Depsipeptide

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A depsipeptide is a peptide in which one or more of its amide, -C(O)NHR-, groups are replaced by the corresponding ester, -C(O)OR,[1] Many depsipeptides have both peptide and ester linkages. They are mainly found in marine and microbial natural products.[2]

Example of a depsipeptide with 3 amide groups (highlighted blue) and one ester group (highlighted green). R1 and R3 are organic groups (e. g. methyl) or a hydrogen atom found in α-hydroxycarboxylic acids. R2, R4 and R5 are organic groups or a hydrogen atom found in common amino acids.

Depsipeptide natural products[]

Enterochelin is a depsipeptide that is an iron-transporter.[3]

Several depsipeptides have been found to exhibit anti-cancer properties.[4]

A depsipeptide enzyme inhibitor includes romidepsin, a member of the bicyclic peptide class, a known histone deacetylase inhibitors (HDACi). It was first isolated as a fermentation product from Chromobacterium violaceum by the Fujisawa Pharmaceutical Company.[5]

Etamycin was shown in preliminary data in 2010 to have potent activity against MRSA in a mouse model.[6] Several depsipeptides from Streptomyces exhibit antimicrobial activity.[7][8] These form a new, potential class of antibiotics known as acyldepsipeptides (ADEPs). ADEPs target and activate the casein lytic protease (ClpP) to initiate uncontrolled peptide and unfolded protein degradation, killing many Gram-positive bacteria.[9][10][11]

Further reading[]

  • papuamide Ford, PW; Gustafson, KR; McKee, TC; Shigematsu, N; Maurizi, LK; Pannell, LK; Williams, DE; de Silva, ED; Lassota, P; Allen, TM; Van Soest, R; Andersen, RJ; Boyd, MR (1999). "Papuamides A-D, HIV-Inhibitory and Cytotoxic Depsipeptides from the Sponges Theonella mirabilis and Theonella swinhoei Collected in Papua New Guinea". J. Am. Chem. Soc. 121: 5899–5909. doi:10.1021/ja990582o.
  • neamphamide A Oku, N; Gustafson, KR; Cartner, LK; Wilson, JA; Shigematsu, N; Hess, S; Pannell, LK; Boyd, MR; McMahon, JB (2004). "Neamphamide A. A new HIV-inhibitory depsipeptide from the Papua New Guinea marine sponge Neamphius huxleyi". J. Nat. Prod. 67 (8): 1407–11. doi:10.1021/np040003f. PMID 15332865.
  • callipeltin A Zampella, A; D'Auria, MV; Paloma, LG; Casapullo, A; Minale, L; Debitus, C; Henin, Y (1996). "Callipeltin A, an Anti-HIV Cyclic Depsipeptide from the New Caledonian Lithistida Sponge Callipelta sp.". J. Am. Chem. Soc. 118 (26): 6202–9. doi:10.1021/ja954287p.
  • mirabamides A-D Plaza, A; Gustchina, E; Baker, HL; Kelly, M; Bewley, CA (2007). "Mirabamides A-D. Depsipeptides from the sponge Siliquariaspongia mirabilis that inhibit HIV-1 fusion". J. Nat. Prod. 70 (11): 1753–60. doi:10.1021/np070306k. PMID 17963357.; Andjelic, CD; Planelles, V; Barrows, LR (2008). "Characterizing the Anti-HIV Activity of Papuamide A." Mar Drugs. 6 (4): 528–49. doi:10.3390/md20080027. PMC 2630844. PMID 19172193.

