Your search keyword '"Metalloproteinase"' showing total 3 results

1. Effects of toxin metalloproteinases from jellyfish Nemopilema nomurai nematocyst on the dermal toxicity and potential treatment of jellyfish dermatitis.

Author

Li, Aoyu, Yu, Huahua, Li, Rongfeng, Yue, Yang, Yu, Chunlin, Liu, Song, Xing, Ronge, and Li, Pengcheng

Subjects

*JELLYFISHES, *SKIN inflammation, *SODIUM dichromate, *OXIDATIVE stress, *VENOM

Abstract

• Metalloproteinases of Nemopilema nomurai nematocyst venom (NnNV) may be the main dermal toxicity effector molecules. • Batimastat and EDTA disodium salt can effectively inhibit the inflammatory effect of NnNV. • Batimastat and EDTA disodium salt are expected to be effective medicines for jellyfish dermatitis. Jellyfish dermatitis is a common medical problem in many countries due to the jellyfish envenomation. However, there are no specific and targeted medications for their treatment. Here we investigated the possible therapeutic effects of metalloproteinase inhibitors on the dermal toxicity of Nemopilema nomurai nematocyst venom (NnNV), a giant venomous jellyfish from China, using the jellyfish dermatitis model, focusing on inflammatory effector molecules during jellyfish envenomation. Metalloproteinase may further stimulate inflammation by promoting oxidative stress in the organism and play key roles by activating MAPK and NF-κB, in the pathogenesis of jellyfish dermatitis. And the metalloproteinase inhibitors batimastat and EDTA disodium salt may treat the Jellyfish dermatitis by inhibiting the metalloproteinase activity in NnNV. These observations suggest that the metalloproteinase components of NnNV make a considerable contribution to dermal toxicity as the inflammation effect molecular, and metalloproteinase inhibitors can be regarded as novel therapeutic medicines in jellyfish envenomation. This study contributes to understanding the mechanism of jellyfish dermatitis and suggests new targets and ideas for the treatment of jellyfish envenomation. [ABSTRACT FROM AUTHOR]

Published

2024

2. Biochemical and kinetic evaluation of the enzymatic toxins from two stinging scyphozoans Nemopilema nomurai and Cyanea nozakii.

Author

Yue, Yang, Yu, Huahua, Li, Rongfeng, Xing, Ronge, Liu, Song, Li, Kecheng, Wang, Xueqin, Chen, Xiaolin, and Li, Pengcheng

Subjects

*PUBLIC health, *CYANEA, *PRIONS, *CHEMICAL kinetics, *METALLOPROTEINASES, *DRUG development, *TARGETED drug delivery

Abstract

Jellyfish envenomations are emerging as an important public health concern occurred worldwide. In China, the situation is getting worse with numerous people stung by jellyfish Nemopilema nomurai ( N . nomurai ) and Cyanea nozakii ( C . nozakii ) in the summer. However, the proteinaceous mixtures in nematocysts responsible for the symptoms of jellyfish stings were scarcely characterized and understood in view of enzymatic constituents and toxicity. In the present study, enzymatic properties of jellyfish N . nomurai and C . nozakii nematocyst venom were analyzed biochemically and kinetically. The current data revealed that N . nomurai and C . nozakii nematocyst venom exhibited various enzymatic activities, of which metalloproteinases activity and PLA 2 s-like activity were predominant. Moreover, the catalytic activities of metalloproteinases and PLA 2 s-like were dependent on different physiochemical conditions such as temperature, pH and divalent ions. Kinetic profiling revealed their catalytic behaviors fitted the Michaelis-Menten equation under specific conditions. Findings suggested jellyfish nematocyst venom possessed diverse enzymatic constituents, which may underlie the extensively characterized bioactivities of jellyfish venom and human envenomations. Hence, our study will contribute to understanding the enzymatic constituents and toxicity of jellyfish nematocyst venom and may afford potential therapeutic targets for developing drugs for jellyfish stings. [ABSTRACT FROM AUTHOR]

Published

2017

3. Topical Exposure to Nemopilema nomurai Venom Triggers Oedematogenic Effects: Enzymatic Contribution and Identification of Venom Metalloproteinase.

Author

Yue, Yang, Yu, Huahua, Li, Rongfeng, and Li, Pengcheng

Subjects

*VENOM, *BASAL lamina, *PROTEOMICS, *EDEMA, *SKIN permeability

Abstract

Scyphozoan envenomation is featured as severe cutaneous damages due to the toxic effects of venom components released by the stinging nematocysts of a scyphozoan. However, the oedematogenic property and mechanism of scyphozoan venoms remain uninvestigated. Here, we present the oedematogenic properties of the nematocyst venom from Nemopilema nomurai (NnNV), a giant stinging scyphozoan in China, for the first time, using in vivo and in vitro models with class-specific inhibitors. NnNV was able to induce remarkable oedematogenic effects, including induction of significant oedema in the footpad and thigh of mouse, and increase in vascular permeability in the dorsal skin and kidney. Moreover, batimastat, a specific metalloproteinase inhibitor, could significantly reduce the Evan's blue leakage in the damaged organs and attenuate paw oedema after 12 h, but exerted no influence on NnNV-induced thigh oedema. These observations suggested a considerable contribution of NnNV metalloproteinase-like components to the increased vasopermeability, and the participation was strongly suggested to be mediated by destroying the integrity of the vascular basement membrane. Moreover, partial isolation combined LC-MS/MS profiling led to identification of the protein species Nn65 with remarkable metalloproteinase activity. This study contributes to the understanding of the effector components underlying the cutaneous damages induced by scyphozoan stings. [ABSTRACT FROM AUTHOR]

Published

2021