disease, Biochemistry, activity‐based probes, 03 medical and health sciences, Mice, 0302 clinical medicine, In vivo, medicine, Animals, Humans, Glycoside hydrolase, Glycoside Hydrolase Inhibitors, Molecular Biology, Zebrafish, Enzyme Assays, Chemistry, glucocerebrosidase, beta-Glucosidase, Activity-based proteomics, Brain, Parkinson Disease, Cell Biology, Original Articles, Cyclohexanols, Glucosylceramidase, Isoenzymes, Disease Models, Animal, Kinetics, 030104 developmental biology, Cyclophellitol, medicine.anatomical_structure, HEK293 Cells, cyclophellitol, 030220 oncology & carcinogenesis, Larva, Original Article, Conduritol B-epoxide, Lysosomes, Glucocerebrosidase, conduritol B epoxide, Inositol

Abstract

Glucocerebrosidase (GBA) is a lysosomal β‐glucosidase‐degrading glucosylceramide. Its deficiency causes Gaucher disease (GD), a common lysosomal storage disorder. Carrying a genetic abnormality in GBA constitutes at present the largest genetic risk factor for Parkinson's disease (PD). Conduritol B epoxide (CBE), a mechanism‐based irreversible inhibitor of GBA, is used to generate cell and animal models for investigations on GD and PD. However, CBE may have additional glycosidase targets besides GBA. Here, we present the first in vivo target engagement study for CBE, employing a suite of activity‐based probes to visualize catalytic pocket occupancy of candidate off‐target glycosidases. Only at significantly higher CBE concentrations, nonlysosomal glucosylceramidase (GBA2) and lysosomal α‐glucosidase were identified as major off‐targets in cells and zebrafish larvae. A tight, but acceptable window for selective inhibition of GBA in the brain of mice was observed. On the other hand, cyclophellitol, a closer glucose mimic, was found to inactivate with equal affinity GBA and GBA2 and therefore is not suitable to generate genuine GD‐like models. Enzymes Glucocerebrosidase (http://www.chem.qmul.ac.uk/iubmb/enzyme/EC3/2/1/45.html), nonlysosomal β‐glucocerebrosidase (http://www.chem.qmul.ac.uk/iubmb/enzyme/EC3/2/1/45.html); cytosolic β‐glucosidase (http://www.chem.qmul.ac.uk/iubmb/enzyme/EC3/2/1/21.html); α‐glucosidases (http://www.chem.qmul.ac.uk/iubmb/enzyme/EC3/2/1/20.html); β‐glucuronidase (http://www.chem.qmul.ac.uk/iubmb/enzyme/EC3/2/1/31.html)., In vivo target engagement of mechanism‐based glucocerebrosidase (GBA) inhibitors—conduritol B epoxide (CBE) and cyclophellitol (CP)—were examined in cultured cells, zebrafish larvae and mice by competitive activity‐based protein profiling (ABPP). This method utilizes suicide fluorescent enzyme reporter molecules to assess active site occupancy of target glycosidases by inhibitors. The in vivo targets of CBE and CP and their selectivity towards GBA were revealed.

Published

2019

13. Functionalized Cyclophellitols Are Selective Glucocerebrosidase Inhibitors and Induce a Bona Fide Neuropathic Gaucher Model in Zebrafish

Author

Rolf G. Boot, Lindsey T. Lelieveld, Johannes M. F. G. Aerts, Marta Artola, Herman S. Overkleeft, Jeroen D. C. Codée, Rhianna J. Rowland, Gideon J. Davies, Gijsbert A. van der Marel, and Chi-Lin Kuo

Subjects

010402 general chemistry, 01 natural sciences, Biochemistry, Catalysis, Colloid and Surface Chemistry, Animal model, Animals, Humans, Enzyme Inhibitors, Zebrafish, Gaucher Disease, biology, Chemistry, Communication, General Chemistry, Zebrafish Proteins, biology.organism_classification, Cyclohexanols, 3. Good health, 0104 chemical sciences, Disease Models, Animal, Cyclophellitol, Cancer research, Glucosylceramidase, Genetic risk factor, Conduritol B-epoxide, Glucocerebrosidase

Abstract

Gaucher disease is caused by inherited deficiency in glucocerebrosidase (GBA, a retaining β-glucosidase), and deficiency in GBA constitutes the largest known genetic risk factor for Parkinson's disease. In the past, animal models of Gaucher disease have been generated by treatment with the mechanism-based GBA inhibitors, conduritol B epoxide (CBE), and cyclophellitol. Both compounds, however, also target other retaining glycosidases, rendering generation and interpretation of such chemical knockout models complicated. Here we demonstrate that cyclophellitol derivatives carrying a bulky hydrophobic substituent at C8 are potent and selective GBA inhibitors and that an unambiguous Gaucher animal model can be readily generated by treatment of zebrafish with these.

