Farmaka

Spons merupakan salah satu biota laut yang tersebar hampir di seluruh dunia. Spons juga mempunyai banyak manfaat karena mengandung banyak senyawa yang memiliki aktivitas biologis.  Spons genus Petrosia memiliki banyak spesies, diantaranya yaitu Petrosia ficiformis, Petrosia nigricans, Petrosia strongylata, dan Petrosia corticata. Spons ini mengandung senyawa yang memiliki aktivitas biologis sebagai sitotoksik terhadap sel lini kanker, anti-malaria, anti-HIV, dan antibakteri. Selain mengandung banyak senyawa yang bermanfaat, spons ini juga memiliki karakteristik yang beragam, mulai dari bentuk, warna dan juga habitat.

Kata Kunci: Spons, Petrosia, Aktivitas, Karakteristik

Abdel-Lateff, A., Alarif, W.M., Asfour, H.Z., Ayyad, S.-E.N., Khedr, A., Badria, F.A., & Al-lihaibi Sultan S. 2014. Cytotoxic Effects of Three New Metabolites from Red Sea Marine Sponge, Petrosia sp. Environmental Toxicology and Pharmacology, 37(3) : 928–935.

Andavan, G.S., & Lemmens-Gruber, R. 2010. Cyclodepsipeptides from Marine Sponges: Natural Agents for Drug Research. Mar. Drugs 8 : 810–834.

Aoki, S., Naka, Y., Itoh, T., Furukawa, T., Rachmat, R., Akiyama, S., & Kobayashi, M., 2002, Lembehsterols A and B, Novel Sulfated Sterols Inhibiting Thymidine Phosphorylase, from the Marine Spons Petrosia strongylata, Chem. Pharm. Bull., 50(6) : 827-830.

Blunt, J.W., Copp, B.R., Keyzers, R.A., Munro, M.H., & Prinsep, M.R. 2015. Marine Natural Products. Nat. Prod. Rep , 32 : 116–211.

Burgsdorf, I., Erwin, P. M., Lopez-Legentil, S., Cerrano, C., Haber, M., Frenk, S., & Steindler, L. 2014. Biogeography rather than Association with Cyanobacteria Structures Symbiotic Microbial Communities in the Marine Sponge Petrosia ficiformis. Frontiers in Microbiology, Vol. 5, Article 529 : 1-11.

Chelossi, E., Milanese, M., Milano, A., Pronzato, R., & Riccardi, G. 2004. Characterisation and Antimicrobial Activity of Epibiotic Bacteria from Petrosia ficiformis (Porifera, Demospongiae). Journal of Experimental Marine Biology and Ecology, 309(1) : 21–33.

De Voogd, N. J., & Van Soest, R.W.M. 2002. Indonesian Sponge of the Genus Petrosia Vosmaer (Demospongiae: Haplosclerida). Zool. Med. Leidan, 76 (16) : 193-209.

De Voogd, N.J. 2005. Indonesia Sponges : Biodiversity and Marincultured Potential. Geboren te Dodrecht, Netherlands.

Dembitsky, V.M., Gloriozova, T.A., & Poroikov, V.V. 2005. Novel Antitumor Agents: Marine Sponge Alkaloids, their Synthetic Analogs and Derivatives. Mini-Rev. Med. Chem, 5 : 319–336.

Frota, M.J., Silva, R.B., Mothes, B., Henriques, A.T., & Moreira, J.C. 2012. Current Status on Natural Products with Antitumor Activity from Brazilian Marine Sponges. Curr. Pharm. Biotechnol , 13 : 235–244.

Gomes Filho, S.M., Cardoso, J.D., Anaya, K., Silva do Nascimento, E., de Lacerda, J.T., Mioso, R., Santi Gadelha, T., & de Almeida Gadelha, C.A. 2015. Marine Sponge Lectins: Actual Status on Properties and Biological Activities. Molecules , 20 : 348–357.

Gordaliza, M. 2010. Cytotoxic Terpene Quinones from Marine Sponges. Mar. Drugs , 8 : 2849–2870.

Goud, T. V., Reddy, N. S., Swamy, N. R., Ram, T. S., & Venkateswarlu, Y. 2003. Anti-HIV Active Petrosins from the Marine Spons Petrosia similis, Biol. Pharm. Bull., 26 (10) : 1498-1501.

Hill, M.S., & Hill, A.L. 2009. Porifera (Sponges). Encyclopedia of Inland Waters : 423–432

Hitora, Y., Takada, K., Okada, S., Ise, Y., & Matsunaga, S. 2011. (–) - Duryne and its Homologues, Cytotoxic Acetylenes from a Marine Sponge Petrosia sp. J. Nat. Prod., 74, 1262–1267.

