Bioinformatics-Guided Identification and Quantification of Biomarkers of Crotalus atrox Envenoming and Its Neutralization by Antivenom

Authors

Auwal A. Bala, The University of Texas Rio Grande Valley
Anas Bedraoui
Salim El Mejjad
Nicholas K. Willard
Joseph D. Hatcher, Texas A & M University - Kingsville
Anton Iliuk
Joanne E. Curran, The University of Texas Rio Grande ValleyFollow
Elda E. Sanchez, Texas A & M University - Kingsville
Montamas Suntravat, Texas A&M University-Kingsville
Emelyn Salazar, Texas A & M University - Kingsville
Rachid El Fatimy
Tariq Daouda
Jacob Galan, The University of Texas Rio Grande ValleyFollow

Document Type

Article

Publication Date

5-2025

Abstract

Quantitative mass spectrometry-based proteomics of extracellular vesicles (EVs) provides systems-level exploration for the analysis of snakebite envenoming (SBE) as the venom progresses, causing injuries such as hemorrhage, trauma, and death. Predicting EV biomarkers has become an essential aspect of this process, offering an avenue to explore the specific pathophysiological changes that occur after envenoming. As new omics approaches emerge to advance our understanding of SBE, further bioinformatics analyses are warranted to incorporate the use of antivenom or other therapeutics to observe their global impact on various biological processes. Herein, we used an in vivo BALB/c mouse model and proteomics approach to analyze the physiological impacts of SBE and antivenom neutralization in intact animals; this was followed by bioinformatics methods to predict potential EV biomarkers. Groups of mice (n = 5) were intramuscularly injected with Saline or Crotalus atrox venom. After 30 min, the mice received saline or antivenom (Antivipmyn) by intravenous injection. After 24 h, blood was collected to extract the plasma to analyze the EV content and determine the exposome of C. atrox venom as well as the neutralizing capabilities of the antivenom. The predicted biomarkers consistently and significantly sensitive to antivenom treatment are Slc25a4, Rps8, Akr1c6, Naa10, Sult1d1, Hadha, Mbl2, Zc3hav, Tgfb1, Prxl2a, Coro1c, Tnni1, Ryr3, C8b, Mycbp, and Cfhr4. These biomarkers pointed toward specific physiological alterations, causing significant metabolic changes in mitochondrial homeostasis, lipid metabolism, immunity, and cytolysis, indicating hallmarks of traumatic injury. Here, we present a more comprehensive view of murine plasma EV proteome and further identify significant changes in abundance for potential biomarkers associated with antivenom treatment. The predicted biomarkers have the potential to enhance current diagnostic tools for snakebite management, thereby contributing significantly to the evolution of treatment strategies in the diagnosis and prognosis of SBE.

Comments

http://creativecommons.org/licenses/by/4.0/

Recommended Citation

Bala, A. A., Bedraoui, A., El Mejjad, S., Willard, N. K., Hatcher, J. D., Iliuk, A., ... & Galan, J. A. (2025). Bioinformatics-Guided Identification and Quantification of Biomarkers of Crotalus atrox Envenoming and Its Neutralization by Antivenom. Molecular & Cellular Proteomics, 100956. https://doi.org/10.1016/j.mcpro.2025.100956

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

Publication Title

Molecular & Cellular Proteomics

DOI

10.1016/j.mcpro.2025.100956

Academic Level

faculty

Mentor/PI Department

Office of Human Genetics