Published

2019

14. Activity-Based Protein Profiling of Retaining α-Amylases in Complex Biological Samples

Author

Casper de Boer, Marta Artola, Johannes M. F. G. Aerts, Yurong Chen, Maher Abou Hachem, Chi-Lin Kuo, Mikkel S Rasmussen, Herman S. Overkleeft, Bogdan I. Florea, Zachary Armstrong, Gideon J. Davies, Gijsbert A. van der Marel, and Jeroen D. C. Codée

Subjects

Starch, Industrial biotechnology, 010402 general chemistry, 01 natural sciences, Biochemistry, Catalysis, Article, chemistry.chemical_compound, Mice, Colloid and Surface Chemistry, SDG 3 - Good Health and Well-being, Animals, Humans, Amylase, Saliva, Enzyme Assays, chemistry.chemical_classification, biology, Activity-based proteomics, Assimilation (biology), General Chemistry, 0104 chemical sciences, Protein profiling, Enzyme, chemistry, biology.protein, alpha-Amylases, Digestion

Abstract

Amylases are key enzymes in the processing of starch in many kingdoms of life. They are important catalysts in industrial biotechnology where they are applied in, among others, food processing and the production of detergents. In man amylases are the first enzymes in the digestion of starch to glucose and arguably also the preferred target in therapeutic strategies aimed at the treatment of type 2 diabetes patients through down-tuning glucose assimilation. Efficient and sensitive assays that report selectively on retaining amylase activities irrespective of the nature and complexity of the biomaterial studied are of great value both in finding new and effective human amylase inhibitors and in the discovery of new microbial amylases with potentially advantageous features for biotechnological application. Activity-based protein profiling (ABPP) of retaining glycosidases is inherently suited for the development of such an assay format. We here report on the design and synthesis of 1,6-epi-cyclophellitol-based pseudodisaccharides equipped with a suite of reporter entities and their use in ABPP of retaining amylases from human saliva, murine tissue as well as secretomes from fungi grown on starch. The activity and efficiency of the inhibitors and probes are substantiated by extensive biochemical analysis, and the selectivity for amylases over related retaining endoglycosidases is validated by structural studies.

Published

2021

15. Manno-epi-cyclophellitols enable activity-based protein profiling of human α-mannosidases and discovery of new Golgi mannosidase II inhibitors

Author

Zachary Armstrong, Gideon J. Davies, Chi-Lin Kuo, Erwin R. van Rijssel, Thomas J. M. Beenakker, Bogdan I. Florea, Mario van der Stelt, Gijsbert M. van der Marel, Rachel Johnson, D. Lahav, Bing Liu, Colin Hissink, Marjoke F. Debets, Jeroen D. C. Codée, C.S. Wong, Johannes M. F. G. Aerts, Paul P. Geurink, Casper de Boer, Huib Ovaa, Rolf G. Boot, Liang Wu, and Herman S. Overkleeft

Subjects

chemistry.chemical_classification, Lysis, Activity-based proteomics, Epoxide, General Chemistry, Aziridine, Golgi apparatus, 010402 general chemistry, 01 natural sciences, Biochemistry, Catalysis, 0104 chemical sciences, 3. Good health, carbohydrates (lipids), chemistry.chemical_compound, symbols.namesake, Colloid and Surface Chemistry, Enzyme, chemistry, symbols, Mannosidases, Fluorescence anisotropy

Abstract

Golgi mannosidase II (GMII) catalyzes the sequential hydrolysis of two mannosyl residues from GIcNAc-Man(5)GlcNAc(2) to produce GlcNAcMan(3) GlcNAc(2), the precursor for all complex N-glycans, including the branched N-glycans associated with cancer. Inhibitors of GMII are potential cancer therapeutics, but their usefulness is limited by off-target effects, which produce alpha-mannosidosis-like symptoms. Despite many structural and mechanistic studies of GMII, we still lack a potent and selective inhibitor of this enzyme. Here, we synthesized manno-epi-cyclophellitol epoxide and aziridines and demonstrate their covalent modification and time-dependent inhibition of GMII. Application of fluorescent manno-epi-cyclophellitol aziridine derivatives enabled activity-based protein profiling of alpha-mannosidases from both human cell lysate and mouse tissue extracts. Synthesized probes also facilitated a fluorescence polarization-based screen for dGMII inhibitors. We identified seven previously unknown inhibitors of GMII from a library of over 350 iminosugars and investigated their binding modalities through X-ray crystallography. Our results reveal previously unobserved inhibitor binding modes and promising scaffolds for the generation of selective GMII inhibitors.