References[]

  1. ^ IUPAC, Compendium of Chemical Terminology, 2nd ed. (the "Gold Book") (1997). Online corrected version:  (2006–) "depsipeptides". doi:10.1351/goldbook.D01604
  2. ^ Yasumasa Hamada, Takayuki Shioiri (2005). "Recent Progress of the Synthetic Studies of Biologically Active Marine Cyclic Peptides and Depsipeptides". Chem. Rev. 105 (12): 4441–4482. doi:10.1021/cr0406312. PMID 16351050.CS1 maint: uses authors parameter (link)
  3. ^ Walsh, Christopher T., Jun Liu, Frank Rusnak, and Masahiro Sakaitani (1990). "Molecular Studies on Enzymes in Chorismate Metabolism and the Enterobactin Biosynthetic Pathway". Chemical Reviews. 90 (7): 1105–1129. doi:10.1021/cr00105a003.CS1 maint: multiple names: authors list (link)
  4. ^ Kitagaki, J.; Shi, G.; Miyauchi, S.; Murakami, S.; Yang, Y. (2015). "Cyclic depsipeptides as potential cancer therapeutics". Anticancer Drugs. 26 (3): 259–71. doi:10.1097/CAD.0000000000000183. PMID 25419631.
  5. ^ Yurek-George, Alexander; Cecil, Alexander Richard Liam; Mo, Alex Hon Kit; Wen, Shijun; Rogers, Helen; Habens, Fay; Maeda, Satoko; Yoshida, Minoru; et al. (2007). "The First Biologically Active Synthetic Analogues of FK228, the Depsipeptide Histone Deacetylase Inhibitor". Journal of Medicinal Chemistry. 50 (23): 5720–5726. doi:10.1021/jm0703800. PMID 17958342.
  6. ^ Haste, Nina M; Perera, Varahenage R; Maloney, Katherine N; Tran, Dan N; Jensen, Paul; Fenical, William; Nizet, Victor; Hensler, Mary E (2010). "Activity of the streptogramin antibiotic etamycin against methicillin-resistant Staphylococcus aureus". Journal of Antibiotics. 63 (5): 219–24. doi:10.1038/ja.2010.22. PMC 2889693. PMID 20339399.
  7. ^ K. H. Michel, R. E. Kastner (Eli Lilly and Company), US 4492650, 1985 [Chem. Abstr. 1985, 102, 130459]
  8. ^ Osada, Hiroyuki; Yano, Tatsuya; Koshino, Hiroyuki; Isono, Kiyoshi (1991). "Enopeptin A, a novel depsipeptide antibiotic with anti-bacteriophage activity". The Journal of Antibiotics. 44 (12): 1463–1466. doi:10.7164/antibiotics.44.1463. PMID 1778798.
  9. ^ Li; Him Shun, Dominic; Guarné, Alba; Maurizi, Michael R.; Cheng, Yi-Qiang; Wright, Gerard D.; Ghirlando, Rodolfo; Joseph, Ebenezer; Gloyd, Melanie; Seon Chung, Yu; Ortega, Joaquin (2010). "Acyldepsipeptide Antibiotics Induce The Formation Of A Structured Axial Channel In ClpP: A Model For The ClpX/ClpA-Bound State Of ClpP". Chemistry & Biology. 17 (9): 959–969. doi:10.1016/j.chembiol.2010.07.008. PMC 2955292. PMID 20851345.
  10. ^ Hinzen, Berthold; Labischinski, Harald; Brötz-Oesterhelt, Heike; Endermann, Rainer; Benet-Buchholz, Jordi; Hellwig, Veronica; Häbich, Dieter; Schumacher, Andreas; Lampe, Thomas; Paulsen, Holger; Raddatz, Siegfried (2006). "Medicinal Chemistry Optimization of Acyldepsipeptides of the Enopeptin Class Antibiotics". ChemMedChem. 1 (7): 689–693. doi:10.1002/cmdc.200600055. PMID 16902918. S2CID 36525372.
  11. ^ Carney, Daniel W.; Schmitz, Karl R.; Truong, Jonathan V.; Sauer, Robert T.; Sello, Jason K. (2014). "Restriction of the Conformational Dynamics of the Cyclic Acyldepsipeptide Antibiotics Improves Their Antibacterial Activity". JACS. 136 (5): 1922–1929. doi:10.1021/ja410385c. PMC 4004210. PMID 24422534.
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