Assessing Cytotoxicity of Metabolites of Typical Triazole Pesticides in Plants

Summary

The protocol describes a new method to assess the integral cytotoxicity of metabolites of triazole pesticides in plants.

Abstract

Various organic pollutants have been released into the environment because of anthropogenic activities. These pollutants can be taken up by crop plants, causing potential threats to the ecosystem and human health throughout the food chain. The biotransformation of pollutants in plants generates a number of metabolites that may be more toxic than their parent compounds, implying that the metabolites should be taken into account during the toxicity assessment. However, the metabolites of pollutants in plants are extremely complex, making it difficult to comprehensively obtain the toxicological information of all metabolites. This study proposed a strategy to assess the integral cytotoxicity of pollutant metabolites in plants by treating them as a whole during toxicological tests. Triazole pesticides, a class of broad-spectrum fungicides, have been widely applied in agricultural production. Their residue pollution in farmland has drawn increasing attention. Hence, four triazole pesticides, including flusilazole, diniconazole, tebuconazole, and propiconazole, were selected as the tested pollutants. The metabolites were generated by the treatment of carrot callus with tested triazole pesticides. After treatment of 72 h, the metabolites of pesticides in carrot callus were extracted, followed by toxicological tests using the Caco-2 cell line. The results showed that the metabolites of tested pesticides in carrot callus did not significantly inhibit the viability of Caco-2 cells (P>0.05), demonstrating no cytotoxicity of pesticide metabolites. This proposed method opens a new avenue to assess the cytotoxicity of pollutant metabolites in plants, which is expected to provide valuable data for precise toxicity assessment.

Introduction

Crop plants growing in farmland may be exposed to various organic pollutants originating from anthropogenic activities^1,2. The pollutants can be taken up by plants, further causing threats to the ecosystem and human health through food chains^3,4. The xenobiotics in plants probably undergo a series of biotransformation, such as Phase I and II metabolisms⁵, generating a number of metabolites. According to the green liver concept in plants, plant metabolism can reduce the toxicity of xenobiotics^6,....

Protocol

1. Differentiation of carrot callus

NOTE: The detailed protocol for differentiation of carrot callus has been described in a previous study¹². Here is a brief description.

1. Sterilize the surface of vernalized seeds with 75% ethanol for 20 min followed by 20% H₂O₂ for 20 min. Wash the with distilled water at least 3x.
2. Sow the seeds on hormone-free agar-gelled (1% w/v) Murashige and Skoog (MS) medium (pH =5.8, au.......

Discussion

This protocol was developed to assess the integral cytotoxicity of metabolites of triazole pesticides in plants by combining plant callus and human cell models. The critical steps for this proposed protocol are the culture of plant callus and Caco-2 cell. The most difficult part and relative advice for plant callus culture have been provided in our previous study¹². Here, it should be noted that cell maintenance is the most difficult part for Caco-2 cell culture, because the cells are easily infec.......

Materials

Name	Company	Catalog Number	Comments
2,4-dichlorophenoxyacetic acid	WAKO	1 mg/L
20% H2O2	Sinopharm Chemical Reagent Co., Ltd.	10011218-500ML
6-benzylaminopurine	WAKO	0.5 mg/L
75% ethanol	Sinopharm Chemical Reagent Co., Ltd.	1269101-500 mL
96-well plate	Thermo Fisher
Acetonitrile	Sigma-Aldrich
Artificial climate incubator	Ningbo DongNan Lab Equipment Co.,Ltd	RDN-1000A-4
Autoclaves	STIK	MJ-Series
Caco-2 cells	Nuoyang Biotechnology Co.,Ltd.
CCK8 reagents	Nanjing Jiancheng Bioengineering Institute, China	G021-1-3
Centrifuge	Thermo Fisher
CO2 incubator	Labtrip	HWJ-3-160
Dimethyl sulfoxide	Solarbio Life Sciences	D8371
Diniconazole, 98.7%	J&K Scientific	83657-24-3
Dulbecco's modified Eagle's medium	Solarbio Life Sciences	11965-500 mL
electronic balance	Shanghai Precision Instrument Co., Ltd	FA1004B
Fetal bovine serum	Cellmax
Fluorescence spectrophotometer	Tecan	Infinite M200
Flusilazole, 98.5%	J&K Scientific	85509-19-9
Freeze dryer	SCIENTZ
High-throughput tissue grinder	SCIENTZ
Inverted microscope	Leica Biosystems	DMi1
Milli-Q system	Millipore	MS1922801-4L
Murashige & Skoog medium	HOPEBIO	HB8469-7
Nitrogen blowing concentrator	AOSHENG	MD200-2
PBS	Solarbio Life Sciences	P1022-500 mL
Penicillin-Streptomycin Liquid	Solarbio Life Sciences	P1400-100 mL
Propiconazole, 100%	J&K Scientific	60207-90-1
Research plus	Eppendorf	10-1000 μL
Seeds of Little Finger carrot (Daucus carota var. sativus)	Shouguang Seed Industry Co., Ltd
Shaking Incubators	Shanghai bluepard instruments Co.,Ltd.	THZ-98AB
Tebuconazole, 100%	J&K Scientific	107534-96-3
Trypsin-EDTA solution	Solarbio Life Sciences	T1300-100 mL
Ultrasound machine	ZKI	UC-6
UV-sterilized super clean bench	AIRTECH
Vortex instrument	Wuxi Laipu Instrument Equipment Co., Ltd	BV-1010