Immunomodulatory and antioxidant properties of Sarcophaga argyrostoma larval hemolymph: utilizing the Biomphalaria alexandrina snail as a model

Author:

Mashaal AlyaORCID,Abo Elqasem Asmaa A.ORCID,Abou El-Khashab Lina A.,El-Menyawy Hend M.,Abou El-Nour Basma M.,Abdullah Eman M.,Abdalkareem Asmaa M.,Al-gebaly Rawda A.,El-sayed Asmaa M.,Mabrok Ghada R.,Mahmoud Rawda R.,Ali Dina A.,Mohamed Alaa R.,Ali Hiba H.,Bishop Suhaylah Y.,Merai Nada M.,Abdullah Nadia M.,Shahata Tuqa M.,Mahmoud Fatma H.,Shukry Rofada H.,Fathy Esraa A.,Sadek Al-Shaimaa MohsenORCID

Abstract

AbstractIn recent years, there has been a growing interest in exploring novel natural sources for antioxidant and anti-inflammatory agents, driven by the need for alternative therapeutic strategies with fewer side effects. This study investigates the potential of the Biomphalaria alexandrina snail as a valuable model organism to evaluate the antioxidant and anti-inflammatory properties of Sarcophaga argyrostoma larval hemolymph. The choice of B. alexandrina snails as a model is based on its ecological relevance and physiological similarities to other organisms, supporting well-established use in ecological and physiological research, as well as it provides a valuable platform for such investigations. Ultimately, this study may open avenues for the development of innovative and sustainable therapeutic interventions rooted in the rich biodiversity of the natural world. The experimental design involves the extraction of hemolymph from S. argyrostoma larvae, followed by a comprehensive analysis of its antioxidant capacity and anti-inflammatory effects using adult snails. Various biochemical assays, including total antioxidant capacity, immunomodulatory markers and histological investigation, will be employed to assess the bioactive potential of the hemolymph. The outcomes of this research can be attributed to the identification of the anti-oxidant and anti-inflammatory effects of hemolymph. This effect was observed through the reduction of oxidative stress and proinflammatory mediators, impacting the biological activities of the snails. The study is the first to shed light on the potential benefits of S. argyrostoma larval hemolymph using an animal model, showcasing its ability to mitigate oxidative and inflammatory responses within the biological context of the snails.

Funder

Al-Azhar University

Publisher

Springer Science and Business Media LLC

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