6533b86cfe1ef96bd12c8349
RESEARCH PRODUCT
Intergenerational Effect of Early Life Exposure to Permethrin: Changes in Global DNA Methylation and in Nurr1 Gene Expression
Rosita GabbianelliFabio CaradonnaMaria MirtoLaura BordoniCinzia Nasutisubject
permethrinGeneticsChemical Health and SafetyOffspringHealth Toxicology and MutagenesisPhysiologyDiseaseEnvironmental exposureglobal DNA methylationBiologylcsh:Chemical technologyToxicologyNurr1Settore BIO/18 - Geneticagenomic DNAintergenerational effectparasitic diseasesDNA methylationGene expressionmedicinelcsh:TP1-1185EpigeneticsPermethrinmedicine.drugdescription
Environmental exposure to pesticides during the early stages of development represents an important risk factor for the onset of neurodegenerative diseases in adult age. Neonatal exposure to Permethrin (PERM), a member of the family of synthetic pyrethroids, can induce a Parkinson-like disease and cause some alterations in striatum of rats, involving both genetic and epigenetic pathways. Through gene expression analysis and global DNA methylation assessment in both PERM-treated parents and their untreated offspring, we investigated on the prospective intergenerational effect of this pesticide. Thirty-three percent of progeny presents the same Nurr1 alteration as rats exposed to permethrin in early life. A decrease in global genome-wide DNA methylation was measured in mothers exposed in early life to permethrin as well as in their offspring, whereas untreated rats have a hypermethylated genomic DNA. Further studies are however needed to elucidate the molecular mechanisms, but, despite this, an intergenerational PERM-induced damage on progenies has been identified for the first time.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2015-11-01 | Toxics |