Toxins (Aug 2022)

Bee Venom Induces Acute Inflammation through a H<sub>2</sub>O<sub>2</sub>-Mediated System That Utilizes Superoxide Dismutase

  • Kwang-Sik Lee,
  • Bo-Yeon Kim,
  • Min-Ji Park,
  • Yijie Deng,
  • Jin-Myung Kim,
  • Yun-Hui Kim,
  • Eun-Jee Heo,
  • Hyung-Joo Yoon,
  • Kyeong-Yong Lee,
  • Yong-Soo Choi,
  • Byung-Rae Jin

DOI
https://doi.org/10.3390/toxins14080558
Journal volume & issue
Vol. 14, no. 8
p. 558

Abstract

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Venoms from venomous arthropods, including bees, typically induce an immediate local inflammatory response; however, how venoms acutely elicit inflammatory response and which components induce an inflammatory response remain unknown. Moreover, the presence of superoxide dismutase (SOD3) in venom and its functional link to the acute inflammatory response has not been determined to date. Here, we confirmed that SOD3 in bee venom (bvSOD3) acts as an inducer of H2O2 production to promote acute inflammatory responses. In mouse models, exogenous bvSOD3 rapidly induced H2O2 overproduction through superoxides that are endogenously produced by melittin and phospholipase A2, which then upregulated caspase-1 activation and proinflammatory molecule secretion and promoted an acute inflammatory response. We also showed that the relatively severe noxious effect of bvSOD3 elevated a type 2 immune response and bvSOD3 immunization protected against venom-induced inflammation. Our findings provide a novel view of the mechanism underlying bee venom-induced acute inflammation and offer a new approach to therapeutic treatments for bee envenoming and bee venom preparations for venom therapy/immunotherapy.

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