Abstract
Recently, several dysregulated microRNAs (miRNAs) have been identified in organisms exposed to graphene oxide (GO). However, their biological functions and mechanisms of the action are still largely unknown. Here, we investigated the molecular mechanism of mir-231 in the regulation of GO toxicity using in vivo assay system of Caenorhabditis elegans. We found that GO exposure inhibited the expression of mir-231::GFP in multiple tissues, in particular in the intestine. mir-231 acted in intestine to regulate the GO toxicity, and overexpression of mir-231 in intestine caused a susceptible property of nematodes to GO toxicity. smk-1 encoding a homologue to mammalian SMEK functioned as a targeted gene for mir-231, and was also involved in the intestinal regulation of GO toxicity. Mutation of smk-1 gene induced a susceptible property to GO toxicity, whereas the intestinal overexpression of smk-1 resulted in a resistant property to GO toxicity. Moreover, mutation of smk-1 gene suppressed the resistant property of mir-231 mutant to GO toxicity. In nematodes, SMK-1 further acted upstream of the transcriptional factor DAF-16/FOXO in insulin signaling pathway to regulate GO toxicity. Therefore, mir-231 may encode a GO-responsive protection mechanism against the GO toxicity by suppressing the function of the SMK-1 - DAF-16 signaling cascade in nematodes.
Highlights
Graphene oxide (GO) is a carbon-based, two-dimensional engineered nanomaterial (ENM) with a high coefficient of thermal conduction and large surface area that is chemically stable, amphipathic and easy to be functionalized[1]
To determine the order in which smk-1 and daf-16 act in regulating graphene oxide (GO) toxicity, we examined the effects of RNA interference (RNAi) knockdown of daf-16 gene on lifespan and locomotion behavior in GO exposed transgenic nematodes overexpressing smk-1 in the intestine
We found that the RNAi knockdown of daf-16 gene significantly suppressed the protective effects of smk-1 overexpression on both the lifespan and the locomotion behavior of GO-exposed nematodes (Fig. 9c,d). These results suggest that smk-1 may act upstream of daf-16 to protect against GO toxicity in nematodes
Summary
Graphene oxide (GO) is a carbon-based, two-dimensional engineered nanomaterial (ENM) with a high coefficient of thermal conduction and large surface area that is chemically stable, amphipathic and easy to be functionalized[1] These properties make GO very attractive for several commercial and medical applications, including drug delivery and bioimaging[2,3]. Our previous studies have demonstrated that GO exposure resulted in the dysregulation of 1965 mRNAs and 31 miRNAs in nematodes[15,18]. One of these dysregulated miRNAs, mir-231, was down-regulated in response to www.nature.com/scientificreports/. Our study underlines the importance of mir-231 in encoding a protection mechanism against GO toxicity
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
