A new record of Paragonimus other than P. westermani in southern Thailand.

Field surveys of Paragonimus in Surat Thani Province, southern Thailand, revealed a new record of a lung fluke species other than P. westermani. The metacercariae were obtained from the crab, Ranguna smalleyi. The cysts of the metacercariae were spherical in shape and the larval body in the cysts contained pinkish granules. Fully mature adult worms were obtained from experimental infections with a rat and a ferret. The adult worms from the two host animals resembled each other, except for size, and had the anatomical characteristics of P. bangkokensis, ie the cuticular spines were arranged mainly in groups, the ovaries were highly branched, while the testes were more simply divided. Chromosomal preparations of the testes showed a haploid number of 11. As no sequence data of P. bangkokensis has been deposited in the GenBank/EMBL/DDBJ nucleotide database, the ITS2 region was sequenced using the metacercariae as starting material. A similarity search of P. bangkokensis ITS2 sequence using the BLAST program revealed that there was only one base difference between this population and P. harinasutai occurring in central Thailand. The result may suggest a close relationship between P. bangkokensis and P. harinasutai. This is the first description of Paragonimus species other than P. westermani occurring in southern Thailand.

Molecular discrimination between individual metacercariae of Paragonimus heterotremus and P. westermani occurring in Thailand.

To accurately discriminate between individual metacercariae of Paragonimus heterotremus and P. westermani occurring in Thailand, polymerase chain reaction (PCR)-based molecular methods were established and subjected to an evaluation. We first amplified and sequenced the second internal transcribed spacer (ITS2) region of the nuclear ribosomal DNA of the two species. Based on their nucleotide differences, P. heterotremus and P. westermani were unequivocally discriminated from each other. These nucleotide differences were further utilized to select the ApaL1 endonuclease site for PCR-restriction fragment length polymorphism (PCR-RFLP) analyses and to design species-specific primers for multiplex PCR reactions. Both PCR-RFLP and multiplex PCR methods allowed a more rapid and labor-effective species discrimination. Furthermore, the multiplex PCR method enabled the most efficient discrimination because species identification involved a single round of PCR in a single tube. In Thailand, P. heterotremus is the only species affecting humans. Thus, the methods established in the present study can be used as reliable tools to identify the lung fluke metacercariae that cause human disease.