Subscribe to RSS
DOI: 10.1055/s-0042-105157
Pitiamides A and B, Multifunctional Fatty Acid Amides from Marine Cyanobacteria
Publication History
received 24 September 2015
revised 18 February 2016
accepted 04 March 2016
Publication Date:
02 May 2016 (online)
Abstract
Two geometric isomers related to pitiamide A, termed 1E-pitiamide B (1) and 1Z-pitiamide B (2), were isolated from a marine cyanobacterium collected from the shallow reef flat at Piti Bomb Holes, Guam, Mariana Islands. The structures of these analogues were elucidated using 1D and 2D NMR analysis. Pitiamide A, which has been previously described, but has not been investigated in bioassays, was co-isolated. Pitiamides A and B were subjected to a biological evaluation and they both showed antiproliferative effects on HCT116 cells with IC50 values of 1–5 µM. Pitiamide A was investigated individually and caused plasma membrane hyperpolarization and an increase of intracellular calcium in HCT116 cells.
Key words
Marine cyanobacteria - fatty acid amides - pitiamides - antiproliferative activity - membrane hyperpolarization-
References
- 1 Nagle DG, Park PU, Paul VJ. Pitiamide A, a new chlorinated lipid from a mixed marine cyanobacterial assemblage. Tetrahedron Lett 1997; 38: 6969-6972
- 2 Tan LT. Marine cyanobacteria: a treasure trove of bioactive secondary metabolites for drug discovery. In: Atta-ur-Rahman, editor Studies in natural products chemistry, Vol 36. Oxford: Elsevier; 2012: 67-110
- 3 Edwards DJ, Marquez BL, Nogle LM, McPhail K, Goeger DE, Roberts MA, Gerwick WH. Structure and biosynthesis of the jamaicamides, new mixed polyketide-peptide neurotoxins from the marine cyanobacterium Lyngbya majuscula . Chem Biol 2004; 11: 817-833
- 4 Jiménez JI, Vansach T, Yoshida WY, Sakamoto B, Pörzgen P, Horgen FD. Halogenated fatty acid amides and cyclic depsipeptides from an eastern caribbean collection of the cyanobacterium Lyngbya majuscula . J Nat Prod 2009; 72: 1573-1578
- 5 Sitachitta N, Gerwick WH. Grenadadiene and grenadamide, cyclopropyl-containing fatty acid metabolites from the marine cyanobacterium Lyngbya majuscula . J Nat Prod 1998; 61: 681-684
- 6 Tan LT, Okino T, Gerwick WH. Hermitamides A and B, toxic malyngamide-type natural products from the marine cyanobacterium Lyngbya majuscula . J Nat Prod 2000; 63: 952-955
- 7 Han B, McPhail KL, Ligresti A, Di Marzo V, Gerwick WH. Semiplenamides A–G, fatty acid amides from a Papua New Guinea collection of the marine cyanobacterium Lyngbya semiplena . J Nat Prod 2003; 66: 1364-1368
- 8 Nunnery JK, Engene N, Byrum T, Cao Z, Jabba SV, Pereira AR, Matainaho T, Murray TF, Gerwick WH. Biosynthetically intriguing chlorinated lipophilic metabolites from geographically distant tropical marine cyanobacteria. J Org Chem 2012; 77: 4198-4208
- 9 Wu M, Okino T, Nogle LM, Marquez BL, Williamson RT, Sitachitta N, Berman FW, Murray TF, McGough K, Jacobs R, Colsen K, Asano T, Yokokawa F, Shioiri T, Gerwick WH. Structure, synthesis, and biological properties of Kalkitoxin, a novel neurotoxin from the marine cyanobacterium Lyngbya majuscula . J Am Chem Soc 2000; 122: 12041-12042
- 10 Williamson RT, Singh IP, Gerwick WH. Taveuniamides: new chlorinated toxins from a mixed assemblage of marine cyanobacteria. Tetrahedron 2004; 60: 7025-7033
- 11 Tan LT, Chang YY, Ashootosh T. Besarhanamides A and B from the marine cyanobacterium Lyngbya majuscula . Phytochemistry 2008; 69: 2067-2069
- 12 Malloy KL, Suyama TL, Engene N, Debonsi H, Cao Z, Matainaho T, Spadafora C, Murray TF, Gerwick WH. Credneramides A and B: neuromodulatory phenethylamine and isopentylamine derivatives of a vinyl chloride-containing fatty acid from cf. Trichodesmium sp. nov. J Nat Prod 2012; 75: 60-66
- 13 Palińska KA, Abed RM, Charpy L, Langlade MJ, Beltrán-Magos Y, Golubic S. Morphological, genetic and physiological characterization of Hydrocoleum, the most common benthic cyanobacterium in tropical oceans. Eur J Phycol 2015; 50: 139-154
- 14 Kondru RK, Lim S, Wipf P, Beratan DN. Synthetic and model computational studies of molar rotation additivity for interacting chiral centers: a reinvestigation of vanʼt Hoffʼs principle. Chirality 1997; 9: 469-477
- 15 Ribe S, Kondru RK, Beratan DN, Wipf P. Optical rotation computation, total synthesis, and stereochemistry assignment of the marine natural product pitiamide A. J Am Chem Soc 2000; 122: 4608-4617
- 16 Kleyman TR, Yulo T, Ashbaugh C, Landry D, Cragoe jr. E, Karlin A, Al-Awqati Q. Photoaffinity labeling of the epithelial sodium channel. J Biol Chem 1986; 261: 2839-2843
- 17 Ashcroft FM, Rorsman P. Electrophysiology of the pancreatic β-cell. Prog Biophys Mol Biol 1989; 54: 87-143
- 18 Babenko AP, Aguilar-Bryan L, Bryan J. A view of sur/KIR6. X, KATP channels. Annu Rev Physiol 1998; 60: 667-687
- 19 Reeve HL, Vaughan PF, Peers C. Glibenclamide inhibits a voltage-gated K+ current in the human neuroblastoma cell line SH-SY5Y. Neurosci Lett 1992; 135: 37-40
- 20 Müller MS, Obel LF, Waagepetersen HS, Schousboe A, Bak LK. Complex actions of ionomycin in cultured cerebellar astrocytes affecting both calcium-induced calcium release and store-operated calcium entry. Neurochem Res 2013; 38: 1260-1265