Isolation of Hydroxyoctaprenyl-1′,4′-hydroquinone,a new Octaprenylhydroquinone from the Marine Sponge Sarcotragus spinosulus and Evaluation of its Pharmacological Activity on Acetylcholine and Glutamate Release in the Rat Central Nervous System
Free accessResearch articleFirst published online November, 2014
Isolation of Hydroxyoctaprenyl-1′,4′-hydroquinone,a new Octaprenylhydroquinone from the Marine Sponge Sarcotragus spinosulus and Evaluation of its Pharmacological Activity on Acetylcholine and Glutamate Release in the Rat Central Nervous System
Three polyprenyl-1′,4′-hydroquinone derivatives, heptaprenyl-1′,4′-hydroquinone (1), octaprenyl-1′,4′-hydroquinone (2), and hydroxyoctaprenyl-1′,4′-hydroquinone (3) were isolated from the marine sponge Sarcotragus spinosulus collected at Baia di Porto Conte, Alghero (Italy). Our findings indicate that the compounds isolated from S. spinosulus can significantly modulate the release of glutamate and acetylcholine in the rat hippocampus and cortex and might, therefore, represent the prototype of a new class of drugs regulating glutamatergic and cholinergic transmission in the mammalian central nervous system.
BergmannW., FeeneyR.J. (1950) The isolation of a new thymine pentoside from sponges. Journal of the American Chemical Society, 72, 2809–2810.
2.
BergmannW., FeeneyR.J. (1951) Contributions to the study of marine products, 32: the nucleosides of sponges. The Journal of Organic Chemistry, 16, 981–987.
RavichandranS., KathiresanK., BalaramH. (2007) Anti-malarials from marine sponges. Biotechnology and Molecular Biology Reviews, 2, 033–038.
5.
AbedC., LegraveN., DufiesM., RobertG., GuérineauV., VaceletJ., AubergerP., AmadeP., MehiriM. (2011) A new hydroxylated nonaprenylhydroquinone from the Mediterranean marine sponge Sarcotragus spinosulus. Marine Drugs, 9, 1210–219.
6.
LoyaS., RudiA., KashmanY., HiziA. (1997) Mode of inhibition of HIV reverse transcriptase by 2-hexaprenylhydroquinone, a novel general inhibitor of RNA-and DNA-directed DNA polymerases. Biochemical Journal324, 721–727.
7.
TerencioM.C., FerrandizM.L., PosadasI., RoigE., de RosaS., De GiulioA., PayaM., AlcarazM.J. (1998) Suppression of leukotriene B4 and tumour necrosis factor alpha release in acute inflammatory responses by novel prenylated hydroquinone derivatives. Naunyn-Schmiedeberg's Archives of Pharmacology, 357, 565–572.
8.
TzivelekaL.A., AbatisD., PaulusK., BauerR., VagiasC., RoussisV. (2005) Marine polyprenylated hydroquinones, quinones, and chromenols with inhibitory effects on leukotriene formation. Chemistry & Biodiversity, 2, 901–909.
9.
MihopoulosN., VagiasC., ChinouI., RoussakisC., ScoullosM., HarvalaC., RoussisV. (1999) Antibacterial and cytotoxic natural and synthesized hydroquinones from sponge Ircinia spinosula. Zeitschrift fur Naturforschung. C, Journal of Biosciences, 54, 417–423.
10.
GilB., SanzM.J., TerencioM.C., De GiulioA., De RosaS., AlcarazM.J., PayàM. (1995) Effects of marine 2-polyprenyl-1,4-hydroquinones on phospholipase A2 activity and some inflammatory responses. European Journal of Pharmacology, 285, 281–288.
11.
MurrayP.M., MoaneS., CollinsC., BeletskayaT., ThomasO.P., DuarteA.W., NobreF.S., OwoyemiI.O., PagnoccaF.C., SetteL.D., McHughE., CausseE., Perez-LopezP., FeijooG., MoreiraM.T., RubioloJ., LeirosM., BotanaL.M., PinteusS., AlvesC., HortaA., PedrosaR., JeffryesC., AgathosS.N., AllewaertC., VerweenA., VyvermanW., LaptevI., SineokyS., BisioA., ManconiR., LeddaF., MarchiM., PronzatoR., WalshD.J. (2013) Sustainable production of biologically active molecules of marine based origin. New Biotechnology, 30, 839–850.
