Crude extract from a hardcoral-associated bacterium Virgibacillus salarius PHC-44-04 inhibiting growth of Multidrug-Resistant Enterobacter aerogenes human pathogen
##plugins.themes.bootstrap3.article.sidebar##
##plugins.themes.bootstrap3.article.main##
Abstract
Abstract. Ayuningrum D, Muchlissin SI, Trianto A, Radjasa OK, Sabdono A. 2020. Crude extract from a hardcoral-associated bacterium Virgibacillus salarius PHC-44-04 inhibiting growth of Multidrug-Resistant Enterobacter aerogenes human pathogen. Biofarmasi J Nat Prod Biochem 18: 82-87. Hardcoral-associated bacteria are potential sources of natural product compounds with a wide range of activities, i.e., antibacterial activity, antiviral, anticancer, antifungal, etc. Virgibacillus salarius PHC-44-04 is a gram-positive bacterium isolated in prior research from hard coral Pavona sp. collected from Panjang Island, Jepara, Indonesia. This bacterium at the screening phase was showing high antibacterial activity against Multidrug-Resistant Enterobacter aerogenes (MDR-EA). Therefore, this paper has aim to deliver the result of the crude extract antibacterial test from V. salarius PHC-44-04 after being cultivated in a liquid medium, to know the efficiency of using supernatant and pellet extract, and to determine in which concentration was the minimum for antibacterial activity. The cultivation of bacterial isolates was using liquid medium Nutrient Broth, and the production of crude extract was using the liquid-liquid extraction method. The liquid medium containing bacterial cells were separated using a centrifuge at 8,000 rpm and became supernatant and pellet. The supernatant was extracted using ethyl acetate, while the pellet was extracted using methanol. The antibacterial test from both crude extract from supernatant and pellet was using disk diffusion method with several concentration as follows: 15 µg/mL, 30 µg/mL, 60 µg/mL, 90 µg/mL, 180 µg/mL, 250 µg/mL, 350 µg/mL, and 500 µg/mL. Each concentration was repeated in three replicates. The crude extract produced from 700 mL supernatant was 0.0667 g and from 50mL pellets was 0.0320. The pellet crude extract has a higher mass but does not have antibacterial activity against MDR-EA. The result showed an only supernatant crude extract of V. salarius showed antibacterial activity against the MDR-EA bacterium. The minimal crude extract concentration to inhibit the growth of MDR-EA was 60 µg/mL. Meanwhile, the best concentration for exhibiting antibacterial activity was 500 µg/mL with a zone of inhibition (ZOI) diameter of 11.77 ± 0.8730 mm. Thus, supernatant should be the main source of crude extract production rather than the pellet to get high antibacterial activity.
##plugins.themes.bootstrap3.article.details##
Ayuningrum D, Liu Y, Riyanti, Sibero MT, Kristiana R, Asagabaldan MA, Wuisan, ZG, Trianto A, Radjasa OK, Sabdono A, Schaeberle TF. 2019. Tunicate-associated bacteria show a great potential for the discovery of antimicrobial compounds. PLoS ONE 14(3): e0213797. https://doi.org/10.1371/journal.pone.0213797
Biendo M, Canarelli B, Thomas D, Rousseau F, Hamdad F, Adjide C, Lauras G, Eb F. 2008. Successive emergence of extended spectrum ? lactamase-producing and carbapenemase-producing Enterobacter aerogenes isolates in a university hospital. J. Clin. Microbiol 46 (3): 1037 – 1044.
Cornejo-Juarez P, Compte DV, Perez-Jimenez C, Namendys-Silva SA, Sandoval-Hernandez S, Volkow-Fernandez P. 2015. The impact of hospital-acquired infections with multidrug-resistant bacteria in an oncology intensive care unit. Inter. J. Infect. Diseases 31: 31 – 34.
Harborne JB. 1987. Metode Fitokimia,diterjemahkan oleh Kosasih Padmawinata dan Iwang Soediro, Penerbit ITB. Bandung.