Published

2020

16. Manno

Author

Zachary, Armstrong, Chi-Lin, Kuo, Daniël, Lahav, Bing, Liu, Rachel, Johnson, Thomas J M, Beenakker, Casper, de Boer, Chung-Sing, Wong, Erwin R, van Rijssel, Marjoke F, Debets, Bogdan I, Florea, Colin, Hissink, Rolf G, Boot, Paul P, Geurink, Huib, Ovaa, Mario, van der Stelt, Gijsbert M, van der Marel, Jeroen D C, Codée, Johannes M F G, Aerts, Liang, Wu, Herman S, Overkleeft, and Gideon J, Davies

Subjects

Molecular Structure, Drug Discovery, Mannosidases, Humans, Enzyme Inhibitors, Cyclohexanols

Abstract

Golgi mannosidase II (GMII) catalyzes the sequential hydrolysis of two mannosyl residues from GlcNAcMan

Published

2020

17. New Irreversible α‐<scp>l</scp>‐Iduronidase Inhibitors and Activity‐Based Probes

Author

Chi-Lin Kuo, Jeroen D. C. Codée, Allison R. Kermode, Bogdan I. Florea, Johannes M. F. G. Aerts, Xu He, Marta Artola, Herman S. Overkleeft, Stephen A. McMahon, Verena Oehler, Tracey M. Gloster, Gijsbert A. van der Marel, Hans van den Elst, Martijn J.C. van der Lienden, Thomas Hansen, The Wellcome Trust, University of St Andrews. School of Biology, University of St Andrews. Biomedical Sciences Research Complex, Chemistry and Pharmaceutical Sciences, Medical Biochemistry, ACS - Amsterdam Cardiovascular Sciences, and AGEM - Amsterdam Gastroenterology Endocrinology Metabolism

Subjects

Models, Molecular, 0301 basic medicine, cyclophellitol aziridines, QH301 Biology, Aziridines, law.invention, Iduronidase, chemistry.chemical_compound, Tandem Mass Spectrometry, law, QD, Glycoside hydrolase, Enzyme Inhibitors, Cyclophellitol aziridines, Trifluoromethyl, Full Paper, Chemistry, conformational analysis, Activity-based proteomics, Full Papers, Recombinant Proteins, Covalent bond, glycosidase, Recombinant DNA, Stereochemistry, NDAS, irreversible inhibitors, Cyclohexene, Activity‐Based Probes | Hot Paper, Catalysis, QH301, 03 medical and health sciences, Hydrolase, Humans, Enzyme Assays, Fluorescent Dyes, activity-based protein profiling, Staining and Labeling, Organic Chemistry, General Chemistry, QD Chemistry, Cyclohexanols, Glycosidase, Conformational analysis, Irrevesible inhibitors, 030104 developmental biology, Microscopy, Fluorescence, Activity-based protein profiling, Chromatography, Liquid

Abstract

We thank The Netherlands Organization for Scientific Research (NWO-CW, ChemThem grant to J.M.F.G.A. and H.S.O.), the European Research Council (ERC-2011-AdG290836 “Chembiosphing”, to H.S.O.) and Sanofi Genzyme (research grant to J.M.F.G.A. and H.S.O. and postdoctoral contract to M.A.). We acknowledge ChemAxon for kindly providing the Instant JChem software to manage our compound library. T.M.G., V.O. and S.A.M. are supported by a Wellcome Trust Research Career Development Fellowship and Institutional Strategic Support Funding. Cyclophellitol aziridines are potent irreversible inhibitors of retaining glycosidases and versatile intermediates in the synthesis of activity‐based glycosidase probes (ABPs). Direct 3‐amino‐2‐(trifluoromethyl)quinazolin‐4(3H)‐one‐mediated aziridination of ʟ‐ido‐configured cyclohexene has enabled the synthesis of new covalent inhibitors and ABPs of α‐ʟ‐iduronidase, deficiency of which underlies the lysosomal storage disorder mucopolysaccharidosis type I (MPS I). The iduronidase ABPs react covalently and irreversibly in an activity‐based manner with human recombinant α‐ʟ‐iduronidase (rIDUA, Aldurazyme®). The structures of IDUA when complexed with the inhibitors in a non‐covalent transition state mimicking form and a covalent enzyme‐bound form provide insights into its conformational itinerary. Inhibitors 1–3 adopt a half‐chair conformation in solution (4H3 and 3H4), as predicted by DFT calculations, which is different from the conformation of the Michaelis complex observed by crystallographic studies. Consequently, 1–3 may need to overcome an energy barrier in order to switch from the 4H3 conformation to the transition state (2, 5B) binding conformation before reacting and adopting a covalent 5S1 conformation. rIDUA can be labeled with fluorescent Cy5 ABP 2 , which allows monitoring of the delivery of therapeutic recombinant enzyme to lysosomes, as is intended in enzyme replacement therapy for the treatment of MPS I patients. Publisher PDF

Published

2018

18. Efficacy of greater occipital nerve block for pain relief in patients with postdural puncture headache

Author

Ying-Jen Chang, Kuo-Chuan Hung, I-Wen Chen, Chi-Lin Kuo, I-Chia Teng, Ming-Chung Lin, Ming Yew, Shu-Wei Liao, Chung-Yi Wu, Chia-Hung Yu, Kuo-Mao Lan, and Cheuk-Kwan Sun

