Changes on Schistosoma Mansoni (Digenea: Schistosomatidae) Worm

Changes on Schistosoma Mansoni (Digenea: Schistosomatidae) Worm

Mem Inst Oswaldo Cruz, Rio de Janeiro, Vol. 96, Suppl.: 193-198, 2001 193 Changes on Schistosoma mansoni (Digenea: Schistosomatidae) Worm Load in Nectomys squamipes (Rodentia: Sigmodontinae) Concurrently Infected with Echinostoma paraensei (Digenea: Echinostomatidae) Arnaldo Maldonado Júnior/+, Renata Coura, Juberlan da Silva Garcia, Reinalda Marisa Lanfredi*, Luis Rey Laboratório de Biologia e Controle da Esquistossomose, Departamento de Medicina Tropical, Instituto Oswaldo Cruz-Fiocruz, Av. Brasil 4365, 21045-900 Rio de Janeiro, RJ, Brasil *Laboratório de Helmintologia, Programa de Biologia Celular e Parasitologia, Instituto de Biofísica Carlos Filho, UFRJ, Rio de Janeiro, RJ, Brasil The water rat, Nectomys squamipes, closely involved in schistosomiasis transmission in Brazil, has been found naturally infected simultaneously by Schistosoma mansoni and Echinostoma paraensei. Laboratory experiments were conducted to verify parasitic interaction in concurrent infection. It was replicated four times with a total of 42 water rats and essayed two times with 90 mice pre-infected with E. paraensei. Rodents were divided into three groups in each replication. A wild strain recently isolated from Sumidouro, RJ, and a laboratory strain of S. mansoni from Belo Horizonte (BH) was used. Rats infected with E. paraensei were challenged 4 weeks later with S. mansoni and mice 2 or 6 weeks after the infection with S. mansoni. Necropsy took place 8 weeks following S. mansoni infection. The N. squamipes treatment groups challenged with S. mansoni RJ strain showed a significant decrease (80 and 65%) in the S. mansoni parasite load when compared with their respective control groups. There was a signifi- cant change or no change in the hosts challenged with the BH strain. The persistence time of E. paraensei within host was extended in relation to control groups, with a consequent enhancement of the number of recovered worm. An E. paraensei strain-specific influence on S. mansoni parasitism is reported. This paper presents some experimental data about this interaction in N. squamipes and Mus musculus. Key words: Nectomys squamipes - Schistosoma mansoni - Echinostoma paraensei - concurrent infection - heterologous interaction The co-existence of helminthes in vertebrate Huffman & Fried 1990). Some species develop their hosts has been extensively investigated. Simulta- larval stages in Biomphalaria glabrata snails, the neous infections of two or more helminthes spe- most important intermediate host of Schistosoma cies commonly occur in domestic animals and hu- mansoni in Brazil (Loker & Adema 1995). mans (Christensen et al. 1987). This raises the pos- Some experimental studies describe effects of sibility that one species may influence the trans- interactions between Echinostoma revolutum (syn- mission patterns or disease features caused by onym E. caproni) and S. mansoni in homologous another (Chamome et al. 1990, Chieffi 1992). or heterologous infection of definitive hosts. Mice The helminth genus Echinostoma (Digenea: pre-infected by E. revolutum showed decrease in Echinostomatidae) has a large geographic distri- natural resistance, with an increase of the S. bution due to their ability to parasitize a variety of mansoni load in experimental conditions invertebrate and vertebrate hosts (Yamaguti 1971, (Christensen et al. 1981, 1987). The parasitism of S. mansoni in a naturally in- fected population of water rat Nectomys squamipes in an endemic area (Sumidouro, RJ) was studied by D’Andrea et al. (2000). This rodent is closely in- volved in schistosomiasis transmission since it is a This work was supported in part by Fundação Oswaldo definitive host of S. mansoni (Rey 1993). N. Cruz-Papes, Faperj, CNPq, FUJB and Pronex. squamipes was also found naturally infected by E. +Corresponding author. Fax: + 55-21-2280-3740. E-mail: paraensei in Sumidouro (Maldonado Jr. et al. 2001), [email protected] after which this species has been maintained in labo- Received 14 May 2001 ratory conditions with a sympatric snail as the in- Accepted 25 July 2001 termediate host (Maldonado Jr. et al. 2001). 194 Changes on S. mansoni Worm Load Arnaldo Maldonado Júnior et al. E. paraensei was described by Lie and Basch trial) and 14 weeks (2nd trial). S. mansoni adult (1967) from naturally infected B. glabrata from Belo worms were recovered by perfusion of the hepatic Horizonte, Brazil. However, little is known about portal system (Pellegrino & Siqueira 1956), followed the relationship with its natural vertebrate host. In by collection of worms from the mesenteric veins. addition, no literature is available about the experi- As for E. paraensei, the worms were collected in mental infection by E. paraensei on his natural ro- pancreas and small intestine. The small intestine dent host and its concurrent helminth infection. was divided in five equal parts to allow evaluating This paper