ABSTRACT
Nur-77, a member of the NR4A sub-family of nuclear orphan receptors, is downregulated in the placentae of pre-eclamptic women. Here, we investigate the relevance of Nor-1, Nurr-1 and Nur-77 in trophoblastic cell differentiation. Their transcript levels were found to be significantly upregulated in BeWo cells treated with forskolin. The maximum increase was observed after 2 h, with a second peak in the expression levels after 48 h. The expression of NR4A sub-family members was also found to be upregulated in BeWo cells after treatment with hCG and GnRH. A similar significant increase was observed at the respective protein levels after 2 and 48 h of treatment with forskolin, hCG or GnRH. Silencing Nor-1, Nurr-1 or Nur-77 individually did not show any effect on forskolin-, hCG- and/or GnRH-mediated BeWo cell fusion and/or hCG secretion. After silencing any one member of the NR4A sub-family, an increase in the transcript levels of the other sub-family members was observed, indicating a compensatory effect due to their functional redundancy. Simultaneously silencing all three NR4A sub-family members significantly downregulated forskolin- and hCG-mediated BeWo cell fusion and/or hCG secretion. However, a considerable amount of cell death occurred after forskolin or hCG treatment as compared to the control siRNA-transfected cells. These results suggest that the NR4A sub-family of nuclear orphan receptors has a role in trophoblastic cell differentiation.
Subject(s)
Cell Differentiation , Orphan Nuclear Receptors/physiology , Trophoblasts/metabolism , Chorionic Gonadotropin, beta Subunit, Human/pharmacology , Colforsin/pharmacology , Gene Expression Regulation, Developmental , Gonadotropin-Releasing Hormone/pharmacology , Humans , Nuclear Receptor Subfamily 4, Group A, Member 1/genetics , Nuclear Receptor Subfamily 4, Group A, Member 1/physiology , Nuclear Receptor Subfamily 4, Group A, Member 2/genetics , Nuclear Receptor Subfamily 4, Group A, Member 2/physiology , Nuclear Receptor Subfamily 4, Group A, Member 3/genetics , Nuclear Receptor Subfamily 4, Group A, Member 3/physiology , Orphan Nuclear Receptors/genetics , Trophoblasts/drug effects , Trophoblasts/physiologyABSTRACT
Nuclear hormone receptors (NR) have been implicated as regulators of lipid and carbohydrate metabolism. The orphan NR4A subgroup has emerged as regulators of metabolic function. Targeted silencing of neuron-derived orphan receptor 1 (Nor-1)/NR4A3 in skeletal muscle cells suggested that this NR was necessary for oxidative metabolism in vitro. To investigate the in vivo role of Nor-1, we have developed a mouse model with preferential expression of activated Nor-1 in skeletal muscle. In skeletal muscle, this resulted in a marked increase in: 1) myoglobin expression, 2) mitochondrial DNA and density, 3) oxidative enzyme staining, and 4) genes/proteins encoding subunits of electron transport chain complexes. This was associated with significantly increased type IIA and IIX myosin heavy chain mRNA and proteins and decreased type IIB myosin heavy chain mRNA and protein. The contractile protein/fiber type remodeling driving the acquisition of the oxidative type II phenotype was associated with 1) the significantly increased expression of myocyte-specific enhancer factor 2C, and phospho-histone deacetylase 5, and 2) predominantly cytoplasmic HDAC5 staining in the Tg-Nor-1 mice. Moreover, the Nor-1 transgenic line displayed significant improvements in glucose tolerance, oxygen consumption, and running endurance (in the absence of increased insulin sensitivity), consistent with increased oxidative capacity of skeletal muscle. We conclude that skeletal muscle fiber type is not only regulated by exercise-sensitive calcineurin-induced signaling cascade but also by NR signaling pathways that operate at the nexus that coordinates muscle performance and metabolic capacity in this major mass tissue.