Abstract
Yersinia pestis is the causative agent of pneumonic plague, a disease involving uncontrolled bacterial growth and host immunopathology. Secondary septicemic plague commonly occurs as a consequence of the host inflammatory response that causes vasodilation and vascular leakage, which facilitates systemic spread of the bacteria and the colonization of secondary tissues. The mortality rates of pneumonic and septicemic plague are high even when antibiotics are administered. In this work, we show that primary pneumonic or secondary septicemic plague can be preferentially modeled in mice by varying the volume used for intranasal delivery of Y. pestis. Low volume intranasal challenge (10μL) of wild type Y. pestis resulted in a high frequency of lethal secondary septicemic plague, with a low degree of primary lung infection and rapid development of sepsis. In contrast, high volume intranasal challenge (30μL) yielded uniform early lung infection and primary disease and a significant increase in lethality. In a commonly used BSL2 model, high volume challenge with Y. pestis lacking the pigmentation locus (pgm-) gave 105-fold greater deposition compared to low volume challenge, yet moribund mice did not develop severe lung disease and there was no detectable difference in lethality. These data indicate the primary cause of death of mice in the BSL2 model is sepsis regardless of intranasal dosing method. Overall, these findings allow for the preferential modeling of pneumonic or septicemic plague by intranasal dosing of mice with Y. pestis.
Highlights
Yersinia pestis has caused three pandemics, manifesting as bubonic, pneumonic and septicemic plague
Yersinia pestis strains were routinely grown fresh from frozen stock by streaking for isolation onto heart infusion agar (HIA) plates with ampicillin or HIA plates supplemented with 0.005% (w/v) Congo Red and 0.2% (w/v) galactose to verify retention of the pigmentation locus [15, 24,25,26]
Retention in the upper respiratory tract that results from low volume intranasal instillation leads to a high frequency of secondary septicemic plague, with multi-organ failure as evidenced by severe hepatocyte necrosis and elevation of cytokines and liver enzymes in the serum in mice as they succumb to infection
Summary
Yersinia pestis has caused three pandemics, manifesting as bubonic, pneumonic and septicemic plague. Plague is usually a flea-borne disease and can occur in most mammals. Important flea-rodent transmission cycles are responsible for maintaining Y. pestis in areas throughout the world, and many years can pass between recognized human or animal outbreaks [1]. Secondary septicemia progresses rapidly to lethality due to disseminated vascular coagulation, acute respiratory distress syndrome, and multi-organ failure [2]. Antibiotic treatment of bubonic plague is usually successful, the mortality rate of pneumonic and septicemic plague is high [3]. Multi-drug resistant Y. pestis strains have been isolated from plague patients and are believed to evolve naturally in the flearodent enzootic cycle [6,7,8,9]
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