12.
BifulcoG., BrunoI., MinaleL., RiccioR. (1995) Bioactive prenylhydroquinone sulfates and a novel C31 furanoterpene alcohol sulfate from the marine sponge Ircinia sp. Journal of Natural Products, 58, 1444–1449.
13.
CiminoG., De StefanoS., MinaleL. (1972) Prenilated quinones in marine sponges: Ircina sp. Experientia, 28, 1401–1528.
14.
CafieriF., FattorussoE., MangoniA., Taglialatela ScafatiO., CarnuccioR. (1995) A novel bromopyrrole alkaloid from the sponge Agelas longissima with antiserotonergic activity. Bioorganic & Medicinal Chemistry Letters, 5, 799–804.
SakaiR., KamiyaH., MurataM., ShimamotoK. (1997) Dysiherbaine: a new neurotoxic amino acid from the Micronesian marine sponge Dysidea herbacea. Journal of the American Chemical Society, 119, 4112–4116.
19.
KobayashiM., NakamuraH., WuH.M., KobayashiJ., OhizumiY. (1987) Mode of inhibition of brain Na+, K+-ATPase by agelasidines and agelasines from a sea sponge. Archives of Biochemistry and Biophysics259, 179–184.
20.
BerlinckR.G., BraekmanJ.C., DalozeD., BrunoI., RiccioR., FerriS., SpampinatoS., SperoniE. (1993) Polycyclic guanidine alkaloids from the marine sponge Crambe crambe and Ca++ channel blocker activity of crambescidin 816. Journal of Natural Products, 56, 1007–1015.
21.
MartinV., ValeC., BonduS., ThomasO.P., VieytesM.R., BotanaL.M. (2013) Differential effects of crambescins and crambescidin 816 in voltage-gated sodium, potassium and calcium channels in neurons. Chemical Research in Toxicology, 26, 169–178.
RangelM., de SanctisB., de FreitasJ.C., PolattoJ.M., GranatoA.C., BerlinckR.G.S., HajduE. (2001) Cytotoxic and neurotoxic activities in extracts of marine sponges (Porifera) from southeastern Brazilian coast. Journal of Experimental Marine Biology and Ecology, 262, 31–40.
24.
CiminoG., De StefanoS., MinaleL. (1972) Polyprenil derivatives from the sponge Ircinia spinosula. 2-Polyprenylbenzoquinones, 2-polyprenylbenzoquinols, prenylated furans and C-31 difuranoterpene. Tetrahedron, 28, 1315–1324.
25.
VenkateswarluY., Venkata Rami ReddyM. (1994) Three new heptaprenylhydroquinone derivatives from the sponge Ircinia fasciculata. Journal of Natural Products, 57, 1286–1289.
26.
De RosaS., CrispinoA., De GiulioA., IodiceC., MiloneA. (1995) Sulfated polyprenylhydroquinones from the sponge Ircinia spinosula. Journal of Natural Products, 58, 1450–1454.
27.
ErdoganI., TanakaJ., HigaT., SenerB. (1999) Terpenoids fron two sponge species of the Aegean Sea. Natural Product Sciences, 5, 177–180.
28.
BisioA., DamonteG., FraternaleD., GiacomelliE., SalisA., RomussiG., CafaggiS., RicciD., De TommasiN. (2011) Phytotoxic clerodane diterpenes from Salvia miniata Fernald (Lamiaceae). Phytochemistry, 72, 265–275.
29.
GrilliM., RaiteriL., PattiL., ParodiM., RobinoF., RaiteriM., MarchiM. (2006) Modulation of the function of presynaptic alpha7 and non-alpha7 nicotinic receptors by the tryptophan metabolites, 5-hydroxyindole and kynurenate in mouse brain. British Journal of Pharmacology, 149, 724–732.
