Advanced search
Publication Cover
Pharmaceutical Biology Volume 55, 2017 - Issue 1
Submit an article Journal homepage
1,378
Views
8
CrossRef citations to date
0
Altmetric
Research Article

Further insight into the bioactivity of the freshwater sponge Ochridaspongia rotunda

Aleksandra TalevskaUniversity of St. Clement of Ohrid, Hydrobiological Institute, Ohrid, Republic of Macedonia; ;Faculty of Biology, University of Belgrade, Belgrade, Serbia; View further author information
,
Boris PejinDepartment of Life Sciences, Institute for Multidisciplinary Research – IMSI, University of Belgrade, Belgrade, SerbiaCorrespondence[email protected] [email protected]
View further author information
,
Tanja BericFaculty of Biology, University of Belgrade, Belgrade, Serbia; View further author information
&
Slavisa StankovicFaculty of Biology, University of Belgrade, Belgrade, Serbia; Correspondence[email protected]
View further author information
Pages 1313-1316 | Received 21 Dec 2016, Accepted 07 Feb 2017, Published online: 09 Mar 2017

References

  • Albrecht C, Wilke T. 2008. Ancient Lake Ohrid: biodiversity and evolution. Hydrobiologia. 615:103–140.
  • Andersen AJC. 2012. Investigations of Natural Products from Bryozoa Inhabiting Aotearoa New Zealand [thesis]. Master of Science in Chemistry, The University of Waikato, Hamilton, New Zealand.
  • Beedessee G, Ramanjooloo A, Surnam-Boodhun R, van Soest RWM, Marie DEP. 2013. Acetylcholinesterase-inhibitory activities of the extracts from sponges collected in Mauritius waters. Chem Biodivers. 10:442–451.
  • Blunt JW, Copp BR, Keyzers RA, Munro MHG, Prinsep MR. 2016. Marine natural products. Nat Prod Rep. 33:382–431.
  • de Barros IB, Volkmer-Ribeiro C, da Veiga Junior VF. 2013. Sterols from sponges of Anavilhanas. Biochem Sys Ecol. 49:167–171.
  • de Barros IB, Volkmer-Ribeiro C, da Veiga Junior VF. 2015. Sterols and volatile compounds of the freshwater sponge Trochospongilla paulula (Bowebank, 1863). Quím Nova. 38:1192–1195.
  • De Rosa S, Minale L, Riccio R, Sodano G. 1976. The absolute configuration of avarol, a rearranged sesquiterpenoid hydroquinone from a marine sponge. J Chem Soc Perkin Trans. 1:1408–1414.
  • de Rosa S, Tommonaro G. 2012. Bioactive marine prenylated quinones/quinols. In: Atta-ur-Rahman, editor. Studies in natural products chemistry: bioactive natural products (part P). Vol. 36. Oxford: Elsevier B.V; p. 163–218.
  • Dembitsky VM, Rezanka T, Srebnik M. 2003. Lipid compounds of freshwater sponges: family Spongillidae, class Demospongiae. Chem Phys Lipids. 123:117–155.
  • Dionisi HM, Lozada M, Olivera NL. 2012. Bioprospection of marine microorganisms: biotechnological applications and methods. Rev Argent Microbiol. 44:49–60.
  • Ece A, Pejin B. 2015. A computational insight into acetylcholinesterase inhibitory activity of a new lichen depsidone. J Enzyme Inhib Med Chem. 30:528–532.
  • Ellman GL, Courtney KD, Andres V, Featherstone RM. 1961. A new and rapid colorimetric determination of acetylcholinesterase activity. Biochem Pharmacol. 7:88–95.
  • Faulkner DJ. 1996. Marine natural products. Nat Prod Rep. 13:75–125.
  • Gaikwad S, Shouche YS, Gade WN. 2016. Microbial community structure of two freshwater sponges using Illumina MiSeq sequencing revealed high microbial diversity. AMB Express. 6:40.
  • Graham LP. 2005. An introduction to medicinal chemistry. Oxford: University Press; p. 472–482.
  • Goad LJ, Akihisa T. 1997. Analysis of sterols. London (UK): Chapman & Hall; p. 69–90.
  • Haefner B. 2003. Drugs from the deep: marine natural products as drug candidates. Drug Discov Today. 8:536–544.
  • Hooper JNA, Van Soest RWM. 2002. Systema Porifera. A guide to the classification of sponges. In: Hooper JNA, Van Soest RWM, editors. Systema Porifera: a guide to the classification of sponges. New York: Kluwer Academic/Plenum Publishers; p. 9–13.
