News Release

The results are in: Bacterial parasite strives for balance in host infection

Peer-Reviewed Publication

PLOS

Daphnia Host Clones

image: Exposing Daphnia host clones to spores from the castrating bacterium Pasteuria ramosa provides experimental evidence that parasite fitness is maximized at intermediate levels of virulence. view more 

Credit: Jensen et al

When horror-movie writers run out of ideas, they can always turn to parasites. Imagine the possibilities with flesh-eating bacteria, suicide-inducing hairworms, scalp burrowing botflies--and castrating parasites. Such debilitating effects are an inevitable consequence of infection, but it is in the parasite's interest to avoid killing the host until it can transmit a new crop of pathogens. In the "tradeoff hypothesis" for the evolution of virulence--how quickly a parasite kills its host--host exploitation and parasite reproduction are balanced to maximize the parasite's lifetime transmission success. But lifetime transmission success, an indicator of parasite fitness, has proven difficult to measure, leaving scant direct evidence for an optimal level of virulence. In a new study, Knut Helge Jensen, Dieter Ebert, and colleagues now provide empirical evidence that such a trade-off exists.

The authors worked with water fleas (Daphnia magna) and the castrating bacterium Pasteuria ramosa to investigate the relationship between parasite fitness and virulence. Castrating parasites divert resources from host reproduction toward their own reproductive ends. In the case of P. ramosa, that means generating transmission-stage parasites, or spores. In keeping with the tradeoff hypothesis, the researchers predicted that the parasite should castrate early to optimize the appropriation of host resources, and produce intermediate levels of virulence to keep the host alive long enough to maximize spore production. To determine the relationship between virulence and lifetime production of transmission-stage parasites, the researchers exposed a Daphnia clone to bacterial spores and tracked individual host mortality. Infected Daphnia sustained far more casualties than either unexposed controls or exposed but uninfected individuals, with deaths beginning at 23 days old and ending at 74 days old. (The first control died at 96 days old.) Early host death (high virulence) was bad news for P. ramosa, since the parasite needs several weeks to produce spores. But it also didn't fare terribly well with a long-lived host (low virulence), suggesting that the bacteria in these hosts grew too slowly to reach the optimal time of killing. The highest spore production was detected in Daphnia expiring at middle age, likely reflecting the benefits of using host resources for spore production--which can be impressive. One clutch of host eggs corresponds to an estimated 4.5 million P. ramosa spores, according to a recent study. Because total spore production can be used as a proxy for parasite fitness, the researchers concluded that maximum parasite fitness derives from an intermediate level of virulence.

The correlation between an optimal level of virulence and parasite fitness may result from the strong tradeoff between host and parasite fitness, the researchers explain, which emerges as these adversaries battle for the resources needed for reproduction. This experimental evidence for the long-held assumption that parasite fitness directly relates to virulence has important implications for a wide range of virulence related phenomena. Estimating likely changes in parasite virulence is essential for formulating public health strategies to contain emerging parasitic diseases and for developing effective drugs and vaccines. In future studies, the researchers plan to investigate how selection pressures, such as those caused by drugs, influence parasite fitness and cause changes in virulence.

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Citation: Jensen KH, Little T, Skorping A, Ebert D (2006) Empirical support for optimal virulence in a castrating parasite. PLoS Biol 4(7): e197. DOI: 10.1371/journal.pbio. 0040197.

CONTACT: Knut Helge Jensen
University of Bergen
Allégaten 41
Bergen, N-5007, Norway
+47-55583598
knut.jensen@bio.uib.no

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