High-throughput transcriptome sequencing reveals the protective role of adenosine receptor-related genes in paraquat-exposed Caenorhabditis elegans

Author:

Ma Lingmei1,Ling Chunyan1,Hu Shuning1,Ye Sudan2,Chen Chun1ORCID

Affiliation:

1. College of Life Sciences, Engineering Training Centre/College of Innovation, China Jiliang University , Hangzhou 310018 , China

2. College of Applied Engineering, Zhejiang Institute of Economics and Trade , Hangzhou 310018 , China

Abstract

Abstract This study sought to identify the genes associated with adenosine’s protective action against paraquat (PQ)-induced oxidative stress via the adenosine receptor (ADOR-1) in Caenorhabditis elegans (C. elegans). The C. elegans was divided into 3 groups—2 groups exposed to PQ, one in presence, and one in absence of adenosine—and a control group that was not treated. Each group’s total RNA was extracted and sequenced. When the transcriptomes of these groups were analyzed, several genes were found to be differently expressed. These differentially expressed genes were significantly enriched in adenosine-response biological processes and pathways, including gene ontology terms related to neuropeptide and kyoto encyclopedia of genes and genomes pathways associated to cAMP pathway regulator activity. Quantitative reverse-transcription PCR confirmed that G-protein-coupled receptors signaling pathway involving dop-1, egl-30, unc-13, kin-1, and goa-1 genes may play crucial roles in modulating adenosine’s protective action. Interestingly, there are no significant variations in the expression of the ador-1 gene across the 3 treatments, thereby indicating that adenosine receptor exerts a consistent and stable influence on its related pathways irrespective of the presence or absence of PQ. Furthermore, the wild-type group with ador-1 gene has higher survival rate than that of the ador-1−/RNA interference group while treated with PQ in the presence of adenosine. Conclusively, our study uncovered a number of novel PQ-response genes and adenosine receptor-related genes in C. elegans, which may function as major regulators of PQ-induced oxidative stress and indicate the possible protective effects of adenosine.

Funder

Natural Science Foundation of China

National Key Research and Development Plan

Zhejiang Natural Science Foundation

National Innovation and Entrepreneurship Training Program for College Students

Publisher

Oxford University Press (OUP)

Subject

Health, Toxicology and Mutagenesis,Toxicology

Reference41 articles.

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