Abstract
BackgroundSphaerospora molnari is a myxozoan parasite causing skin and gill sphaerosporosis in common carp (Cyprinus carpio) in central Europe. For most myxozoans, little is known about the early development and the expansion of the infection in the fish host, prior to spore formation. A major reason for this lack of information is the absence of laboratory model organisms, whose life-cycle stages are available throughout the year.ResultsWe have established a laboratory infection model for early proliferative stages of myxozoans, based on separation and intraperitoneal injection of motile and dividing S. molnari stages isolated from the blood of carp. In the present study we characterize the kinetics of the presporogonic development of S. molnari, while analyzing cellular host responses, cytokine and systemic immunoglobulin expression, over a 63-day period. Our study shows activation of innate immune responses followed by B cell-mediated immune responses. We observed rapid parasite efflux from the peritoneal cavity (< 40 hours), an initial covert infection period with a moderate proinflammatory response for about 1–2 weeks, followed by a period of parasite multiplication in the blood which peaked at 28 days post-infection (dpi) and was associated with a massive lymphocyte response. Our data further revealed a switch to a massive anti-inflammatory response (up to 1456-fold expression of il-10), a strong increase in the expression of IgM transcripts and increased number of IgM+ B lymphocytes, which produce specific antibodies for the elimination of most of the parasites from the fish at 35 dpi. However, despite the presence of these antibodies, S. molnari invades the liver 42 dpi, where an increase in parasite cell number and indistinguishable outer cell membranes are indicative of effective exploitation and disguise mechanisms. From 49 dpi onwards, the acute infection changes to a chronic one, with low parasite numbers remaining in the fish.ConclusionsTo our knowledge, this is the first time myxozoan early development and immune modulation mechanisms have been analyzed along with innate and adaptive immune responses of its fish host, in a controlled laboratory system. Our study adds important information on host–parasite interaction and co-evolutionary adaptation of early metazoans (Cnidaria) with basic vertebrate (fish) immune systems and the evolution of host adaptation and parasite immune evasion strategies.
Highlights
Sphaerospora molnari is a myxozoan parasite causing skin and gill sphaerosporosis in common carp (Cyprinus carpio) in central Europe
Our research model takes advantage of these blood stages and bypasses problems related to the development and spore maturation in the invertebrate host, by transferring the parasite via intraperitoneal injection from fish to fish, in a similar fashion as performed by Ibarra et al [18, 19] for the myxozoan Ceratonova shasta, using parasite stages obtained from ascites of infected fish
At 21 dpi, all fish tested S. molnari-positive by qPCR and by microscopy
Summary
Sphaerospora molnari is a myxozoan parasite causing skin and gill sphaerosporosis in common carp (Cyprinus carpio) in central Europe. Since the initial encounter of myxozoans with fish approximately 440 Mya, these two groups co-diversified and co-evolved by continuous adaptation of immune responses and evasion strategies. This possibly contributed to the reduced antagonism of the parasite [5], explaining why out of the approximately 2500 described myxozoan species, only a small percentage are represented by serious pathogens [6]. The highest severity of the diseases is observed in newly acquired species, which do not have a common history with the parasite With this regard, it is noteworthy that the proliferation and disease severity of myxozoans has been linked to increasing water temperature and epidemical models predict spread of disease and major outbreaks as a result of climate change [7, 8]. Concentrated efforts have resulted in significant advances in our understanding of the biology, transmission and pathogenicity of these parasites, detailed knowledge about host–parasite interaction throughout disease progression, and the ability of the host’s immune system to eliminate the parasite and protect from re-infection is still limited [9]
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