Author(s): Sipkema D, Osinga R, Schatton W, Mendola D, Tramper J, et al.
Marine sponges are known to produce an overwhelming array of secondary metabolites with pharmaceutical potential. The technical and economical potential of using marine sponges for large-scale production of these compounds was assessed for two cases: the anticancer molecule halichondrin B from a Lissodendoryx sp., and avarol from Dysidea avara for its antipsoriasis activity. An economic and technical analysis was done for three potential production methods: mariculture, ex situ culture (in tanks), and cell culture. We concluded that avarol produced by mariculture or ex situ culture could become a viable alternative to currently used pharmaceuticals for the treatment of psoriasis. Production of halichondrin B from sponge biomass was found to not be a feasible process, mainly due to the extremely low concentration of the compound in the sponge. Technical feasibility was also analyzed for five alternatives: chemical synthesis, wild harvest, primmorph culture, genetic modification and semi-synthesis. It was concluded that the latter two approaches could prove to be valuable methods for the production of pharmaceuticals, based on chemical structures of secondary metabolites present in trace amounts in marine sponges.
Referred From: https://www.ncbi.nlm.nih.gov/pubmed/15739169
Author(s): Haefner B
Author(s): Belarbi el H, Contreras Gómez A, Chisti Y, García Camacho F, Molina Grima E
Author(s): Sipkema D, Franssen MC, Osinga R, Tramper J, Wijffels RH
Author(s): Alcaraz MJ, Payá M
Author(s): Paul VJ
Author(s): Green G
Author(s): Proksch P
Author(s): Taylor MW, Radax R, Steger D, Wagner M
Author(s): Stowe SD, Richards JJ, Tucker AT, Thompson R, Melander C, et al.
Author(s): Thompson JE, Walker RP, Faulkner DJ
Author(s): Beccero MA, Turon X, Uriz MJ
Author(s): Becerro MA, Thacker RW, Turon X, Uriz MJ, Paul VJ
Author(s): Muller WEG
Author(s): Lavrov D
Author(s): By Phil Myers
Author(s): Molinski TF, Dalisay DS, Lievens SL, Saludes JP
Author(s): Simmons TL, Andrianasolo E, McPhail K, Flatt P, Gerwick WH
Author(s): Gordaliza M
Author(s): Hallock YF, Cragg GM
Author(s): Hildebrand M, Waggoner LE, Lim GE, Sharp KH, Ridley CP, et al.
Author(s): Baker DD, Chu M, Oza U, Rajgarhia V
Author(s): Newman DJ, Cragg GM
Author(s): Newman DJ, Cragg GM
Author(s): Sagar S, Kaur M, Minneman KP
Author(s): Villa FA, Gerwick L
Author(s): Frota MJ, Silva RB, Mothes B, Henriques AT, Moreira JC
Author(s): Blunt JW, Copp BR, Keyzers RA, Munro MH, Prinsep MR
Author(s): Shaaban M, Abd-Alla HI, Hassan AZ, Aly HF, Ghani MA
Author(s): Longeon A, Copp BR, Quévrain E, Roué M, Kientz B, et al.
Author(s): Utkina NK
Author(s): Li Z
Author(s): Sugiyama Y, Ito Y, Suzuki M, Hirota A
Author(s): Kim SK, Dewapriya P
Author(s): Berrué F, McCulloch MW, Boland P, Hart S, Harper MK, et al.
Author(s): Abraham I, El Sayed K, Chen ZS, Guo H
Author(s): Mayer AM, Glaser KB, Cuevas C, Jacobs RS, Kem W, et al.
Author(s): Crews P, Gewick WH, Schmitz FJ, France D, Bair KW, et al.
Author(s): Wang YQ, Miao ZH
Author(s): Bergmann W, Feeney RJ
Author(s): Proksch P, Edrada RA, Ebel R
Author(s): Schwartsmann G
Author(s): Feldman EJ, Lancet JE, Kolitz JE, Ritchie EK, Roboz GJ, et al.
Author(s): Essack M, Bajic VB, Archer JA
Author(s): Newman DJ, Cragg GM
Author(s): Halim H, Chunhacha P, Suwanborirux K, Chanvorachote P
Author(s): Guzii AG, Makarieva TN, Denisenko VA, Dmitrenok PS, Kuzmich AS, et al.
Author(s): Kondracki ML, Guyot M
Author(s): Kong D, Yamori T, Kobayashi M, Duan H
Author(s): Bai R, Cichacz ZA, Herald CL, Pettit GR, Hamel E
Author(s): Rothmeier AS, Schneiders UM, Wiedmann RM, Ischenko I, Bruns CJ, et al.
Author(s): Valeriote FA, Tenney K, Media J, Pietraszkiewicz H, Edelstein M, et al.
Author(s): Rabelo L, Monteiro N, Serquiz R, Santos P, Oliveira R, et al.
Author(s): Schumacher M, Cerella C, Eifes S, Chateauvieux S, Morceau F, et al.
Author(s): Shin BA, Kim YR, Lee IS, Sung CK, Hong J, et al.
Author(s): Zhao Q, Mansoor TA, Hong J, Lee CO, Im KS, et al.
Author(s): Gunasekera SP, Cranick S, Longley RE
