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Green synthesized MgO nanoparticles infer biocompatibility by reducing in vivo molecular nanotoxicity in embryonic zebrafish through arginine interaction elicited apoptosis

Authors :
Verma, Suresh K.
Nisha, Kumari
Panda, Pritam Kumar
Patel, Paritosh
Kumari, Puja
Mallick, M. A.
Sarkar, Biplab
Das, Biswadeep
Verma, Suresh K.
Nisha, Kumari
Panda, Pritam Kumar
Patel, Paritosh
Kumari, Puja
Mallick, M. A.
Sarkar, Biplab
Das, Biswadeep
Publication Year :
2020

Abstract

Increasing demand for magnesium oxide (MgO) nanoparticles (NP) due to their extensive use in different physical and biological applications has raised concern on their biocompatibility and toxicity to human health and ecological safety. This has instigated guest for detailed information on their toxicity mechanism, along with ecofriendly synthesis as a potential solution. This study explores the toxicity of MgO NP at the molecular level using embryonic zebrafish (Danio rerio) and depicts the green synthesis of MgO (G-MgO) NP using the extract from a medicinal plant Calotropis gigantea. Synthesized G-MgO NP were characterized using microscopy, spectroscopy. and dynamic light scattering. Stable 55 +/- 10 nm sized MgO NP were generated with a zeta potential of 45 +/- 15 mV and hydrodynamic size 110 +/- 20 nm. UV-Vis spectrum showed a standard peak at 357 nm. Comparative cellular toxicity analysis showed higher biocompatibility of G-MgO NP compared to MgO NP with reference to the morphological changes. notochord development, and heartbeat rate in embryonic zebrafish LC50 of G-MgO NP was 520 mu g/mL compared to 410 mu g/mL of MgO NP. Molecular toxicity investigation revealed that the toxic effects of MgO NP was mainly due to the influential dysregulation in oxidative stress leading to apoptosis because of the accumulation and internalization of nanoparticles and their interaction with cellular proteins like Sod1 and p53, thereby affecting structural integrity and functionality. The study delineated the nanotoxicity of MgO NP and suggests the adoption and use of new green methodology for future production.

Details

Database :
OAIster
Notes :
English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1235260159
Document Type :
Electronic Resource
Full Text :
https://doi.org/10.1016.j.scitotenv.2020.136521