Open-access Brain schistosomiasis in mice experimentally infected with Schistosoma mansoni

Abstract

Introduction  Human neuroschistosomiasis has been reported in the literature, but the possibility of modeling neuroschistosomiasis in mice is controversial.

Methods  In two research laboratories in Brazil that maintain the Schistosoma mansoni life cycle in rodents, two mice developed signs of brain disease (hemiplegia and spinning), and both were autopsied.

Results  S. mansoni eggs, both with and without granuloma formation, were observed in the brain and meninges of both mice by optical microscopy.

Conclusions  This is the first description of eggs in the brains of symptomatic mice that were experimentally infected with S. mansoni. An investigation of experimental neuroschistosomiasis is now feasible.

Schistosomiasis; Experimental neuroschistosomiasis; Brain schistosomiasis


The World Health Organization estimates that between 200 and 300 million people worldwide are infected with Schistosoma and that 800 million people are at risk of infection1. In Brazil, approximately 4 to 6 million people are infected with Schistosoma mansoni2.

Central nervous system (CNS) involvement in schistosomiasis can occur during acute primary infections1,2. Cerebral complications were reported in 2.3% of 1,200 cases of acute S. japonicum infection in soldiers in the Philippines in 1944 during World War II3. However, neurological complications generally occur during chronic hepatointestinal schistosomiasis4. In fact, autopsies conducted in endemic areas have identified Schistosoma species in up to 28% of the studied brains (4% with S. mansoni infection). In particular, Pitella et al.5 reported the presence of S. mansoni eggs in 25% of the brains of autopsied patients in Brazil who died from hepatosplenic schistosomiasis.

The clinical neurological manifestations of schistosomiasis are caused by an increase in intracranial pressure, and the focal signs are triggered by the masses produced by granulomas, depending on the site of the cerebral lesions. The initial signs and symptoms include headache, focal or generalized seizures, ataxia, nystagmus, nausea and vomiting, intracranial hypertension and neurological deficits6,7.

Aloe et al.8 described eggs, both with and without granuloma formation, in CD-1 mice infected with 60 S. mansoni cercariae (Puerto Rican strain). However, the mice did not present the signs or symptoms of brain disease. Additionally, Silva et al.9 observed very few eggs in the brains of small percentages of BALB/c, C57BL/6 and Swiss albino mice that were infected once or five times with 30-50 cercariae (Feira de Santana strain) and concluded that the model was not suitable for studying neuroschistosomiasis. Given these limited findings, we decided to further investigate murine neuroschistosomiasis. Our research question addressed whether S. mansoni-infected mice in our animal facilities would present the signs or symptoms of brain involvement, and if so, whether these signs and symptoms are correlated with the presence of eggs or granulomas in the brain.

Male and female Webster mice (2 or 18 months old) were obtained from our animal facility (Centro de Pesquisas René-Rachou, Belo Horizonte, Brazil) and maintained in our laboratory. The mice were subcutaneously inoculated with 50 S. mansoni cercariae (LE strain) isolated from Biomphalaria glabrata (Planorbidae) snails. Note that we routinely maintain approximately 100 infected mice in our laboratory10. Four months after infection, one mouse (#1) developed right hemiplegia, rendering survival unlikely.

A similar procedure was conducted in a laboratory in Bahia (Centro de Pesquisas Gonçalo Moniz-Fiocruz). Fifty BALB/c mice were infected with 50 S. mansoni cercariae (Feira de Santana strain) each, and 8 months after infection, one mouse (#2) also developed right hemiplegia and spinning.

The mice in both laboratories were sacrificed by cervical fracture after being anesthetized with pentobarbital. During the autopsies, the livers, lungs and brains were retrieved for examination. All of the animal procedures were approved by the local ethics committees for animal research.

The livers, lungs and brains that were obtained during the autopsies were fixed in 10% buffered formaldehyde. After 24 hours, the tissue fragments were embedded in paraffin, and 4-µm sections of the tissues were cut using a Spencer microtome. The tissue sections were then stained with hematoxylin and eosin (H&E) and examined by light microscopy.

Well-formed granulomas were frequently observed in the meninges (Figure 1). Additionally, eggs with miracidia surrounded by small granulomas (Figures 2 and 3) or without granuloma formation were observed in the brains of both mice. S. mansoni eggs were also identified in the livers and lungs of the mice. The granulomas were in the productive phase, with slight fibrosis, which suggested that the chronic phase of infection had already begun.

FIGURE 1
Mouse 2. A well-formed granuloma with numerous eosinophils. No Schistosoma mansoni eggs can be observed in this lesion (H&E, 400X).

