Boletín de Investigaciones Marinas y Costeras

Vol. 45 No. 2 (2016)
Research Articles

FIRST STEPS TOWARDS CELLULAR LOCALIZATION OF (+)-DISCODERMOLIDE, A POTENT ANTITUMORAL POLIKETIDE BIOSYNTHESIZED BY THE CARIBBEAN MARINE SPONGE DISCODERMIA DISSOLUTA

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  • Carlos Puentes,
  • Javier Gómez León,
  • Cesar Ruiz,
  • Sven Zea,
  • Shirley Pomponi
Carlos Puentes
Universidad Nacional de Colombia Sede Bogotá, Colombia.
Javier Gómez León
Instituto de Investigaciones Marinas y Costeras – INVEMAR, El Rodadero, Santa Marta, Colombia
Cesar Ruiz
3Institut Méditerranéen de Biodiversité et d'Ecologie Marine et Continental (IMBE), UMR CNRS 7263, IRD 237 - Aix Marseille Université - Avignon Université, Station Marine d'Endoume, Rue de la Batterie des Lions, 13007 Marseille, France
Sven Zea
Centro de Estudios en Ciencias del Mar – CECIMAR (Sede Caribe), Universidad Nacional de Colombia, Atte. INVEMAR, Santa Marta, Colombia.
Shirley Pomponi
5Harbor Branch Oceanographic Institute at Florida Atlantic University, 5600 US 1 North, Fort Pierce, Florida, 34946 , EE.UU.
DOI: https://doi.org/10.25268/bimc.invemar.2016.45.2.684

Published 2016-12-15

Keywords

  • Discodermia dissoluta,
  • ( )-Discodermolide,
  • Cell dissociation,
  • Anticancer agent

How to Cite

1.
Puentes C, Gómez León J, Ruiz C, Zea S, Pomponi S. FIRST STEPS TOWARDS CELLULAR LOCALIZATION OF (+)-DISCODERMOLIDE, A POTENT ANTITUMORAL POLIKETIDE BIOSYNTHESIZED BY THE CARIBBEAN MARINE SPONGE DISCODERMIA DISSOLUTA. Bol. Investig. Mar. Costeras [Internet]. 2016 Dec. 15 [cited 2025 Apr. 10];45(2). Available from: https://boletin.invemar.org.co/ojs/index.php/boletin/article/view/684

Copyright (c) 2016 Bulletin of Marine and Coastal Research

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Abstract

Identification of bioactive metabolite cell producers allow driving cell culture experiments for in vitro production, just as elucidation of the possible physiologic function of metabolites. The Caribbean marine sponge Discodermia dissoluta produces the polyketide (+)-discodermolide, a potent antitumoral that has reached clinic trials in humans. In this research, progress was made in identifying the producing cells by cell dissociation, separation into fractions by centrifugation on Percoll® density gradients, and detection of (+)-discodermolide presence by thin layer chromatography. The fractions recovered showed cells of different morphological characteristics, including cyanobacteria, filamentous bacteria, choanocytes, archaeocytes, among others. It was possible to identify an irregular but consistent pattern of (+)-dicordemolide production in the fractions that contained one or more kind of sponge granular cells, indicating that metabolite production seems to be related to the sponge and not with the associated microorganisms.
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