Abstract
In the Brazilian Amazon, there is a significant occurrence of snake bites, predominated by Bothrops atrox. Tissue damage is one of the hallmarks in B. atrox envenoming. Interestingly, many snakebites patients have a delayed onset of blistering with a concomitant increase of the risk of infections. We hypothesize that blister fluid may represent a window into the pathophysiology at the injured tissues. In this study, we examined blister fluid by proteomics from 5 patients hospitalized with B. atrox envenomation, who were successfully treated with antivenom with no long-lasting effects nor morbidities. The proteomic data of the blister fluids correlated with previous blister fluid studies showing the presence of DAMPs and immunomodulators. The blister composition was observed to be similar among the patients regardless of the clinical severity of envenomation. An unprecedented additional finding was that we identified venom and antivenom proteins in the bite site by ELISA. Venom was quantified in the fluid a significant time after envenommation (up to135 hours), suggesting a slow clearance of venom at the site of bite, which might have influence on local tissue well after the time of envenomation. Antibodies from the administered antivenom identified in the blister fluids were shown capable of binding venom proteins by Western blotting. Thus, blister fluid antibodies should be capable of neutralizing the any venom components in the fluid. Taken together, these findings suggest that although blistering is a delayed phenomenon of envenomation, its likely pathophysiological origins occur in advance of antivenom administration and venom neutralization at the site of envenomation and continues despite the eventual neutralization of venom. This evidence confirms previous reports that the early events in envenomation pathophysiology give rise to endogenous factors that over time, contribute to the development of blisters which are not attenuated even by prompt antivenom administration.
Highlights
In Brazil, the northern states present the highest prevalence of snakebite
Inflammatory reactions play an important role in the onset of local tissue damage; and one of the major components of B. atrox venom responsible for blister formation are the snake venom metalloproteinases (SVMPs)
An unprecedented additional finding was that we identified venom (Figure 3A) and antivenom proteins (Figure 3B) in the bite site by ELISA
Summary
In Brazil, the northern states present the highest prevalence of snakebite. Bothrops atrox is the species responsible for the majority of snakebites, which consists in an economic impact. The local symptoms (edema, necrosis, inflammation, tissue damage and blistering) are partially responsible for this impact. Inflammatory reactions play an important role in the onset of local tissue damage; and one of the major components of B. atrox venom responsible for blister formation are the snake venom metalloproteinases (SVMPs). SVMPs are responsible for hemorrhagic effect and is correlated with ability to degrade ECM components. These fragments may potentially act as immunomodulator and Damage-Associated Molecular Patterns (DAMPs), increasing the inflammatory response. Is not effective in preventing the initial damage trigged by the venom toxins, and we observed the worsening of tissue damage at the site of bite
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