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Response of tyramine and glutamate related signals to nanoplastic exposure in Caenorhabditis elegans

Shuting Wang, Huanliang Liu, Man Qu, Dayong Wang

2021Ecotoxicology and Environmental Safety43 citationsDOIOpen Access PDF

Abstract

Neurotransmission related signals are involved in the control of response to toxicants. We here focused on the tyramine and the glutamate related signals to determine their roles in regulating nanoplastic toxicity in Caenorhabditis elegans. In the range of μg/L, exposure to nanopolystyrene (100 nm) increased the expression of tdc-1 encoding a tyrosine decarboxylase required for synthesis of tyramine, and decreased the expression of eat-4 encoding a glutamate transporter. Both TDC-1 and EAT-4 could act in the neurons to regulate the nanopolystyrene toxicity. Meanwhile, neuronal RNAi knockdown of tdc-1 induced a susceptibility to nanopolystyrene toxicity, and neuronal RNAi knockdown of eat-4 induced a resistance to nanopolystyrene toxicity. In the neurons, TYRA-2 functioned as the corresponding receptor of tyramine and acted upstream of MPK-1 signaling to regulate the nanopolystyrene toxicity. Moreover, during the control of nanopolystyrene toxicity, GLR-4 and GLR-8 were identified as the corresponding glutamate receptors, and acted upstream of JNK-1 signaling and DBL-1 signaling, respectively. Our results demonstrated the crucial roles of tyramine and glutamate related signals in regulating the toxicity of nanoplastics in organisms.

Topics & Concepts

Caenorhabditis elegansGene knockdownTyramineToxicityGlutamate receptorRNA interferenceMetabotropic glutamate receptor 5BiologyCell biologyNeurotransmissionSignal transductionMetabotropic glutamate receptorPharmacologyReceptorBiochemistryChemistryRNAGeneOrganic chemistryMicroplastics and Plastic PollutionNanoparticles: synthesis and applicationsAdditive Manufacturing and 3D Printing Technologies
Response of tyramine and glutamate related signals to nanoplastic exposure in Caenorhabditis elegans | Litcius