Subjects

General Medicine

Published

2021

19. Lysosomal Storage Diseases. For Better or Worse: Adapting to Defective Lysosomal Glycosphingolipid Breakdown

Author

Jan Aten, Maria J. Ferraz, Lindsey T. Lelieveld, Rianne Meijer, Saskia V. Oussoren, Johannes M. F. G. Aerts, Rolf G. Boot, André R. A. Marques, Daphne E.C. Boer, Mina Mirzaian, Chi-Lin Kuo, Daniela H.M. Chao, Kassiani Kytidou, Marc D. Hazeu, Marco van Eijk, Herman S. Overkleeft, Paulo Gaspar, Tanit L. Gabriel, Patrick Wisse, and Martijn J.C. van der Lienden

Subjects

Glucocerebrosidase, 0301 basic medicine, Lysosomal storage disorders, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Lysosomal Storage Disorders, Lysosome, Medicine, Glycosphingolipid, Gaucher Disease, business.industry, LysoGb3, medicine.disease, Fabry disease, Doenças Genéticas, Cell biology, 030104 developmental biology, medicine.anatomical_structure, chemistry, 030220 oncology & carcinogenesis, Glucosylsphingosine, lipids (amino acids, peptides, and proteins), business, Fabry Dsease

Abstract

The cellular recycling of glycosphingolipids (GSLs) is mediated by specific lysosomal glycosidases. Inherited deficiencies in these enzymes cause lysosomal storage disorders. Some of the common disorders are Gaucher disease (GD) and Fabry disease (FD) resulting from the defects in lysosomal glucocerebrosidase (GBA) degrading glucosylceramide and α‐galactosidase A (GLA) degrading globotriaosylceramide. Here, GSL accumulation in tissues slows down with age despite ongoing lysosomal turnover of endogenous and endocytosed GSLs. Biochemical adaptations might explain this phenomenon. One crucial adaptation is the deacylation of accumulating GSLs in lysosomes by acid ceramidase. The soluble bases glucosylsphingosine in GD and globotriaosylsphingosine in FD are capable of leaving lysosomes and cells. In the case of GD, a further adaptation involves the cytosol‐faced enzyme GBA2. This enzyme allows extra‐lysosomal degradation of GlcCer while possibly generating glucosylated cholesterol. The beneficial and harmful effects of these adaptations are discussed. Key concepts: Glycosphingolipids (GSLs) are membrane constituents composed of a ceramide with one or more sugars. The simplest GSL is glucosylceramide (GlcCer). Ongoing recycling of GSLs in cells includes lysosomal degradation by the sequential action of glycosidases and acid ceramidase. Deficiency of lysosomal glycosidase leads to lysosomal storage diseases caused by accumulation of the corresponding substrate in lysosomes. The most common glycosphingolipidoses are Gaucher disease (GD) and Fabry disease (FD). GD is an autosomal recessive disorder caused by deficient activity of the lysosomal enzyme acid β‐glucosidase (glucocerebrosidase; GBA) resulting in lysosomal accumulation of GlcCer. FD is an X‐linked disorder caused by deficient activity of the lysosomal enzyme α‐galactosidase A (GLA) resulting in lysosomal accumulation of globotriaosylceramide (Gb3). Accumulation of storage lipids during GBA and GLA tends to slow down with age, likely partly due to poorly appreciated biochemical adaptations. Active conversion of accumulating GlcCer in lysosomes of GBA‐deficient cells is mediated by acid ceramidase, resulting in the formation of water‐soluble glucosylsphingosine (GlcSph). Likewise, globotriaosylsphingosine (lysoGb3) is formed from accumulating in lysosomes of GLA‐deficient cells. Elevated plasma GlcSph and lysoGb3 levels can be sensitively measured LC–MS and may assist in diagnosing and monitoring of the disease and response to treatment in GD and FD patients, respectively. Increased GlcSph level in GD patients acts as an autoantigen, causing ongoing B‐cell proliferation, leading to multiple myeloma. Increased lysoGb3 level in FD patients is thought to cause damage to nociceptive neurons and podocytes, thus contributing to pain and renal failure. In GD, the cytosol‐faced enzyme β‐glucosidase GBA2 allows degradation of GlcCer outside lysosomes. Through transglycosylation, GBA2 may generate glucosylcholesterol and ceramide from GlcCer and cholesterol. The toxic effects of secondary metabolites such as glycosphingoid bases (GlcSph in GD and lysoGb3 in FD) and glucosylated metabolites (GlcChol in GD) warrant further investigations. info:eu-repo/semantics/publishedVersion

Published

2017

20. Role of β-glucosidase 2 in aberrant glycosphingolipid metabolism: model of glucocerebrosidase deficiency in zebrafish

Author

Annemarie H. Meijer, Johannes M. F. G. Aerts, Mina Mirzaian, Maria J. Ferraz, Richard J. B. H. N. van den Berg, Peter Greimel, Rolf G. Boot, Remco E.A. Peter, Hisako Akiyama, Marta Artola, Lindsey T. Lelieveld, Herman S. Overkleeft, and Chi-Lin Kuo

