Composition and biological activities of the aqueous extracts of three scleractinian corals from the Mexican Caribbean: Pseudodiploria strigosa, Porites astreoides and Siderastrea siderea

Scleractinian corals (stony corals) are the most abundant reef-forming cnidarians found in coral reefs throughout the world. Despite their abundance and ecological importance, information about the diversity of their toxins and their biological activities is very scarce. In this study, the chemical composition and the biological activities of the aqueous extracts of Pseudodiploria strigosa, Porites astreoides and Siderastrea siderea, three scleractinian corals from the Mexican Caribbean, have been assessed for the first time. Methods: Toxicity of the extracts was assessed in crickets; the presence of cytolysins was detected by the hemolysis assay; the vasoconstrictor activity was determined by the isolated rat aortic ring assay; the nociceptive activity was evaluated by the formalin test. The presence of phospholipases A2 (PLA2), serine proteases, and hyaluronidases was determined by enzymatic methods. Low-molecular-weight fractions were obtained by gel filtration chromatography and ultrafiltration. Results: Extracts from the three species were toxic to crickets, induced hemolysis in human and rat erythrocytes, produced vasoconstriction on isolated rat aortic rings, and presented phospholipase A2 and serine-protease activity. Despite the fact that these corals are not considered to be harmless to humans, the extracts generated significant nociceptive responses. The matrix-assisted laser desorption/ionization time-of-flight (MALDI-TOF) mass spectrometry analysis of the low-molecular-weight fractions revealed the presence of peptides within a mass range of 3000 to 6000 Da. These fractions were toxic to crickets and two of them induced a transitory vasoconstrictor effect on isolated rat aortic rings. Conclusion: This study suggests that scleractinian corals produce low-molecular-weight peptides that are lethal to crickets and induce vasoconstriction.

Composition and biological activities of the aqueous extracts of three scleractinian corals from the Mexican Caribbean: Pseudodiploria strigosa, Porites astreoides and Siderastrea siderea

Background: Scleractinian corals (stony corals) are the most abundant reef-forming cnidarians found in coral reefs throughout the world. Despite their abundance and ecological importance, information about the diversity of their toxins and their biological activities is very scarce. In this study, the chemical composition and the biological activities of the aqueous extracts of Pseudodiploria strigosa, Porites astreoides and Siderastrea siderea, three scleractinian corals from the Mexican Caribbean, have been assessed for the first time. Methods: Toxicity of the extracts was assessed in crickets; the presence of cytolysins was detected by the hemolysis assay; the vasoconstrictor activity was determined by the isolated rat aortic ring assay; the nociceptive activity was evaluated by the formalin test. The presence of phospholipases A2 (PLA2), serine proteases, and hyaluronidases was determined by enzymatic methods. Low-molecular-weight fractions were obtained by gel filtration chromatography and ultrafiltration. Results: Extracts from the three species were toxic to crickets, induced hemolysis in human and rat erythrocytes, produced vasoconstriction on isolated rat aortic rings, and presented phospholipase A2 and serine-protease activity. Despite the fact that these corals are not considered to be harmless to humans, the extracts generated significant nociceptive responses. The matrix-assisted laser desorption/ionization time-of-flight (MALDI-TOF) mass spectrometry analysis of the low-molecular-weight fractions revealed the presence of peptides within a mass range of 3000 to 6000 Da. These fractions were toxic to crickets and two of them induced a transitory vasoconstrictor effect on isolated rat aortic rings. Conclusion: This study suggests that scleractinian corals produce low-molecular-weight peptides that are lethal to crickets and induce vasoconstriction.(AU)

Efecto de la herbivoría y coralivoría por peces en la supervivencia de corales trasplantados en el Caribe colombiano

