Literature DB >> 30446119

Polymeric fluorescent heparin as one-step FRET substrate of human heparanase.

Jyothi C Sistla1, Shravan Morla1, Al-Humaidi B Alabbas1, Ravi C Kalathur2, Chetna Sharon3, Bhaumik B Patel4, Umesh R Desai5.   

Abstract

Heparanase, an endo-β-D-glucuronidase, cleaves cell surface and extracellular matrix heparan sulfate (HS) chains and plays important roles in cellular growth and metastasis. Heparanase assays reported to-date are labor intensive, complex and/or expensive. A simpler assay is critically needed to understand the myriad roles of heparanase. We reasoned that fluorescent heparin could serve as an effective probe of heparanase levels. Following synthesis and screening, a heparin preparation labeled with DABCYL and EDANS was identified, which exhibited a characteristic increase in signal following cleavage by human heparanase. This work describes the synthesis of this heparin substrate, its kinetic and spectrofluorometric properties, optimization of the heparanase assay, use of the assay in inhibitor screening, and elucidation of the state of heparanase in different cell lines. Our FRET-based assay is much simpler and more robust than all assays reported in the literature as well as a commercially available kit.
Copyright © 2018 Elsevier Ltd. All rights reserved.

Entities:  

Keywords:  Enzyme assay; Enzyme inhibition; FRET; Fluorescent heparin; Heparanase; Heparin

Mesh:

Substances:

Year:  2018        PMID: 30446119      PMCID: PMC6245667          DOI: 10.1016/j.carbpol.2018.10.071

Source DB:  PubMed          Journal:  Carbohydr Polym        ISSN: 0144-8617            Impact factor:   9.381


  41 in total

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Journal:  Trends Biochem Sci       Date:  2000-08       Impact factor: 13.807

2.  A rapid quantitative assay for the detection of mammalian heparanase activity.

Authors:  C Freeman; C R Parish
Journal:  Biochem J       Date:  1997-07-01       Impact factor: 3.857

3.  Subcellular dynamics of protein kinase A activity visualized by FRET-based reporters.

Authors:  Michael D Allen; Jin Zhang
Journal:  Biochem Biophys Res Commun       Date:  2006-07-31       Impact factor: 3.575

4.  Development of new methods for determining the heparanase enzymatic activity.

Authors:  Carina Mucciolo Melo; Ivarne Luis Santos Tersariol; Helena Bonciani Nader; Maria Aparecida Silva Pinhal; Marcelo Andrade Lima
Journal:  Carbohydr Res       Date:  2015-05-05       Impact factor: 2.104

5.  Synthesis of simple heparanase substrates.

Authors:  Andrew G Pearson; Milton J Kiefel; Vito Ferro; Mark von Itzstein
Journal:  Org Biomol Chem       Date:  2011-04-20       Impact factor: 3.876

6.  Antiangiogenic and apoptotic properties of a novel amphiphilic folate-heparin-lithocholate derivative having cellular internality for cancer therapy.

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Journal:  Pharm Res       Date:  2007-02-21       Impact factor: 4.200

7.  Ultrafiltration-based assay for heparanase activity.

Authors:  Sachio Tsuchida; Katarzyna A Podyma-Inoue; Masaki Yanagishita
Journal:  Anal Biochem       Date:  2004-08-01       Impact factor: 3.365

Review 8.  Heparin and heparan sulfate: structure and function.

Authors:  Dallas L Rabenstein
Journal:  Nat Prod Rep       Date:  2002-06       Impact factor: 13.423

9.  High-throughput methods for measuring heparanase activity and screening potential antimetastatic and anti-inflammatory agents.

Authors:  Kuo-Sen Huang; Janna Holmgren; Linda Reik; Debra Lucas-McGady; John Roberts; Chao-Min Liu; Wayne Levin
Journal:  Anal Biochem       Date:  2004-10-15       Impact factor: 3.365

10.  Heparanase expression and localization in different types of human lung cancer.

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Journal:  Biochim Biophys Acta       Date:  2014-04-18
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  8 in total

1.  A glycan FRET assay for detection and characterization of catalytic antibodies to the Cryptococcus neoformans capsule.

Authors:  Conor J Crawford; Maggie P Wear; Daniel F Q Smith; Clotilde d'Errico; Scott A McConnell; Arturo Casadevall; Stefan Oscarson
Journal:  Proc Natl Acad Sci U S A       Date:  2021-02-02       Impact factor: 11.205

2.  Synthetic Strategies for FRET-Enabled Carbohydrate Active Enzyme Probes.

Authors:  Meenakshi Singh; Michael Watkinson; Eoin M Scanlan; Gavin J Miller
Journal:  Methods Mol Biol       Date:  2022

3.  A Robust, One-step FRET Assay for Human Heparanase.

Authors:  Jyothi C Sistla; Umesh R Desai
Journal:  Bio Protoc       Date:  2019-09-05

4.  Heparanase expression and activity are increased in platelets during clinical sepsis.

Authors:  Alicia S Eustes; Robert A Campbell; Elizabeth A Middleton; Neal D Tolley; Bhanu K Manne; Emilie Montenont; Jesse W Rowley; Krystin Krauel; Antoinette Blair; Li Guo; Yasuhiro Kosaka; Isabel M Medeiros-de-Moraes; Marcus Lacerda; Eugenio D Hottz; Hugo Castro Faria Neto; Guy A Zimmerman; Andrew S Weyrich; Aaron Petrey; Matthew T Rondina
Journal:  J Thromb Haemost       Date:  2021-03-11       Impact factor: 16.036

Review 5.  High-Throughput Approaches in Carbohydrate-Active Enzymology: Glycosidase and Glycosyl Transferase Inhibitors, Evolution, and Discovery.

Authors:  Lemeng Chao; Seino Jongkees
Journal:  Angew Chem Int Ed Engl       Date:  2019-07-17       Impact factor: 15.336

6.  Ultrasensitive small molecule fluorogenic probe for human heparanase.

Authors:  Jun Liu; Kelton A Schleyer; Tyrel L Bryan; Changjian Xie; Gustavo Seabra; Yongmei Xu; Arjun Kafle; Chao Cui; Ying Wang; Kunlun Yin; Benjamin Fetrow; Paul K P Henderson; Peter Z Fatland; Jian Liu; Chenglong Li; Hua Guo; Lina Cui
Journal:  Chem Sci       Date:  2020-10-20       Impact factor: 9.825

Review 7.  The Development of Assays for Heparanase Enzymatic Activity: Towards a Gold Standard.

Authors:  Mohit Chhabra; Vito Ferro
Journal:  Molecules       Date:  2018-11-14       Impact factor: 4.411

8.  COVID-19 generates hyaluronan fragments that directly induce endothelial barrier dysfunction.

Authors:  Kimberly A Queisser; Rebecca A Mellema; Elizabeth A Middleton; Irina Portier; Bhanu Kanth Manne; Frederik Denorme; Ellen J Beswick; Matthew T Rondina; Robert A Campbell; Aaron C Petrey
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  8 in total

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