Streptomyces sp. BV410 isolate from chamomile rhizosphere soil efficiently produces staurosporine with antifungal and antiangiogenic properties

Streptomyces sp. BV410 isolate from chamomile rhizosphere soil efficiently produces staurosporine with antifungal and antiangiogenic properties

Abstract Applying a bioactivity‐guided isolation approach, staurosporine was separated and identified as the active principle in the culture extract of the new isolate Streptomyces sp. BV410 collected from the chamomile rhizosphere. The biotechnological production of staurosporine by strain BV410 wa...

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Main Authors: Marija Mojicevic, Paul M. D'Agostino, Aleksandar Pavic, Sandra Vojnovic, Ramsankar Senthamaraikannan, Branka Vasiljevic, Tobias A. M. Gulder, Jasmina Nikodinovic‐Runic
Format: Article
Language:English
Published: Wiley 2020-03-01
Series:MicrobiologyOpen
Subjects:
antiangiogenesis
antifungal activity
secondary metabolite
staurosporine
Streptomyces sp.
zebrafish
Online Access:https://doi.org/10.1002/mbo3.986
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spelling doaj-e73c3f8ba94d49d59c9e8a3abc9b86252020-11-25T03:01:10ZengWileyMicrobiologyOpen2045-88272020-03-0193n/an/a10.1002/mbo3.986Streptomyces sp. BV410 isolate from chamomile rhizosphere soil efficiently produces staurosporine with antifungal and antiangiogenic propertiesMarija Mojicevic0Paul M. D'Agostino1Aleksandar Pavic2Sandra Vojnovic3Ramsankar Senthamaraikannan4Branka Vasiljevic5Tobias A. M. Gulder6Jasmina Nikodinovic‐Runic7Institute of Molecular Genetics and Genetic Engineering University of Belgrade Belgrade SerbiaChair of Technical Biochemistry Technische Universität Dresden Dresden GermanyInstitute of Molecular Genetics and Genetic Engineering University of Belgrade Belgrade SerbiaInstitute of Molecular Genetics and Genetic Engineering University of Belgrade Belgrade SerbiaAMBER Centre Trinity College Dublin Dublin IrelandInstitute of Molecular Genetics and Genetic Engineering University of Belgrade Belgrade SerbiaChair of Technical Biochemistry Technische Universität Dresden Dresden GermanyInstitute of Molecular Genetics and Genetic Engineering University of Belgrade Belgrade SerbiaAbstract Applying a bioactivity‐guided isolation approach, staurosporine was separated and identified as the active principle in the culture extract of the new isolate Streptomyces sp. BV410 collected from the chamomile rhizosphere. The biotechnological production of staurosporine by strain BV410 was optimized to yield 56 mg/L after 14 days of incubation in soy flour–glucose–starch–mannitol‐based fermentation medium (JS). The addition of FeSO4 significantly improved the staurosporine yield by 30%, while the addition of ZnSO4 significantly reduced staurosporine yield by 62% in comparison with the starting conditions. Although staurosporine was first isolated in 1977 from Lentzea albida (now Streptomyces staurosporeus) and its potent kinase inhibitory effect has been established, here, the biological activity of this natural product was assessed in depth in vivo using a selection of transgenic zebrafish (Danio rerio) models, including Tg(fli1:EGFP) with green fluorescent protein‐labeled endothelial cells allowing visualization and monitoring of blood vessels. This confirmed a remarkable antiangiogenic activity of the compound at doses of 1 ng/ml (2.14 nmol/L) which is below doses inducing toxic effects (45 ng/ml; 75 nmol/L). A new, efficient producing strain of commercially significant staurosporine has been described along with optimized fermentation conditions, which may lead to optimization of the staurosporine scaffold and its wider applicability.https://doi.org/10.1002/mbo3.986antiangiogenesisantifungal activitysecondary metabolitestaurosporineStreptomyces sp.zebrafish
collection DOAJ
language English
format Article
sources DOAJ
author Marija Mojicevic
Paul M. D'Agostino
Aleksandar Pavic