Subjects

0301 basic medicine, animal structures, Gaucher disease, QD415-436, 030204 cardiovascular system & hematology, Models, Biological, Biochemistry, Glycosphingolipids, 03 medical and health sciences, 0302 clinical medicine, Endocrinology, Glycolipid, lipid metabolism, Animals, Zebrafish, Cells, Cultured, Research Articles, Gene knockout, chemistry.chemical_classification, sphingolipids, biology, beta-Glucosidase, fungi, Lipid metabolism, Cell Biology, Metabolism, Zebrafish Proteins, biology.organism_classification, Sphingolipid, 030104 developmental biology, Enzyme, chemistry, lysosphingolipids, Glucosylceramidase, Glucocerebrosidase

Abstract

β-glucosidases (GBA1 [glucocerebrosidase], GBA2, and GBA3) are ubiquitous, essential enzymes. Lysosomal GBA1 and cytosol-facing GBA2 degrade glucosylceramide (GlcCer); GBA1 deficiency causes Gaucher disease (GD), a lysosomal storage disorder characterized by lysosomal accumulation of GlcCer, which is partly converted to glucosylsphingosine (GlcSph). GBA1 and GBA2 also may transfer glucose from GlcCer to cholesterol, yielding glucosylated cholesterol (GlcChol). Here, we aimed to clarify the role of zebrafish Gba2 in glycosphingolipid metabolism during Gba1 deficiency in zebrafish (Danio rerio), which are able to survive total Gba1 deficiency. We developed Gba1 and Gba2 zebrafish knockouts (gba1-/- and gba2-/-, respectively) using CRISPR/Cas9, modulated glucosidases genetically and pharmacologically, studied GlcCer metabolism in individual larvae, and explored the feasibility of pharmacologic or genetic interventions. Activity-based probes and quantification of relevant glycolipid metabolites confirmed enzyme deficiency. GlcSph increased in gba1-/- larvae (0.09 pmol/fish) but did not increase more in gba1-/-:gba2-/- larvae. GlcCer was comparable in gba1-/- and wild-type (WT) larvae but increased in gba2-/- and gba1-/-:gba2-/- larvae. Independent of Gba1 status, GlcChol was low in all gba2-/- larvae (0.05 vs. 0.18. pmol/fish in WT). Pharmacologic inactivation of zebrafish Gba1 comparably increased GlcSph. Inhibition of glucosylceramide synthase in Gba1-deficient larvae reduced GlcCer and GlcSph, and concomitant inhibition of glucosylceramide synthase and Gba2 with iminosugars also reduced excessive GlcChol. Finally, overexpression of human GBA1 and injection of recombinant GBA1 both decreased GlcSph. We determined that zebrafish larvae offer an attractive model to study glucosidase actions in glycosphingolipid metabolism in vivo, and we identified distinguishing characteristics of zebrafish Gba2 deficiency.

Published

2019

21. Reweighting of the sensory inputs for postural control in patients with cervical spondylotic myelopathy after surgery

Author

Shwu-Fen Wang, Chi-Lin Kuo, Jaw-Lin Wang, Wei-Li Hsu, Andy Chien, Jian-Jiun Ding, Iu-Shiuan Lin, Chih-Hsiu Cheng, and Dar-Ming Lai

Subjects

Adult, Male, medicine.medical_specialty, Neurology, Health Informatics, Sensory system, lcsh:RC321-571, Sensory integration, Myelopathy, Spondylotic myelopathy, medicine, Humans, In patient, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Postural Balance, Aged, Vestibular system, Proprioception, business.industry, Research, Rehabilitation, Gabor transform, Recovery of Function, Middle Aged, Decompression, Surgical, medicine.disease, Surgery, Time-frequency analysis, Center of pressure, Treatment Outcome, Somatosensory Disorders, Female, Observational study, Spondylosis, business

