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- Sanjay L Dholakiya, Angela Aliberti, and Frank A Barile.
- St. John's University, College of Pharmacy and Health Sciences, Department of Pharmaceutical Sciences, Queens, NY 11439, United States.
- Toxicol. Lett. 2016 Apr 15; 247: 45-55.
AbstractOpioids have been shown to affect prenatal and postnatal neural development in mammals. The present study investigates the impact of morphine sulfate (MS) treatment on neuronal differentiation as well as μ-opioid receptor (MOR) expression in mouse embryonic stem (mES) cells. Stem cells were manipulated in culture to differentiate in 3 sequential stages: Stage 1, cell transformation to embryoid bodies (EB); Stage 2, EB cell differentiation to neural progenitor (NP) cells; and, Stage 3, NP cell differentiation to neurons/astrocytes co-cultured cells. Using RT-PCR and flow cytometry analyses, cell types were confirmed by monitoring expression of Oct4, nestin, microtubule-associated protein 2 (mtap-2), and glial fibrillary acidic protein (GFAP) as cell-specific markers for stem cells, NP cells, neurons, and astrocytes, respectively. Similarly, gene expression for MOR, κ-opioid receptor (KOR), and δ-opioid receptor (DOR) was confirmed in each cell type. In order to investigate the effects of MS on differentiation, cells were treated with MS (1, 10, 100 μM) at either early (Stage 1) or late (Stage 3) stage of cellular differentiation. At Stage 1 exposure, MOR gene expression and neuroectoderm specific marker expression of nestin were down-regulated in both EB and NP cells. In addition, the opioid down-regulated GFAP in differentiated neurons/astrocytes co-cultured cells. Late stage treatment with MS resulted in a down-regulation of mtap-2 and GFAP in differentiated neurons/astrocytes co-cultured cells. Moreover, late stage treatment with MS and naltrexone inhibited the effect of MS on neuronal differentiation, suggesting that MS treatment interferes with differentiation via MOR activation. Together, the results show that MS exposure at early and late stage of cellular differentiation significantly decreases genotype and phenotype in differentiated neuronal cells. The results of this study have implications regarding the potential effect of opiates on fetal brain development.Copyright © 2016 Elsevier Ireland Ltd. All rights reserved.
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