Randall C. Bender scite author profile

In parallel with massive research efforts in human schistosomiasis over the past 30 years, persistent efforts have been made to understand the basis for compatibility and incompatibility in molluscan schistosomiasis. Snail plasma contains molecules that are toxic to trematodes, but these seem to kill only species that never parasitize the mollusc used as the source of plasma. A sporocyst will be killed actively by haemocytes alone if they are from a snail that is resistant to the trematode. Oxygen-dependent killing mechanisms play a major role. Enzymes such as NADPH oxidase, superoxide dismutase, myeloperoxidase and nitric oxide synthase are critical components of the putative killing pathways. Metabolic intermediates such as hydrogen peroxide and nitric oxide appear to be more important against trematodes than the shorter-lived intermediates that are more important in anti-microbial defences. Products secreted by trematode larvae influence the physiology of snail haemocytes, implying active counter-defences mounted by the parasite, but these remain largely unexplored. A possible molecular basis for the susceptibility/resistance dichotomy in molluscan schistosomiasis is suggested to be deficient forms of enzymes in the respiratory burst pathway, and a selective disadvantage for schistosome resistance is an integral component of this model.

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Biomphalaria glabrata cytosolic copper/zinc superoxide dismutase (SOD1) gene: Association of SOD1 alleles with resistance/susceptibility to Schistosoma mansoni

Goodall

Bender

Brooks

et al. 2006

Molecular and Biochemical Parasitology

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RESPIRATORY BURST OF BIOMPHALARIA GLABRATA HEMOCYTES: SCHISTOSOMA MANSONI–RESISTANT SNAILS PRODUCE MORE EXTRACELLULAR H₂O₂THAN SUSCEPTIBLE SNAILS

Bender

Broderick

Goodall

et al. 2005

Journal of Parasitology

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The production of reactive oxygen species by hemocytes from the gastropod Biomphalaria glabrata has been linked to their ability to kill the trematode parasite Schistosoma mansoni. For 2 laboratory strains of the snail, 1 resistant (13-16-R1) and 1 susceptible (MO) to the PR1 strain of S. mansoni, we compared hemocyte production of extracellular hydrogen peroxide when stimulated with the protein kinase C agonist phorbol myristate acetate (PMA). The time course of the PMA-induced response is similar in both strains with respect to onset, peak production, and termination of the respiratory burst. However, the magnitude of the response differs between strains, in that hemocytes from resistant snails generate significantly more hydrogen peroxide. These findings suggest that the capacity to produce hydrogen peroxide could be critical in determining susceptibility or resistance to S. mansoni.

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Production of reactive oxygen species by hemocytes of Biomphalaria glabrata: carbohydrate-specific stimulation

Hahn

Bender

Bayne

2000

Developmental & Comparative Immunology

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Killing of Schistosoma mansoni Sporocysts by Hemocytes from Resistant Biomphalaria glabrata: Role of Reactive Oxygen Species

Hahn¹,

Bender²,

Bayne³

2001

The Journal of Parasitology

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The fate of Schistosoma mansoni (Trematoda) sporocysts in its molluscan host Biomphalaria glabrata (Gastropoda) is determined by circulating phagocytes (hemocytes). When the parasite invades a resistant snail, it is attacked and destroyed by hemocytes, whereas in a susceptible host it remains unaffected. We used 3 inbred strains of B. glabrata: 13-16-R1 and 10-R2, which are resistant to the PR-1 strain of S. mansoni, and M-line Oregon (MO), which is susceptible to PR-1. In an in vitro killing assay using plasma-free hemocytes from these strains, the rate of parasite killing corresponded closely to the rate by which S. mansoni sporocysts are killed in vivo. Hemocytes from resistant snails killed more than 80% of S. mansoni sporocysts within 48 hr, whereas sporocyst mortality in the presence of hemocytes from susceptible snails was <10%. Using this in vitro assay, we assessed the involvement of reactive oxygen species (ROS) produced by resistant hemocytes, during killing of S. mansoni sporocysts. Inhibition of NADPH oxidase significantly reduced sporocyst killing by 13-16-R1 hemocytes, indicating that ROS play an important role in normal killing. Reduction of hydrogen peroxide (H2O2) by including catalase in the killing assay increased parasite viability. Reduction of superoxide (O2-), however, by addition of superoxide dismutase or scavenging of hydroxyl radicals (*OH) and hypochlorous acid (HOCl) by addition of hypotaurine did not alter the rate of sporocyst killing by resistant hemocytes. We conclude that H2O2 is the ROS mainly responsible for killing.

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Randall C. Bender

Mechanisms of molluscan host resistance and of parasite strategies for survival

Biomphalaria glabrata cytosolic copper/zinc superoxide dismutase (SOD1) gene: Association of SOD1 alleles with resistance/susceptibility to Schistosoma mansoni

RESPIRATORY BURST OF BIOMPHALARIA GLABRATA HEMOCYTES: SCHISTOSOMA MANSONI–RESISTANT SNAILS PRODUCE MORE EXTRACELLULAR H₂O₂THAN SUSCEPTIBLE SNAILS

Production of reactive oxygen species by hemocytes of Biomphalaria glabrata: carbohydrate-specific stimulation

Killing of Schistosoma mansoni Sporocysts by Hemocytes from Resistant Biomphalaria glabrata: Role of Reactive Oxygen Species

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Randall C. Bender

Mechanisms of molluscan host resistance and of parasite strategies for survival

Biomphalaria glabrata cytosolic copper/zinc superoxide dismutase (SOD1) gene: Association of SOD1 alleles with resistance/susceptibility to Schistosoma mansoni

RESPIRATORY BURST OF BIOMPHALARIA GLABRATA HEMOCYTES: SCHISTOSOMA MANSONI–RESISTANT SNAILS PRODUCE MORE EXTRACELLULAR H2O2THAN SUSCEPTIBLE SNAILS

Production of reactive oxygen species by hemocytes of Biomphalaria glabrata: carbohydrate-specific stimulation

Killing of Schistosoma mansoni Sporocysts by Hemocytes from Resistant Biomphalaria glabrata: Role of Reactive Oxygen Species

Contact Info

Product

Resources

About

RESPIRATORY BURST OF BIOMPHALARIA GLABRATA HEMOCYTES: SCHISTOSOMA MANSONI–RESISTANT SNAILS PRODUCE MORE EXTRACELLULAR H₂O₂THAN SUSCEPTIBLE SNAILS