Abstract

Background Cervical spondylotic myelopathy (CSM) is a degenerative cervical disease in which the spinal cord is compressed. Patients with CSM experience balance disturbance because of impaired proprioception. The weighting of the sensory inputs for postural control in patients with CSM is unclear. Therefore, this study investigated the weighting of sensory systems in patients with CSM. Method Twenty-four individuals with CSM (CSM group) and 24 age-matched healthy adults (healthy control group) were analyzed in this observational study. The functional outcomes (modified Japanese Orthopaedic Association Scale [mJOA], Japanese Orthopaedic Association Cervical Myelopathy Questionnaire [JOACMEQ], Nurick scale) and static balance (eyes-open and eyes-closed conditions) were assessed for individuals with CSM before surgery, 3 and 6 months after surgery. Time-domain and time–frequency-domain variables of the center of pressure (COP) were analyzed to examine the weighting of the sensory systems. Results In the CSM group, lower extremity function of mJOA and Nurick scale significantly improved 3 and 6 months after surgery. Before surgery, the COP mean velocity and total energy were significantly higher in the CSM group than in the control group for both vision conditions. Compared with the control group, the CSM group exhibited lower energy content in the moderate-frequency band (i.e., proprioception) and higher energy content in the low-frequency band (i.e., cerebellar, vestibular, and visual systems) under the eyes-open condition. The COP mean velocity of the CSM group significantly decreased 3 months after surgery. The energy content in the low-frequency band (i.e., visual and vestibular systems) of the CSM group was closed to that of the control group 6 months after surgery under the eyes-open condition. Conclusion Before surgery, the patients with CSM may have had compensatory sensory weighting for postural control, with decreased weighting on proprioception and increased weighting on the other three sensory inputs. After surgery, the postural control of the patients with CSM improved, with decreased compensation for the proprioceptive system from the visual and vestibular inputs. However, the improvement remained insufficient because the patients with CSM still had lower weighting on proprioception than the healthy adults did. Therefore, patients with CSM may require balance training and posture education after surgery. Trial registration Trial Registration number: NCT03396055 Name of the registry: ClinicalTrials.gov Date of registration: January 10, 2018 - Retrospectively registered Date of enrolment of the first participant to the trial: October 19, 2015

Published

2019

22. Detection of Active Mammalian GH31 α-Glucosidases in Health and Disease Using In-Class, Broad-Spectrum Activity-Based Probes

Author

Johannes M. F. G. Aerts, Bogdan I. Florea, Rolf G. Boot, Christian Franke, Liang Wu, Jeroen D. C. Codée, Wouter W. Kallemeijn, Herman S. Overkleeft, Jianbing Jiang, Eline van Meel, Gideon J. Davies, Gijsbert A. van der Marel, Chi-Lin Kuo, and Other departments

Subjects

0301 basic medicine, Gel electrophoresis, chemistry.chemical_classification, Glycogen, General Chemical Engineering, Endoplasmic reticulum, Assimilation (biology), General Chemistry, Biology, Small molecule, 3. Good health, Addition/Correction, lcsh:Chemistry, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, Enzyme, chemistry, Biochemistry, lcsh:QD1-999, Transferase, Glycoprotein, Research Article

Abstract

The development of small molecule activity-based probes (ABPs) is an evolving and powerful area of chemistry. There is a major need for synthetically accessible and specific ABPs to advance our understanding of enzymes in health and disease. α-Glucosidases are involved in diverse physiological processes including carbohydrate assimilation in the gastrointestinal tract, glycoprotein processing in the endoplasmic reticulum (ER), and intralysosomal glycogen catabolism. Inherited deficiency of the lysosomal acid α-glucosidase (GAA) causes the lysosomal glycogen storage disorder, Pompe disease. Here, we design a synthetic route for fluorescent and biotin-modified ABPs for in vitro and in situ monitoring of α-glucosidases. We show, through mass spectrometry, gel electrophoresis, and X-ray crystallography, that α-glucopyranose configured cyclophellitol aziridines label distinct retaining α-glucosidases including GAA and ER α-glucosidase II, and that this labeling can be tuned by pH. We illustrate a direct diagnostic application in Pompe disease patient cells, and discuss how the probes may be further exploited for diverse applications., α-Glucosidases control food digestion, protein folding, and glycogen turnover. Designer probes report on tissue- and pH-specific α-glucosidase activity and reveal loss of α-glucosidase activity in Pompe disease patient material.

Published

2016

23. Development of an AAV5-based gene therapy for Fabry disease

Author

Lieke Paerels, Carlie J.M. de Vries, Melvin M. Evers, Pavlina Konstantinova, Maria J. Ferraz, Johannes M. F. G. Aerts, Tom van der Zon, Roelof Ottenhoff, Chi-Lin Kuo, Jolanda M. Liefhebber, Vanessa Zancanella, Betty Au, Sander J. H. van Deventer, and Ying Poi Liu

Subjects

Oncology, medicine.medical_specialty, business.industry, Endocrinology, Diabetes and Metabolism, Genetic enhancement, medicine.disease, Biochemistry, Fabry disease, Endocrinology, Internal medicine, Genetics, medicine, business, Molecular Biology

Published

2020

24. Activity-Based Probes for Glycosidases: Profiling and Other Applications

Author

Chi-Lin, Kuo, Eline, van Meel, Kassiani, Kytidou, Wouter Willem, Kallemeijn, Martin, Witte, Herman Stephen, Overkleeft, Marta Elena, Artola, and Johannes Maria, Aerts

Subjects

Gaucher Disease, Microscopy, Confocal, Staining and Labeling, Fibroblasts, Cyclohexanols, Glycosphingolipids, Cell Line, Microscopy, Fluorescence, Molecular Probes, Glucosylceramidase, Humans, Enzyme Inhibitors, Lysosomes, Enzyme Assays, Fluorescent Dyes