Hitora, Y., Takada, K., Okada, S., & Matsunaga, S. 2011. Miyakosynes A–F, Cytotoxic Methyl Branched Acetylenes from a Marine Sponge Petrosia sp. Tetrahedron, 67 : 4530–4534.

Jones, A.C., Blum, J.E., & Pawlik, J.R. 2005. Testing for Defensive Synergy in Caribbean Sponges: Bad Taste or Glass Spicules? J. Exp. Mar. Biol. Ecol., 322 : 67–81.

Juan, Y.-S., Lee, C.-C., Tsao, C.-W., Lu, M.-C., El-Shazly, M., Shih, H.-C., & Su, J.-H. 2014. Structure Elucidation and Cytotoxic Evaluation of New Polyacetylenes from a Marine Sponge Petrosia sp. International Journal of Molecular Sciences, 15(9) : 16511–16521.

Kim, J.S., Im., K.S., Jung., J.H., Kim., Y-L., J. Kim., Shim, C.J., & Lee, C.O. 1998. New Bioactive Polyacetylenes from the Marine Sponge Petrosia sp. Tetrahedron. 54 : 3151–3158.

Mehbub, M.F., Lei, J., Franco, C., & Zhang, W. 2014. Marine Sponge Derived Natural Products between 2001 and 2010 : Trends and Opportunities for Discovery of Bioactives. Mar. Drugs, 12 : 4539–4577.

Mioso, R., Marante, F., Bezerra, R., Borges, F., Santos, B., & Laguna, I. 2017. Cytotoxic Compounds Derived from Marine Sponges. A Review (2010–2012). Molecules, 22(2), 208 : 1-34.

Montaser, R., & Luesch, H. 2011. Marine Natural Products: A New Wave of Drugs? Future Med. Chem., 3 : 1475–1489.

Munro, M.G., Blunt, J.W., Dumdey, E.J., Hickford, S.J., Lill, R.E., Li, S., Battershill, C.N., & Duckworth, A.R. 1999. The Discovery and Development of Marine Compounds with Pharmaceutical Potential. J. Biotechnol., 70 : 15–25.

Murti, Y.B. 2006. Isolation and Structure Elucidation of Bioactive Secondary Metabolites from Sponge Collected at Ujungpandang and in the Bali Sea, Indonesia, Disertation.

Nhiem, N.X., Quang, N.V., Minh, C.V., Hang, D.T., Anh, H.L., Tai, B.H., Yen, P.H., Hoai, N.T., Thung, D.C., & Kiem, P.V. 2013. Biscembranoids from the Marine Sponge Petrosia nigricans. Natural Product Communications. Vol. 8 (9) : 1209-1212

Noda, A., Sakai, E., Kato, H., Losung, F., Mangindaan, R. E. P., de Voogd, N. J., & Tsukamoto, S. 2015. Strongylophorines, Meroditerpenoids from the Marine Sponge Petrosia corticata, Function as Proteasome Inhibitors. Bioorganic & Medicinal Chemistry Letters, 25(13) : 2650–2653.

Pailee, P., Mahidol, C., Ruchirawat, S., & Prachyawarakorn, V. 2017. Sterols from Thai Marine Sponge Petrosia (Strongylophora) sp. and Their Cytotoxicity. Marine Drugs, 15(3), 54.

Ribeiro, S.M., Cassiano, K.M., Cavalcanti, D.N., Teixeira, V.L., Pereira, R.C. 2012. Isolated and Synergistic Effects of Chemical and Structural Defenses of Two Species of Tethya (Porifera: Demospongiae). J. Sea Res., 68 : 57–62.

Sarà, M., Bavastrello,G., Cattaneo Vietti,R., & Cerrano,C. 1998. Endosymbiosis in sponges: relevance for epigenesist and evolution. Symbiosis, 25, 57–70.

Sasaki, S., Tozawa, T., Van Wagoner, R. M., Ireland, C. M., Harper, M. K., & Satoh, T. 2011. Strongylophorine-8, a Pro-electrophilic Compound from the Marine Sponge Petrosia (Strongylophora) corticata, Provides Neuroprotection through Nrf2/ARE Pathway. Biochemical and Biophysical Research Communications, 415(1) : 6–10.

Seo, Y., Cho., K.W., Rho, J., & Shin J. 1998. Petrocortynes and Petrosiacetylenes, Novel Polyacetylenes from a Sponge of the Genus Petrosia. Tetrahedron. 54 : 447–462.

Ueoka, R., Ise, Y., & Matsunaga, S. 2009. Cytotoxic Polyacetylens related to Petroformyne-1 from the Marine Sponge Petrosia sp. Tetrahedron. 65: 5204–5208.