FIGURE 2
Mouse 2. Two eggs containing miracidia and a small granuloma around the eggs (H&E, 400X).

FIGURE 3
Mouse 1. A perivascular Schistosoma mansoni egg containing a miracidium and surrounded by a small number of inflammatory cells in the brain (H&E, 400X).

For many years, we have observed evidence of brain disease (hemiplegia, spinning and urinary retention) in mice infected with Schistosoma mansoni, but these mice were considered to have other diseases, such as labyrinthitis or cerebral infections. As such, the mice were not considered to be useful for the experiments being conducted and were typically omitted from studies.

Recently, as we were studying human neuroschistosomiasis, we began to suspect that the manifestations in mice may be signs of brain involvement12,13. Surprisingly, Schistosoma mansoni eggs and granulomas were identified in the CNS of symptomatic animals. However, during autopsy, it was not possible to identify which areas of the brain were affected. Therefore, no neurological relationship between our microscopic findings and the clinical signs of cerebral involvement, such as hemiplegia and spinning, could be established in this study.

This preliminary report on spontaneous brain involvement in experimental murine schistosomiasis is intended to inform other investigators of the possibility of a mouse model of neuroschistosomiasis.

REFERENCES

  • 1 Chitsulo L, Engels D, Montresor A, Savioli L. The global status of schistosomiasis and its control.Acta Trop 2000; 77:41-51.
  • 2 Amaral RS, Tauil P, Lima DD, Engels, D. An analysis of the impact of the schistosomiasis control programme in Brazil.Mem Inst Oswaldo Cruz 2006; 101 (suppl I):79-85.
  • 3 Lambertucci JR. Schistosoma mansoni: pathological and clinical aspects. In: Jordan P, Webbe G, editors. Human Schistosomiasis. Wallingford, UK: Cab International; 1993. p. 195-225.
  • 4 Lambertucci JR. Acute schistosomiasis mansoni: revisited and reconsidered. Mem Inst Oswaldo Cruz 2010; 105:422-435.
  • 5 Kane CA, Most H. Schistosomiasis of the central nervous system; experiences in World War II and a review of the literature. Arch Neurol Psychiatry 1948; 59:141-183.
  • 6 Vale TC, Marques DP, Sousa-Pereira SR, Lambertucci JR. Schistosoma mansoni encephalomyelitis. Arch Neurol 2011; 68:1200-1201.
  • 7 Pittella JE, Lana-Peixoto MA. Brain involvement in hepatosplenic Schistosomiasis mansoni. Brain 1981; 104:621-632.
  • 8 Lambertucci JR, Serufo JC, Gerspacher-Lara R, Rayes AA, Teixeira R, Nobre V, et al. Schistosoma mansoni: assessment of morbidity before and after control. Acta Trop 2000; 77:101-109.
  • 9 Lambertucci JR, Voieta I, Silveira IS. Cerebral schistosomiasis mansoni. Rev Soc Bras Med Trop 2008; 41:693-694.
  • 10 Aloe L, Moroni R, Fiore M, Angelucci F. Chronic parasite infection in mice induces brain granulomas and differentially alters brain nerve growth factor levels and thermal responses in paws. Acta Neuropathol 1996; 92:300-305.
  • 11 Silva LM, Oliveira CN, Andrade ZA. Experimental neuroschistosomiasis: inadequacy of the murine model. Mem Inst Oswaldo Cruz 2002; 97:599-600.
  • 12 Mello RT, Barata CH, Coelho PM, Prata A. Influence of Schistosoma mansoni infection on the reproductive capacity of albino mice. Rev Soc Bras Med Trop 1998; 31:579-580.
  • 13 Lambertucci JR, Souza-Pereira SR, Carvalho TA. Simultaneous occurrence of brain tumor and myeloradiculopathy in schistosomiasis mansoni: case report. Rev Soc Bras Med Trop 2009; 42:338-41.
  • 14 Braga BP, Costa Junior LB, Lambertucci JR. Magnetic resonance imaging of cerebellar schistosomiasis mansoni. Rev Soc Bras Med Trop 2003; 36:635-636.
  • 15 Lambertucci JR, Silva LC, Amaral RS. Guidelines for the diagnosis and treatment of schistosomal myeloradiculopathy. Rev Soc Bras Med Trop 2007; 40:574-581.

Publication Dates

  • Publication in this collection
    12 Feb 2014
  • Date of issue
    20 May 2014

History

  • Received
    24 Apr 2013
  • Accepted
    14 Aug 2013
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