Abstract
Sphingolipids regulate several aspects of cell behavior and it has been demonstrated that cells adjust their sphingolipid metabolism in response to metabolic needs. Particularly, sphingosine-1-phosphate (S1P), a final product of sphingolipid metabolism, is a potent bioactive lipid involved in the regulation of various cellular processes, including cell proliferation, cell migration, actin cytoskeletal reorganization and cell adhesion. In previous work in rat renal papillae, we showed that sphingosine kinase (SK) expression and S1P levels are developmentally regulated and control de novo sphingolipid synthesis. The aim of the present study was to evaluate the participation of SK/S1P pathway in the triggering of cell differentiation by external hypertonicity. We found that hypertonicity evoked a sharp decrease in SK expression, thus activating the de novo sphingolipid synthesis pathway. Furthermore, the inhibition of SK activity evoked a relaxation of cell-cell adherens junction (AJ) with accumulation of the AJ complex (E-cadherin/β-catenin/α-catenin) in the Golgi complex, preventing the acquisition of the differentiated cell phenotype. This phenotype alteration was a consequence of a sphingolipid misbalance with an increase in ceramide levels. Moreover, we found that SNAI1 and SNAI2 were located in the cell nucleus with impairment of cell differentiation induced by SK inhibition, a fact that is considered a biochemical marker of epithelial to mesenchymal transition. So, we suggest that the expression and activity of SK1, but not SK2, act as a control system, allowing epithelial cells to synchronize the various branches of sphingolipid metabolism for an adequate cell differentiation program.
Highlights
Sphingolipids regulate several aspects of cell behavior and it has been demonstrated that cells adjust their sphingolipid metabolism in response to metabolic needs [1,2]
Considering that, as we have previously demonstrated, sphingosine kinase (SK) is developmentally regulated in rat renal papillae [8] and that external hypertonicity evokes Madin-Darby Canine Kidney (MDCK) differentiation [14,15], we first evaluated SK expression in four different culture conditions: cells cultured at 30% confluence (Prolif), cells at 100% confluence under isotonicity (Iso), and 100% confluent cells subjected to hypertonicity for 48 h (H48) or 96 h (H96), which reflect proliferating, polarized and differentiated cells by hypertonic media for 48 or 96 h, respectively (Fig 1A)
We have previously shown that, by modulating the expression and activity of sphingolipid metabolic enzymes, MDCK cells can direct the formation of the final metabolites that define cellular fate
Summary
Sphingolipids regulate several aspects of cell behavior and it has been demonstrated that cells adjust their sphingolipid metabolism in response to metabolic needs [1,2]. Cer is the central core lipid in the metabolism of sphingolipids from which sphingomyelin (SM) and glycosphingolipids are synthesized. Cer is produced by the salvage pathway, initiated by hydrolysis of SM or glycosphingolipids. We showed that SK/S1P pathway is developmentally regulated in rat renal papillae [8]. The developmental regulation of SK expression and activity leads sphingolipid metabolism to high levels of S1P in the neonatal period and a decreased expression of SK in the adult. We have shown that the SK/S1P pathway controls the de novo synthesis of sphingolipids, exerting a negative modulation of SPT and DHCer/Cer synthases and displaying a dynamic interplay between the de novo synthesis and S1P levels [9]
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