The endoplasmic reticulum (ER) is involved in an array of cellular functions that play important roles in xenobiotic toxicity. The ER contains the majority of cytochrome P450 enzymes involved in xenobiotic metabolism, as well as a number of conjugating enzymes. In addition to its role in drug bioactivation and detoxification, the ER can be a target for damage by reactive intermediates leading to cell death or immune-mediated toxicity. The ER contains a set of luminal proteins referred to as ER stress proteins (including GRP78, GRP94, protein disulfide isomerase, and calreticulin). These proteins help regulate protein processing and folding of membrane and secretory proteins in the ER, calcium homeostasis, and ER-associated apoptotic pathways. They are induced in response to ER stress. This review discusses the importance of the ER in molecular events leading to cell death following xenobiotic exposure. Data showing that the ER is important in both renal and hepatic toxicity will be discussed.
Brain-derived neurotrophic factor (BDNF) regulates monoamine neuronal growth, survival and function in development and throughout adulthood. At 18 months of age, mice with constitutive reductions in BDNF expression show decreased serotonin innervation in the hippocampus compared with age-matched wildtype mice. It is not known, however, whether age-accelerated loss of serotonergic innervation in BDNF 1/2 mice occurs in other brain regions, advances beyond 18 months or is associated with alterations in other neurotransmitter systems. In this study, immunocytochemistry was used to assess serotonergic and catecholaminergic innervation in 26-month-old BDNF 1/2 mice. Age-related loss of serotonin axons in the hippocampus was potentiated in BDNF 1/2 mice compared with wildtype mice at this late age, particularly in the CA1 subregion. By contrast, aging BDNF 1/2 mice showed increased serotonin innervation of the basomedial nucleus of the amygdala. In the noradrenergic system, BDNF 1/2 mice showed reduced numbers of cell bodies and fibers in the locus coeruleus compared with age-matched wildtype mice, whereas no changes were observed in dopaminergic innervation with respect to genotype. In vivo zero net flux microdialysis in awake mice showed a significant decrease in extracellular serotonin levels in the hippocampus in BDNF 1/2 mice at 20 months of age. Thus, reduced BDNF is associated with altered serotonergic and noradrenergic innervation in aging mice and, in particular, with accelerated loss of serotonergic innervation to the hippocampus that is manifest as a decrease in basal neurotransmission.
Abstract1,25-(OH) 2 -Vitamin D3 (1,25-D3) and the thyroid hormone tri-iodothyronine (T 3 ) were previously shown to behave as adipogenic agents in murine Ob17 preadipocytes. Moreover, these agents interfere with each other's action during adipocyte differentiation. T 3 receptor (TR) expression and a downmodulation of T 3 binding sites (TR sites) by 1,25-D3 were also reported. A cross talk at the T 3 and 1,25-D3 receptor (VDR) level was suggested. We report here that Ob17 cells contain VDR receptor sites in markedly modulated number. This includes a sharp decrease during differentiation that was largely counteracted by 1,25-D3 added to preadipocytes in physiological, adipogenic concentrations. In parallel, the VDR mRNA level did not change significantly, neither did a variant produced by alternative splicing in the penultimate exon and defined for the first time in the mouse. The differentiation-and 1,25-D3-related modulations of VDR sites are likely to be, at least for the most part, the result of variations in abundance of the VDR protein, and may thus mainly involve post-translational events. In contrast, the addition of T 3 to the preadipocytes amplified the differentiation-related decrease in VDR sites, even in the presence of 1,25-D3. T 3 significantly decreased the levels of VDR transcripts and thus mainly exerts a pretranslational action. With regard to the reciprocal downmodulation of the TR sites (identified as almost exclusively of the TR type) by physiological concentrations of 1,25-D3, a post-translational action and a sequestration of the TR sites had previously been suggested and are further studied here. Analyses of receptor properties after co-incubations of recombinant VDRs and TRs did not favour direct VDR-TR interaction as a main cause of TR site sequestration. Interestingly, when taken together, the data on downregulation of VDRs and TRs by the alternate ligands define a potential step in the cross talk exerted between 1,25-D3 and T 3 for their adipogenic action. In addition, the present results also show for the first time that 1,25-D3 acts as a strong trigger of a transient expression of TR 1 subtype at an early preadipocyte step, an effect that had previously been assigned to T 3 . This last interesting event introduces further incentive for deciphering the T 3 /1,25-D3 cross talk in preadipocyte differentiation.
In the murine Ob 17 preadipocyte cell line, the thyroid hormone T3 is an adipogenic factor necessary at an early stage for differentiation into adipocyte. We demonstrate here that this T3 dependence may involve a transient expression (at both the messenger RNA and the protein levels) of c-ErbA beta-type receptors (T3R), although a large body of T3R remained the product of the c-erbAalpha gene, as previously described. c-ErbAbeta1 (and not beta2) expression emerged significantly at growth arrest, peaked 2 days later, and almost disappeared in maturing adipocytes. This expression is related to the presence of T3, as total deprivation of culture medium from T3 prevented it, and the addition of 1.5 nM T3 to preconfluent cultures was able to restore it. When cells were cultured in the presence of T3 and thus were able to differentiate, the c-erbAbeta peak was accompanied by sequential rapid increases in CAAT/enhancer-binding protein-delta(C/EBPdelta), peroxisome proliferator-activated-gamma receptor (PPARgamma), and C/EBPalpha gene expressions. On the contrary, under thyroid hormone-deprived culture conditions that result in nondifferentiation of the preadipocytes, c-erbAbeta1, PPARgamma, and the large C/EBPalpha expressions were blunted, and a moderate early increase in c-erbAalpha1 transcripts was sustained for a longer period. Addition of T3 to T3-deprived preconfluent cells restored PPARgamma and C/EBPalpha expressions. Taken together, the results highlight the important role of T3 in the adipogenesis of Ob 17 cells through the involvement of both beta1 and alpha1 T3R subtypes.
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