Sandra Vojnovic
Ramsankar Senthamaraikannan
Branka Vasiljevic
Tobias A. M. Gulder
Jasmina Nikodinovic‐Runic
spellingShingle Marija Mojicevic
Paul M. D'Agostino
Aleksandar Pavic
Sandra Vojnovic
Ramsankar Senthamaraikannan
Branka Vasiljevic
Tobias A. M. Gulder
Jasmina Nikodinovic‐Runic
Streptomyces sp. BV410 isolate from chamomile rhizosphere soil efficiently produces staurosporine with antifungal and antiangiogenic properties
MicrobiologyOpen
antiangiogenesis
antifungal activity
secondary metabolite
staurosporine
Streptomyces sp.
zebrafish
author_facet Marija Mojicevic
Paul M. D'Agostino
Aleksandar Pavic
Sandra Vojnovic
Ramsankar Senthamaraikannan
Branka Vasiljevic
Tobias A. M. Gulder
Jasmina Nikodinovic‐Runic
author_sort Marija Mojicevic
title Streptomyces sp. BV410 isolate from chamomile rhizosphere soil efficiently produces staurosporine with antifungal and antiangiogenic properties
title_short Streptomyces sp. BV410 isolate from chamomile rhizosphere soil efficiently produces staurosporine with antifungal and antiangiogenic properties
title_full Streptomyces sp. BV410 isolate from chamomile rhizosphere soil efficiently produces staurosporine with antifungal and antiangiogenic properties
title_fullStr Streptomyces sp. BV410 isolate from chamomile rhizosphere soil efficiently produces staurosporine with antifungal and antiangiogenic properties
title_full_unstemmed Streptomyces sp. BV410 isolate from chamomile rhizosphere soil efficiently produces staurosporine with antifungal and antiangiogenic properties
title_sort streptomyces sp. bv410 isolate from chamomile rhizosphere soil efficiently produces staurosporine with antifungal and antiangiogenic properties
publisher Wiley
series MicrobiologyOpen
issn 2045-8827
publishDate 2020-03-01
description Abstract Applying a bioactivity‐guided isolation approach, staurosporine was separated and identified as the active principle in the culture extract of the new isolate Streptomyces sp. BV410 collected from the chamomile rhizosphere. The biotechnological production of staurosporine by strain BV410 was optimized to yield 56 mg/L after 14 days of incubation in soy flour–glucose–starch–mannitol‐based fermentation medium (JS). The addition of FeSO4 significantly improved the staurosporine yield by 30%, while the addition of ZnSO4 significantly reduced staurosporine yield by 62% in comparison with the starting conditions. Although staurosporine was first isolated in 1977 from Lentzea albida (now Streptomyces staurosporeus) and its potent kinase inhibitory effect has been established, here, the biological activity of this natural product was assessed in depth in vivo using a selection of transgenic zebrafish (Danio rerio) models, including Tg(fli1:EGFP) with green fluorescent protein‐labeled endothelial cells allowing visualization and monitoring of blood vessels. This confirmed a remarkable antiangiogenic activity of the compound at doses of 1 ng/ml (2.14 nmol/L) which is below doses inducing toxic effects (45 ng/ml; 75 nmol/L). A new, efficient producing strain of commercially significant staurosporine has been described along with optimized fermentation conditions, which may lead to optimization of the staurosporine scaffold and its wider applicability.
topic antiangiogenesis
antifungal activity
secondary metabolite
staurosporine
Streptomyces sp.
zebrafish
url https://doi.org/10.1002/mbo3.986
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AT ramsankarsenthamaraikannan streptomycesspbv410isolatefromchamomilerhizospheresoilefficientlyproducesstaurosporinewithantifungalandantiangiogenicproperties
AT brankavasiljevic streptomycesspbv410isolatefromchamomilerhizospheresoilefficientlyproducesstaurosporinewithantifungalandantiangiogenicproperties
AT tobiasamgulder streptomycesspbv410isolatefromchamomilerhizospheresoilefficientlyproducesstaurosporinewithantifungalandantiangiogenicproperties
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