presents new information of con- the parasite’s distribution (Kaufman & Fried 1994). current infections in N. squamipes and Mus mus- Statistic analysis - The data were analyzed by culus by E. paraensei and S. mansoni. Knowledge Mann-Withney test; T test and variance analysis of this interaction could be useful to schistosomia- showed arithmetic mean. Values less than 0.05 (P < sis control programs, since the echinostome is able 0.05) were statically considered significant. to interfere in the S. mansoni ability to establish Experiments were performed according to the the parasitism. laws of the Ethical Commission of Animals Use of MATERIALS AND METHODS Fiocruz. Experimental group - Forty-two N. squamipes RESULTS reared in our laboratory animal house (D’Andrea et The N. squamipes pre-infected with E. para- al. 1996) representing both sexes and of about three ensei and later challenged by the S. mansoni wild months of age were used. Additionally, we used 90 strain showed a significant reduction in the estab- male albino mice (M. musculus - Swiss Webster), lishment of S. mansoni worm burdens of 65% in the weighing about 25 g , obtained from the Central 1st and 80% in the 2rd replicate (P < 0.05). An en- Animal House of Fiocruz. The experiment was re- largement of E. paraensei’s persistence time within peated four times with N. squamipes and twice the host occurred, with a consequent greater worm with the mice. Each replicate contained three treat- number of 150% and 300% (P < 0.05) when com- ment groups: two control groups (S. mansoni and pared to N. squamipes exposed to E. paraensei E. paraensei) and one experimental group (E. only. paraensei + S. mansoni = concurrent treatment). The N. squamipes and mice inoculated with the For N. squamipes, three specimens were used per laboratory strain of S. mansoni, showed no signifi- treatment in the 1st, 2nd and 4th replicates, and cant changes in the S. mansoni parasite load. On five specimens per treatment in the 3rd group. Fif- the contrary, in the 3rd replicate, N. squamipes teen mice were used for each treatment group. showed an increase of 64% of S. mansoni and 9.3% Experimental infection - For E. paraensei in- of E. paraensei. No change in the 4th replicate, in fection, animals of experimental and control groups relation to the S. mansoni control was observed were orally infected by a gastric probe with an (Fig. 1). inoculums of 50 and 25 metacercariae per rat and An enlargement of 28.5% of S. mansoni and mice, respectively. The E. paraensei used was iso- 100% of E. paraensei parasite burden was observed lated from naturally infected N. squamipes from in the 1st mice trial and a reduction of 92.3% of E. Sumidouro, RJ, and passed through sympatric B. paraensei was observed in the 2nd trial (Fig. 2). glabrata. The S. mansoni exposure was done four In N. squamipes, S. mansoni had a balanced weeks after E. paraensei exposure. Each experimen- sex ratio (1:1) for wild and laboratory strains. In tal and control animal was inoculated transcuta- mice, a male tendency was observed with a ratio of neously through the tail with about 500 (N. 2.1/1.0 and 1.2/1.0 in control and experimental treat- squamipes) and 100 (M. musculus) cercariae per ments groups of the 1st trail, respectively, and 2.2/ host. In the 1st and 2nd replicates with N. 1.0 and 1.0/1.0 in each treatment of the 2nd trial. squamipes we used a wild strain of S. mansoni The displacement of E. paraensei in the small from Sumidouro. However, the rats of 3rd and 4th intestine and pancreatic duct was also evaluated replicates and the mice were infected with a labora- tory strain of S. mansoni from Belo Horizonte, MG. (Table). A tendency for parasites to cluster in the This strain has been maintained in the laboratory duodenum and jejunum in both hosts was noticed. since 1985. Mice were challenged with S. mansoni However, worms were more aggregated in N. on the 2nd and 6th week after the first infection squamipes. All of them were found in the first part with E. paraensei. The water rats were lethally of the small intestine and pancreatic duct. In mice, anesthetized eight weeks after the challenge with worms were more dispersed throughout the small S. mansoni, a total of 12 weeks after the exposure intestine and a low percentage was noticed in pan- to E. paraensei, while mice were necropsied 10 (1st creatic duct (Table). Mem Inst Oswaldo Cruz, Rio de Janeiro, Vol. 96, Suppl., 2001 195 300 250 250 200 150 105 100 88 56 Worms recovered 50 34 38 38 21 12 2 53 009 0 0 1234 Replicates Fig. 1: mean number of adults of RJ strain (1st and 2nd replicates) and BH strain (3rd and 4th replicates) of Schistosoma mansoni and adults of Echinostoma paraensei (RJ strain) recovered from Nectomys squamipes. E. paraensei control treatment (black columns), E. paraenei concurrent treatment (white columns), S. mansoni control treatment (dot columns) and S. mansoni concurrent treatment (striped columns). Necropsies occurred 8 weeks after S.

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