Abstract

Glycosidases mediate the fragmentation of glycoconjugates in the body, including the vital recycling of endogenous molecules. Several inherited diseases in man concern deficiencies in lysosomal glycosidases degrading glycosphingolipids. Prominent is Gaucher disease caused by an impaired lysosomal β-glucosidase (glucocerebrosidase, GBA) and resulting in pathological lysosomal storage of glucosylceramide (glucocerebroside) in tissue macrophages. GBA is a retaining glucosidase with a characteristic glycosyl-enzyme intermediate formed during catalysis. Using the natural suicide inhibitor cyclophellitol as a lead, we developed mechanism-based irreversible inhibitors of GBA equipped with a fluorescent reporter. These reagents covalently link to the catalytic nucleophile residue of GBA and permit specific and sensitive visualization of active enzyme molecules. The amphiphilic activity-based probes (ABPs) allow in situ detection of active GBA in cells and organisms. Furthermore, they may be used to biochemically confirm the diagnosis of Gaucher disease and they might assist in screening for small compounds interacting with the catalytic pocket. While the focus of this chapter is ABPs for β-glucosidases and Gaucher disease, the described concept has meanwhile been extended to other retaining glycosidases and related disease conditions as well.

Published

2018

25. Activity-Based Probes for Glycosidases: Profiling and Other Applications

Author

Eline van Meel, Martin D. Witte, Chi-Lin Kuo, Johannes M. F. G. Aerts, Kassiani Kytidou, Wouter W. Kallemeijn, Herman S. Overkleeft, Marta Artola, Medical Biochemistry, ACS - Amsterdam Cardiovascular Sciences, and AGEM - Amsterdam Gastroenterology Endocrinology Metabolism

Subjects

0301 basic medicine, chemistry.chemical_classification, biology, Chemistry, Glycoconjugate, Glucocerebroside, Phenotype, 03 medical and health sciences, 030104 developmental biology, Cyclophellitol, Enzyme, Biochemistry, biology.protein, Active enzyme, Glucosidases, Glucocerebrosidase

Abstract

Glycosidases mediate the fragmentation of glycoconjugates in the body, including the vital recycling of endogenous molecules. Several inherited diseases in man concern deficiencies in lysosomal glycosidases degrading glycosphingolipids. Prominent is Gaucher disease caused by an impaired lysosomal β-glucosidase (glucocerebrosidase, GBA) and resulting in pathological lysosomal storage of glucosylceramide (glucocerebroside) in tissue macrophages. GBA is a retaining glucosidase with a characteristic glycosyl–enzyme intermediate formed during catalysis. Using the natural suicide inhibitor cyclophellitol as a lead, we developed mechanism-based irreversible inhibitors of GBA equipped with a fluorescent reporter. These reagents covalently link to the catalytic nucleophile residue of GBA and permit specific and sensitive visualization of active enzyme molecules. The amphiphilic activity-based probes (ABPs) allow in situ detection of active GBA in cells and organisms. Furthermore, they may be used to biochemically confirm the diagnosis of Gaucher disease and they might assist in screening for small compounds interacting with the catalytic pocket. While the focus of this chapter is ABPs for β-glucosidases and Gaucher disease, the described concept has meanwhile been extended to other retaining glycosidases and related disease conditions as well.

Published

2018

26. Towards broad spectrum activity-based glycosidase probes: synthesis and evaluation of deoxygenated cyclophellitol aziridines

Author

Jeroen D. C. Codée, Adriaan J. Minnaard, Wendy A. Offen, Herman S. Overkleeft, Jasper W. van de Sande, Sybrin P. Schröder, Jianbing Jiang, Wouter W. Kallemeijn, Bogdan I. Florea, Chi-Lin Kuo, Gideon J. Davies, Johannes M. F. G. Aerts, Thomas J. M. Beenakker, Gijsbert A. van der Marel, Eva J. van Rooden, Marta Artola, and Chemical Biology 2

Subjects

GLUCOCEREBROSIDASE, EXPRESSION, Stereochemistry, High selectivity, 010402 general chemistry, MOUSE, 01 natural sciences, Catalysis, DISEASE, MECHANISMS, Broad spectrum, Materials Chemistry, Glycoside hydrolase, 010405 organic chemistry, Chemistry, IN-SITU, Metals and Alloys, General Chemistry, 3. Good health, 0104 chemical sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Protein profiling, MODEL, Cyclophellitol, Ceramics and Composites, HEALTH, HYDROLASES

Abstract

Activity-based protein profiling has emerged as a powerful tool for visualizing glycosidases in complex biological samples. Several configurational cyclophellitol isomers have been shown to display high selectivity as probes for glycosidases processing substrates featuring the same configuration. Here, a set of deoxygenated cyclophellitols are presented which enable inter-class profiling of [small beta]-glucosidases and [small beta]-galactosidases.

