1. Inicio
  2. Publicaciones
  3. A Multiomics Study To Unravel the Effects of Developmental Exposure to Endosulfan in Rats: Molecular Explanation for Sex-Dependent Effects

A Multiomics Study To Unravel the Effects of Developmental Exposure to Endosulfan in Rats: Molecular Explanation for Sex-Dependent Effects

Fecha de publicación:

Autores de CIPF

Participantes ajenos a CIPF

  • Bernabeu, E
  • Carmona, H
  • Garcia-Panes, J
  • Leonards, PEG
  • Jung, S

Grupos de Investigación

Abstract

Exposure to low levels of environmental contaminants, including pesticides, induces neurodevelopmental toxicity. Environmental and food contaminants can reach the brain of the fetus, affecting brain development and leading to neurological dysfunction. The pesticide endosulfan is a persistent pollutant, and significant levels still remain detectable in the environment although its use is banned in some countries. In rats, endosulfan exposure during brain development alters motor activity, coordination, learning, and memory, even several months after uptake, and does so in a sex-dependent way. However, the molecular mechanisms driving these effects have not been studied in detail. In this work, we performed a multiomics study in cerebellum from rats exposed to endosulfan during embryonic development. Pregnant rats were orally exposed to a low dose (0.5 mg/kg) of endosulfan, daily, from gestational day 7 to postnatal day 21. The progeny was evaluated for cognitive and motor functions at adulthood. Expression of messenger RNA and microRNA genes, as well as protein and metabolite levels, were measured on cerebellar samples from males and females. An integrative analysis was conducted to identify altered processes under endosulfan effect. Effects between males and females were compared. Pathways significantly altered by endosulfan exposure included the phosphatidylinositol signaling system, calcium signaling, the cGMP-PKG pathway, the inflammatory and immune system, protein processing in the endoplasmic reticulum, and GABA and taurine metabolism. Sex-dependent effects of endosulfan in the omits results that matched sex differences in cognitive and motor tests were found. These results shed light on the molecular basis of impaired neurodevelopment and contribute to the identification of new biomarkers of neurotoxicity.

Datos de la publicación

ISSN/ISSNe:
1948-7193, 1948-7193

ACS Chemical Neuroscience  AMER CHEMICAL SOC

Tipo:
Article
Páginas:
4264-4279
PubMed:
31464424

Citas Recibidas en Web of Science: 8

Documentos

  • No hay documentos

Métricas

Filiaciones mostrar / ocultar

Keywords

  • pesticide; development; multiomics; signaling pathways; neurotoxicity; cerebellum

Proyectos asociados

Red de Transtornos Adictivos

Investigador Principal: CONSUELO GUERRI SIRERA

INSTITUTO DE SALUD CARLOS III . 2017

Bases moleculares de las alteraciones neurológicas (cognitivas y motoras) en hiperamonemia y encefalopatía hepática. Implicaciones terapéuticas

Investigador Principal: VICENTE FELIPO ORTS

MINISTERIO DE ECON. Y COMPET. . 2018

Mecanismos moleculares y cerebrales de las alteraciones cognitivas y motoras en hiperamonemia y encefalopatía hepática. Implicaciones terapeúticas y diagnósticas

Investigador Principal: VICENTE FELIPO ORTS

CONSELLERIA DE EDUCACION . 2018

Identification and modelling of molecular and cellular events of the inmune response associated to the appearence of minimal hepatic encephalopaty in cirrhotic patients

Investigador Principal: VICENTE FELIPO ORTS

FUNDACION RAMON ARECES . 2019

Compartir