Hoeksema B. 2015. Pavona decussata (Dana, 1846). Accessed through: World Register of Marine Species at http://www.marinespecies.org/aphia.php?p=taxdetails&id=207320 on 2016-08-02
Kelley R. 2009. The Indo Pacific Coral Finder. Australia: Russel Kelley publishing
Khan HA, Ahmad A. Mehboob R. 2015. Nosocomial infections and their control strategies. Asian Pac. J. Trop. Biomed 5(7): 509 – 514.
Kristiana R, Bedoux G, Pals G, Mudianta, Taupin L, Marty C, Asagabaldan MA, Ayuningum D, Trianto A, Bourgougnon N, Radjasa OK, Sabdono A. 2019. Bioactivity of compounds secreted by symbiont bacteria of Nudibranchs from Indonesia. https://doi.org/10.7287/peerj.preprints.27745v1.
Kuang W, Li J, Zhang S, Long L. 2015. Diversity and distribution of bacteria associated with reef coral Porites lutea. Front. Microbiol. 6: 1094 https://doi.org/10.3389/fmicb.2015.01094
Lu P, Liu Y, Toh H, Lee Y, Liu Y, Ho C, Huang C, Liu C, Ko W, Wang J, Tan H, Yu K, Chen Y, Chuang Y, Xu Y, Ni Y, Chen Y, Hsueh P. 2012. Epidemology and antimicrobial susceptibility profiles of gram negative bacteria causing urinary tract infections in the Asia-Pasific region: 2009 – 2010 results from the study for monitoring antimicrobial resistance trends (SMART). Int. J. Antimicrobiol. Agents 40S1: S37 – S43.
Munasik, Ambariyanto, Sabdono A, Wijayanti DP, Radjasa OK, Pribadi R. 2012. Sebaran Spasial Karang Keras (Scleractinia) di Pulau Panjang, Jawa Tengah. Buletin Oseanografi Marina (1): 16 – 24
National Institutes of Allergy and Infectious Diseases (NIAID). 2011. Antimicrobial (Drug) Resistance Causes. [Diakses di http://www.niaid.nih.gov/topics/antimicrobialresistance/understanding/pages/causes.aspx pada 8 Mei 2016 pukul 20:22 WIB].
Radjasa OK, Wiese J, Sabdono A, Imhoff JF. 2008. Corals as source of bacteria with antimicrobial activity. Jounal of Coastal Development : 121 - 130.
Rosenberg E, Gobhna U. 2011. Beneficial Microorganisms in Multicellular Life Forms. Springer-Verlag Berlin Heidelberg. DOI 10.1007/978-3-642-21680-0_9
Setiyono E, Heriyanto, Pringgenies D, Shioi Y, Kanesaki Y, Awai K, Brotosudarmo THP. 2019. Sulfur-containing carotenoids from a marine coral symbiont Erythrobacter flavus strain KJ5. Mar.drugs. 17, 349. doi:10.3390/md17060349
Suharsono. 2008. Jenis – jenis karang di Indonesia. Jakarta: LIPI Press.
Suwantarat N. Carroll KC. 2016. Epidemology and mlecular characterization of multidrug-resistant Gram-Negative bacteris in Southeast Asia. Antimicrob. Resistant Infec. Control, 5: 15.
Sweet MJ, Croquer A. Bythell. 2010. Bacterial assemblages differ between compartments within the coral holobiont. Springer. DOI: 10.1007/s00338-010-0695-1
Veron JEN. 2000. CORALS of the World. Townsville, MC, Australia: Australian Institute of Marine Science.
Wardhani LK. Sulistyani N. 2012. Uji aktivitas antibakteri ekstrak etil asetat daun binahong (Anredera scandens (L.) Moq.) terhadap Shigella flexneri beserta profil kromatografi lapis tipis. Jurnal Ilmiah Kefarmasian 2 (1): 1 - 16.
Wegley L, Edwards R, Rodriguez-Brito B, Liu H, Rohwer F. 2007. Metagenomic analysis of the microbial community associated with the coral Porites astreoides. Environ Microbiol. 9:27, 07–19. DOI: 10.1111/j.1462-2920.2007.01383.x
Yoghiapiscessa D. Batubara I. Wahyudi AT. 2016. Antimicrobial and Antioxidant Activities of Bacterial Extracts from Marine Bacteria Associated with Sponge Stylotella sp. American J. Biochem & Biotech 12 (1): 36 – 46