Published

2017

27. A Cleavable Linker Based on the Levulinoyl Ester for Activity-Based Protein Profiling

Author

Paul P. Geurink, Bogdan I. Florea, Nan Li, Martin D. Witte, Joeri Verasdonck, Chi-Lin Kuo, Gijs A. van der Marel, and Herman S. Overkleeft

Subjects

General Medicine

Published

2010

28. A Cleavable Linker Based on the Levulinoyl Ester for Activity-Based Protein Profiling

Author

Herman S. Overkleeft, Chi-Lin Kuo, Martin D. Witte, Nan Li, Gijs A. van der Marel, Joeri Verasdonck, Paul P. Geurink, Bogdan I. Florea, Stratingh Institute of Chemistry, and Chemical Biology 2

Subjects

Proteasome Endopeptidase Complex, Cell, Hydrazine, Proteomics, Tandem mass spectrometry, Catalysis, Cell Line, chemistry.chemical_compound, proteomics, levulinoyl ester, Tandem Mass Spectrometry, Catalytic Domain, medicine, Humans, proteasomes, Chemistry, Activity-based proteomics, food and beverages, General Chemistry, Combinatorial chemistry, Levulinic Acids, Hydrazines, medicine.anatomical_structure, Proteasome, Biochemistry, Cell culture, activity-based profiling, cleavable linkers, Oligopeptides, Linker

Abstract

The title linker is stable under various biological conditions and can be cleaved chemoselectively with hydrazine. Its use is demonstrated in the activity-based enrichment and identification of proteasome active subunits from cell extracts.

Published

2010

29. Correction to 'Detection of Active Mammalian GH31 α-Glucosidases in Health and Disease Using In-Class, Broad-Spectrum Activity-Based Probes'

Author

Johannes M. F. G. Aerts, Wouter W. Kallemeijn, Eline van Meel, Rolf G. Boot, Christian Franke, Liang Wu, Herman S. Overkleeft, Jianbing Jiang, Bogdan I. Florea, Gijsbert A. van der Marel, Gideon J. Davies, Chi-Lin Kuo, and Jeroen D. C. Codée

Subjects

lcsh:Chemistry, Chemistry, Class (set theory), Broad spectrum, Science & Technology, lcsh:QD1-999, Chemistry, Multidisciplinary, General Chemical Engineering, α glucosidase, Physical Sciences, General Chemistry, Computational biology, Biology

Abstract

[This corrects the article DOI: 10.1021/acscentsci.6b00057.].

Published

2017

30. A Fluorescence Polarization Activity-Based Protein Profiling Assay in the Discovery of Potent, Selective Inhibitors for Human Nonlysosomal Glucosylceramidase.

Author

Lahav, Daniël, Bing Liu, van den Berg, Richard J. B. H. N., van den Nieuwendijk, Adrianus M. C. H., Wennekes, Tom, Ghisaidoobe, Amar T., Breen, Imogen, Ferraz, Maria J., Chi-Lin Kuo, Liang Wu, Geurink, Paul P., Huib Ovaa, van der Marel, Gijsbert A., van der Stelt, Mario, Boot, Rolf G., Davies, Gideon J., Aerts, Johannes M. F. G., and Overkleeft, Herman S.

Published

2017

31. 1,6- epi -Cyclophellitol Cyclosulfamidate Is a Bona Fide Lysosomal α-Glucosidase Stabilizer for the Treatment of Pompe Disease

Author

Ken Kok, Chi-Lin Kuo, Rebecca E. Katzy, Lindsey T. Lelieveld, Liang Wu, Véronique Roig-Zamboni, Gijsbert A. van der Marel, Jeroen D. C. Codée, Gerlind Sulzenbacher, Gideon J. Davies, Herman S. Overkleeft, Johannes M. F. G. Aerts, Marta Artola, Architecture et fonction des macromolécules biologiques (AFMB), and Aix Marseille Université (AMU)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)

Subjects

Colloid and Surface Chemistry, [SDV]Life Sciences [q-bio], General Chemistry, Biochemistry, Catalysis

Abstract

α-Glucosidase inhibitors are potential therapeutics for the treatment of diabetes, viral infections, and Pompe disease. Herein, we report a 1,6-epi-cyclophellitol cyclosulfamidate as a new class of reversible α-glucosidase inhibitors that displays enzyme inhibitory activity by virtue of its conformational mimicry of the substrate when bound in the Michaelis complex. The α-d-glc-configured cyclophellitol cyclosulfamidate 4 binds in a competitive manner the human lysosomal acid α-glucosidase (GAA), ER α-glucosidases, and, at higher concentrations, intestinal α-glucosidases, displaying an excellent selectivity over the human β-glucosidases GBA and GBA2 and glucosylceramide synthase (GCS). Cyclosulfamidate 4 stabilizes recombinant human GAA (rhGAA, alglucosidase alfa, Myozyme) in cell medium and plasma and facilitates enzyme trafficking to lysosomes. It stabilizes rhGAA more effectively than existing small-molecule chaperones and does so in vitro, in cellulo, and in vivo in zebrafish, thus representing a promising therapeutic alternative to Miglustat for Pompe disease.