First insight into CD59-like molecules of adult Fasciola hepatica

• Published in: Experimental parasitology Vol. 144; pp. 57 - 64
• Main Authors: Shi, Yunliang, Toet, Hayley, Rathinasamy, Vignesh, Young, Neil D., Gasser, Robin B., Beddoe, Travis, Huang, Weiyi, Spithill, Terry W.
• Format: Journal Article
• Language: English
• Published: United States Elsevier Inc 01.09.2014
• Subjects: Adult fluke; Amino Acid Sequence; Animals; CD59 Antigens - chemistry; CD59 Antigens - genetics; CD59 Antigens - metabolism; CD59-like protein; DNA, Helminth - chemistry; DNA, Helminth - isolation & purification; Fasciola hepatica; Fasciola hepatica - classification; Fasciola hepatica - genetics; Fasciola hepatica - immunology; Humans; Ly6 orthologue; Models, Molecular; Newly excysted juvenile (NEJ); Phylogeny; Plasmids - genetics; Rats; Sequence Alignment; Sheep; Tegument proteins; Fasciola hepatica; CD59-like protein; Ly6 orthologue; Tegument proteins; Newly excysted juvenile (NEJ); Adult fluke
• ISSN: 0014-4894; 1090-2449
• DOI: 10.1016/j.exppara.2014.06.012

[Display omitted] •Three families of CD59-like sequences are expressed in adult F. hepatica.•The FhCD59-1 family consists of 7 sequences: FhCD59-1.1 to 1.7.•Two other families termed FhCD59-2 and FhCD59-3 were identified.•Orthologues of the FhCD59-like sequences were identified in seven other trematodes.•qPCR data showed expression of the FhCD59 sequences varied during fluke development. The present study focussed on investigating CD59-like molecules of Fasciola hepatica. A cDNA encoding a CD59-like protein (termed FhCD59-1) identified previously in the membrane fraction of the F. hepatica tegument was isolated. This homologue was shown to encode a predicted open reading frame (ORF) of 122 amino acids (aa) orthologous to human CD59 with a 25 aa signal peptide, a mature protein containing 10 cysteines and a conserved CD59/Ly-6 family motif “CCXXXXCN”. An analysis of cDNAs from two different adult specimens of F. hepatica revealed seven variable types of FhCD59-1 sequences, designated FhCD59-1.1 to FhCD59-1.7, which had 94.3–99.7% amino acid sequence identity upon pairwise comparison. Molecular modeling of FhCD59-1.1 with human CD59 confirmed the presence of the three-finger protein domain found in the CD59 family and predicted three disulphide bonds in the F. hepatica sequence. The interrogation of F. hepatica databases identified two additional sequences, designated FhCD59-2 and FhCD59-3, which had only 23.4–29.5% amino acid identity to FhCD59-1.1. Orthologues of the inferred CD59 protein sequences of F. hepatica were also identified in other flatworms, including Fasciola gigantica, Fascioloides magna, Schistosoma haematobium, Schistosoma japonicum, Schistosoma mansoni, Clonorchis sinensis, Opisthorchis viverrini, Taenia solium, Echinococcus granulosus and the free living Schmidtea mediterannea. The results revealed a considerable degree of sequence complexity in the CD59-like sequence families in F. hepatica and flatworms. Phylogenetic analysis of CD59-like aa sequences from F. hepatica and flatworms showed that FhCD59-2 clustered with the known surface-associated protein SmCD59-2 of S. mansoni. Relatively well-supported clades specific to schistosomes, fasciolids and opisthorchiids were identified. The qPCR analysis of gene transcription showed that the relative expression of these 3 FhCD59-like sequences varied by 11–47-fold during fluke maturation, from the newly excysted juvenile (NEJ) to the adult stage. These findings suggest that different FhCD59-like sequences play distinct roles during the development of F. hepatica.