Abstract
Shock with B. anthracis infection is particularly resistant to conventional cardiovascular support and its mortality rate appears higher than with more common bacterial pathogens. As opposed to many bacteria that lack exotoxins directly depressing hemodynamic function, lethal and edema toxin (LT and ET respectively) both cause shock and likely contribute to the high lethality rate with B. anthracis. Selective inhibition of the toxins is protective in infection models, and administration of either toxin alone in animals produces hypotension with accompanying organ injury and lethality. Shock during infection is typically due to one of two mechanisms: (i) intravascular volume depletion related to disruption of endothelial barrier function; and (ii) extravasation of fluid and/or maladaptive dilation of peripheral resistance arteries. Although some data suggests that LT can produce myocardial dysfunction, growing evidence demonstrates that it may also interfere with endothelial integrity thereby contributing to the extravasation of fluid that helps characterize severe B. anthracis infection. Edema toxin, on the other hand, while known to produce localized tissue edema when injected subcutaneously, has potent vascular relaxant effects that could lead to pathologic arterial dilation. This review will examine recent data supporting a role for these two pathophysiologic mechanisms underlying the shock LT and ET produce. Further research and a better understanding of these mechanisms may lead to improved management of B. anthracis in patients.
Highlights
Shock during invasive B. anthracis infection appears resistant to conventional cardiovascular support [1]
Increased levels of cAMP can activate cellular signaling through protein kinase A (PKA) and exchange protein activated by cAMP (Epac), inducing potential endothelial cytoskeletal changes and alterations in cardiac and vascular smooth muscle function [27,28]
While difficult to extrapolate clinically, these findings suggest that agents inhibiting both Lethal toxin (LT) and edema toxin (ET) would be most useful for limiting extravasation of fluid related to toxin release during infection
Summary
Shock during invasive B. anthracis infection appears resistant to conventional cardiovascular support [1]. 2009 UK outbreak in injection drug users was close to 70% despite patients receiving aggressive intensive care unit (ICU) support [2,3,4] This rate is considerably higher than the 40% mortality generally attributed to septic shock due to other bacteria types [5,6,7]. Consistent with this difference, lethality with B. anthracis relates to its properties as a gram-positive bacteria, with a highly bioactive cell wall, and to its production of lethal and edema toxins (LT and ET) [8,9]. This review will examine recent data supporting a role for these latter two pathophysiologic mechanisms in the shock LT and ET can produce
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