Effect of herbivorous and corallivorous fishes on the survival of transplanted corals in the Colombian Caribbean. To examine the effects of herbivorous and corallivorous fishes on the survival of transplanted colonies of Montastraea annularis, Diploria labyrinthiformis and Porites astreoides, both transplanted and native colonies were full-cage enclosed and compared to open (uncaged) colonies, while caging effects were assessed with a partial-cage (roof treatment). To evaluate if transplant stress increased the corals availability to fish predation, comparisons of fish foraging intensity among transplanted versus native colonies were made. To determine the density of herbivorous and corallivorous fishes on the transplants area visual censuses were made. The transient herbivorous fishes (Scaridae and Acanthuridae) were the most abundant fishes, and the corallivorous fishes (mainly Chaetodontidae) were the scarcest. A negative effect of territorial herbivorous fishes on M. annularis transplants survival was observed, mainly early on the study. Fish foraging intensity was similar on transplanted and native colonies, but differed among coral species, being lowest on D. labyrinthiformis. Fast macroalgal growth inside full-cages due to reduced fish grazing was observed. This caused partial bleaching and partial mortality in some colonies, mainly of P. astreoides. No significant difference in healthy tissue percentages among full-cage and uncaged colonies on M. annularis and D. labyrinthiformis was found, while in P. astreoides there were evident differences. The results indicate a damselfish negative effect on transplants survival early on the study, which can change depending on the fish and coral species involved. Results also indicate a fish grazing positive effect, caused by the reduction of coral-algae competition pressure, mainly on P. astreoides. Parrotfishes seem to affect corals survival both negatively through direct biting, and positively by controlling algal growth. Overall, coral transplant success was almost unaffected by fish foraging activity although several differences among coral species were obvious in relation to colony shape. Additionally, the interaction among herbivorous fish grazing and coral-algae competition balance appear important in determining transplant survival. Rev. Biol. Trop. 55 (3-4): 825-837. Epub 2007 December, 28.

Para investigar el efecto de los peces herbívoros y coralívoros en la supervivencia de colonias trasplantadas de Montastraea annularis, Diploria labyrinthiformis y Porites astreoides se encerraron colonias trasplantadas y nativas en jaulas y se compararon con colonias libres (control), mientras los efectos del encierro fueron evaluados con un tratamiento de techos. Para saber si el estrés debido al trasplante aumentó la vulnerabilidad de los corales a la depredación por peces, se comparó la intensidad de forrajeo por peces entre colonias trasplantadas y nativas. Se realizaron censos visuales para determinar las densidades de las poblaciones de peces herbívoros y coralívoros en la zona de trasplante. Los peces herbívoros móviles (Scaridae y Acanthuridae) fueron los más abundantes, los peces coralívoros (principalmente Chaetodontidae) fueron los más escasos. Se observó un efecto negativo de los peces herbívoros territoriales en la supervivencia de los trasplantes de M. annularis, principalmente al inicio del estudio. La presión de forrajeo fue similar en colonias trasplantadas y nativas, pero fue diferente entre especies, siendo D. labyrinthiformis la menos depredada. En los tratamientos de colonias protegidas en jaulas se observó un crecimiento acelerado de macroalgas debido a la reducción del forrajeo por peces herbívoros. Esto causó blanqueamiento parcial y mortalidad parcial en algunas colonias, principalmente de P. astreoides. En M. annularis y D. labyrinthiformis no se observaron diferencias significativas en los porcentajes de tejido sano de las colonias entre los tratamientos de jaulas y de control, pero sí en P. astreoides. Los resultados sugieren un efecto negativo de los peces herbívoros territoriales en la supervivencia de las colonias durante los primeros días del trasplante; este efecto puede variar dependiendo de las especies de peces y corales involucradas. Los resultados también indican un efecto positivo del forrajeo por peces, debido a la reducción de la presión competitiva alga-coral, sobretodo en P. astreoides. Los scáridos parecen afectar la supervivencia de los corales tanto de manera negativa, al morder en el tejido vivo, como de manera positiva al controlar el crecimiento de las macroalgas. En general, el éxito del transplante de coral fue poco afectado por la actividad de forrajeo de los peces, aunque algunas diferencias entre las especies de coral parecen estar relacionadas con la forma de las colonias. La interacción entre el forrajeo de peces hervíboros y el balance competitivo alga-coral puede ser importante en determinar la supervivencia al transplante.