  • Hu J-M, Zhao Y-X, Chen J-J, Miao Z-H, Zhou J. 2009. A new spongilipid from the freshwater sponge Spongilla lacustris. Bull Korean Chem Soc. 30:1170–1172.
  • Keller-Costa T, Jousset A, van Overbeek L, van Elsas JD, Costa R. 2014. The freshwater sponge Ephydatia fluviatilis harbours diverse Pseudomonas species (Gammaproteobacteria, Pseudomonadales) with broad-spectrum antimicrobial activity. PLoS One. 9:e88429.
  • Lu W, Zhang C, Zheng K, Su J, Zeng L. 2006. Spectral characteristics and cholinesterase inhibitory activities of some Δ5-3β,7β-dihydroxy sterols and their C-7 epimers. Tianran Chanwu Yanjiu Yu Kaifa. 18:893–895.
  • Manconi R, Piccialli V, Pronzato R, Sica D. 1988. Steroids in porifera, sterols from freshwater sponges Ephydatia fluviatilis (L.) and Spongilla lacustris (L.). Comp Biochem Physiol B Biochem. 91:237–245.
  • Maron DM, Ames BN. 1983. Revised methods for the Salmonella mutagenicity test. Mutat Res. 113:173–215.
  • Marston A, Kissling J, Hostettmann K. 2002. A rapid TLC bioautographic method for the detection of acetylcholinesterase and butyrylcholinesterase inhibitors in plants. Phytochem Anal. 13:51–54.
  • Mehbub MF, Perkins MV, Zhang W, Franco CMM. 2016. New marine natural products from sponges (Porifera) of the order Dictyoceratida (2001 to 2012); a promising source for drug discovery, exploration and future prospects. Biotech Adv. 34:473–491.
  • Minale L, Riccio R, Sodano G. 1974. Avarol, a novel sesquiterpenoid hydroquinone with a rearranged drimane skeleton from the sponge Dysidea avara. Tetrahedron Lett. 38:3401–3404.
  • Pejin B, Iodice C, Tommonaro G, De Rosa S. 2008. Synthesis and biological activities of thio-avarol derivatives. J Nat Prod. 71:1850–1853.
  • Pejin B, Jovanović KK, Mojović M, Savić AG. 2013a. New and highly potent antitumor natural products from marine-derived fungi: covering the period from 2003 to 2012. Curr Top Med Chem. 13:2745–2766.
  • Pejin B, Tommonaro G, Iodice C, Tesevic V, Vajs V, De Rosa S. 2013b. A new depsidone of Lobaria pulmonaria with acetylcholinesterase inhibition activity. J Enzyme Inhib Med Chem. 28:876–878.
  • Pejin B, Talevska A, Ciric A, Glamoclija J, Nikolic M, Talevski T, Sokovic M. 2014. Anti-quorum sensing activity of selected sponge extracts: a case study of Pseudomonas aeruginosa. Nat Prod Res. 28:2330–2333.
  • Pereira VV, Silva RR, Duarte LP, Takahashi JA. 2016. Chemical constituents of Jacaranda oxyphylla and their acetylcholinesterase inhibitory and antimicrobial activities. Rec Nat Prod. 10:392–396.
  • Scott LJ, Goa KL. 2000. Galantamine: a review of its use in Alzheimer’s disease. Drugs. 60:1095–1122.
  • Simmons TL, Andrianasolo E, McPhail K, Flatt P, Gerwick WH. 2005. Marine natural products as anticancer drugs. Mol Cancer Ther. 4:333–342.
  • Tommonaro G, García-Font N, Vitale RM, Pejin B, Iodice C, Cañadas S, Marco Contelles J, Oset-Gasque MJ. 2016. Avarol derivatives as competitive AChE inhibitors, non hepatotoxic and neuroprotective agents for Alzheimer's disease. Eur J Med Chem. 122:326–338.
  • Tommonaro G, Iodice C, Abd El-Hady FK, Pejin B. 2015. The Mediterranean sponge Dysidea avara as a 40 year inspiration of marine natural product chemists. J Biodivers Endanger Species. S1:001.
  • Wang Y-T, Xue Y-R, Liu C-H. 2015. A brief review of bioactive metabolites derived from deep-sea Fungi. Mar Drugs. 13:4594–4616.
  • Xiong Q, Wilson WK, Pang J. 2007. The Liebermann-Burchard reaction: sulfonation, desaturation, and rearrangment of cholesterol in acid. Lipids. 42:87–96.
  • Yoon NY, Chung HY, Kim HR, Choi JS. 2008. Acetyl- and butyrylcholinesterase inhibitory activities of sterols and phlorotannins from Ecklonia stolonifera. Fisheries Sci. 74:200–207.
  • Zhang H, Dong M, Wang H, Crews P. 2017. Secondary metabolites from the marine sponge genus Phyllospongia. Mar Drugs. 15:12.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.