7 research outputs found
In vitro antileishmanial, antiplasmodial and cytotoxic activities of a new ventiloquinone and five known triterpenes from Parinari excelsa
Context: Parinari excelsa Sabine (Chrysobalanaceae) is an indigenous tree from West and Eastern Africa. This tree is used in Ivory Coast as an antimalaria remedy. Objective: The in vitro antiplasmodial and antileishmanial activities of the stem bark, the leaf and the major compounds from the stem bark were investigated. Materials and methods: The leaves and stem bark from P. excelsa were separately collected, air-dried and powdered. Two extracts (methylene chloride and methanol) were realized for both powders. Every extract was tested for its antiplasmodial and antileishmanial activities. Only the stem bark crude extracts were fractionated by column chromatography and their major components were analyzed by NMR, HRESIMS and IR methods. The compounds were tested for their antiplasmodial and antileishmanial activities. Results: The comparison of the IC(50) values of the crude extracts were in this ordrer: 3.41 (IC(50) of PeBMc) >4.10 (IC(50) of PeBMc) >4.42 (IC(50) of PeLMe) against P. falciparum and 5.19 (IC(50) of PeBMc) >12.32 (IC(50) of PeBMe) >19.33 (IC(50) of PeLMc) >32.37 (IC(50) of PeLMe) against L. donovani. The stem bark crude extracts were the most active against both parasites. Their fractionation leaded to a new ventiloquinone, five triterpenes and one chlorogenic acid. All these compounds were isolated for the first time from P. excelsa. High activities were observed with (3beta)-3-hydroxyolean-12-en-28-oic acid (IC(50) = 8.2 microM) and 3beta-hydroxyolean-5,12-dien-28-oic acid (IC(50) = 7.7 microM) against L. donovani. With the antiplasmodial activity, the best activity was observed with 16beta-hydroxylupane-1,20(29)-dien-3-one (IC(50) = 28.3 microM). Discussion and conclusion: These findings demonstrated that the constituents of P. excelsa stem bark have in vitro antiplasmodial and antileishmanial activitie
Linear diterpenes from the marine brown alga Bifurcaria bifurcata: a chemical perspective
International audienceno abstrac
Seaweed extracts as antimicrobial agents in aquaculture
Author's accepted version (post-print).The final publication is available at Springer via http://dx.doi.org/10.1007/s10811-014-0506-0.In the last 20 years, there has been an increasing interest in using various seaweed extracts as prophylactic and/or therapeutic agents in aquaculture. Up until now, most studies on the direct antimicrobial effect of seaweeds have taken place in various parts of Asia, particularly in India. All groups of seaweeds exhibit significant antimicrobial properties against many infectious agents of fish and shrimp, but the genera that appear to exhibit a broader range of antibacterial properties are Asparagopsis spp. (red seaweed) and Sargassum spp. (brown seaweed). The activity can be affected by many factors and the method of extraction is one of the most important ones, as the extracts that are produced using organic solvents appear more efficient. In fish, almost all published information on bacterial pathogens comes from in vitro screenings, where extracts of different seaweed species were tested against many bacterial species. On the other hand, in shrimp, the studies have been focusing on the antimicrobial effects of seaweed extracts mainly against many Vibrio species. Regarding the viral pathogens, in fish, there is only one published study on fish viruses (IHNV and IPNV), while in shrimp there are many studies on WSSV. There are only two published studies on fish parasites (Ichthyophonus hoferi and Neobendenia spp.) and no studies on pathogenic fish and shrimp fungi. Interestingly, there are no published studies on salmons and carps, the main fish species that are extensively farmed. When the antimicrobial properties were studied in vivo, the seaweed extracts were either incorporated directly in the feeds (dry or live) or added directly into the water in which the fish and shrimp were reared. In the last case, the water-soluble antimicrobial seaweed substances affected the communication between the bacterial pathogens, rather than their growth. The development of parasites was also affected. In addition, one study indicated that short-term immersion of shrimp in seaweed extracts appeared to have a therapeutic effect against Vibrio parahaemolyticus. On the other hand, incorporation of the extracts into the feeds appeared to be an effective delivery method for the prevention and treatment of different infectious diseases. Up until now, there are no complete studies on the pharmacodynamics and pharmacokinetics of seaweed extracts in fish or shrimp. However, the findings indicate that they can reduce the bacterial load within the tissues. Another issue that has not been examined yet is the applicability of using these extracts on a commercial scale. Currently, the increased extraction cost inhibits the extensive use of these extracts. Other methodologies, such the production of synthetic analogues with similar properties, may decrease the production cost. Based on the published studies, seaweed extracts exhibit promising antimicrobial properties, but further research is needed before the complete potential of seaweed extracts is assessed