Anthelmintic activity of saikosaponins a and d from radix bupleuri against Dactylogyrus spp. infecting goldfish.

Disease caused by the parasitic helminths Dactylogyrus spp. results in significant economic damage to the aquaculture industry. Treatment using common chemicals (e.g. formalin) is usually dissatisfactory due to environmental problems, risk of residues, toxicity to fish, and the possibility of anthelmintic resistance. The search for an alternative drug is thus becoming more urgent. This study was designed to evaluate in vivo the anthelmintic efficacy of total saponin (TS), saikosaponin a (SSa), and saikosaponin d (SSd) from radix bupleuri (i.e. the dried root of Bupleurum sp.) based on our previous screening works, with the aim of determining which has commercial potential. Results showed that median effective concentration (EC50) values for TS, SSa, and SSd were 2.01, 1.46, and 0.74 mg l⁻¹, respectively. The acute toxicities against goldfish Carassius auratus for TS, SSa, and SSd were also determined, with median lethal concentration (LC50) of 8.99, 11.20, and 1.54 mg l-1, respectively. The resulting therapeutic indices (TIs) indicated that SSa (TI = 7.67) is a potential therapeutic agent for treating Dactylogyrus infection.

An analysis of the calcium-binding protein 1 of Fasciola gigantica with a comparison to its homologs in the phylum Platyhelminthes.

A full-length cDNA encoding the Fasciola gigantica calcium-binding protein 1 (FgCaBP1) was cloned from an adult stage cDNA expression library in an immunoscreen using rabbit immune serum against the parasite's excretion/secretion antigens. The deduced amino acid sequence showed 96.3% identity to Fh22CBP of Fasciola hepatica. During development in the mammalian host FgCaBP1 RNA was detected in metacercariae, juveniles and adults and was exclusively localized to the tegumental cell bodies. Immune serum of a rabbit infected with F. gigantica detected recombinant FgCaBP1 starting from the sixth week of infection. Immune sera of mice infected with Schistosoma mansoni and Schistosoma mekongi cross-reacted with recombinant FgCaBP1 in immunoblots. Recombinant FgCaBP1 showed calcium and magnesium-binding activity by a mobility shift during non-denaturing PAGE in the presence of Ca2+ or Mg2+, respectively. A polyclonal mouse anti-rFgCaBP1 antiserum detected the native protein as a major component of the parasite's tegumental antigens in immunoblots and as a strictly tegumental antigen in tissue cross-sections of adult and juvenile parasites. Comparative sequence analysis of homologs from Fasciola and Schistosoma present in the GenBank database revealed sequence signatures specific to these trematode proteins and thereby indicates their origin from a single ancestor. FgCaBP1 contains two adjacent, N-terminal located EF-hands and a C-terminal located domain similar to dynein light chain type 1. Independent structure predictions of the two domains suggest that they will fold according to the already determined structures of the EF-hand motif and the dynein light chain type 1 proteins.

The capsalidae (Monogenea: Monopisthocotylea): a review of diversity, classification and phylogeny with a note about species complexes.

The Capsalidae are monogeneans parasitizing 'skin', fins and gills of marine fishes. Some capsalids are pathogenic to cultivated fish and a few have caused epizootic events. It is a cosmopolitan family with broad host associations (elasmobranchs and teleosts, including sturgeons). Approximately 200 capsalid species are placed in nine subfamilies and 44-46 genera, some of which are well known (Benedenia, Capsala, Entobdella, Neobenedenia). Sturgeons host two capsalid species (Nitzschiinae) and 15 species in five genera are reliably reported from elasmobranchs. The combination of ancient (shark, ray, sturgeon) and modem (teleost) host fish lineages indicates that capsalid evolution is likely a blend of coevolution and host-switching, but a family phylogeny has been lacking due to deficient knowledge about homologies. The current phenetic subfamilial classification is discussed in detail using a preliminary phylogeny generated from large subunit ribosomal DNA sequence data from representatives of five subfamilies. Monophyly of the Capsalidae is supported by possession of accessory sclerites. Hypotheses are proposed for the possible radiation of capsalids. A suggestion that Neobenedenia melleni, a pathogenic species atypical due to its broad host-specificity (>100 host teleost species from >30 families in five orders), may be a complex of species is supported from genetic evidence. This may explain peculiarities in biology, taxonomy, host associations and geographic distribution of N. 'melleni' and has implications for fish health. Holistic studies using live and preserved larval and adult capsalid specimens and material for genetic analysis are emphasised to further determine identity, phylogeny and details of biology, especially for pathogenic species.