AIMS Biophysics (Jan 2023)
Endoplasmic reticulum localization of phosphoinositide specific phospholipase C enzymes in U73122 cultured human osteoblasts
Abstract
Different signal transduction pathways contribute to the differentiation and metabolic activities of osteoblasts, with special regard to the calcium-related pathway of phosphoinositide specific phospholipase C (PLC) enzyme family. PLC enzymes were demonstrated to be involved in the differentiation of osteoblasts and differently localize in the nucleus, cytoplasm or both depending on the isoform. The amino-steroid molecule U-73122 inhibits the enzymes belonging to the PLC family. In addition to the temporary block of the enzymatic activity, U-73122 promotes off-target effects, including modulation of the expression of selected PLC genes and different localization of PLC enzymes, depending on the cell line, in different cell lines. In order to evaluate possible off-target effects of the molecule in human osteoblasts, we investigated the expression of PLC genes and the localization of PLC enzymes in cultured human osteoblasts (hOBs) in the presence of low dose U-73122. Our results confirm that all PLC genes are transcribed in hOBs, that probably splicing variants of selected PLC genes are expressed and that all PLC enzymes are present in hOBs, except for PLC δ3 in quiescent hOBs at seeding. Our results confirm literature data excluding toxicity of U-73122 on cell survival. Our results indicate that U-73122 did not significantly affect the transcription of PLC genes. It acts upon the localization of PLC enzymes, as PLC enzymes are detected in cell protrusions or pseudopodia-like structures, at the nuclear or the plasma membrane, in membrane ruffles and/or in the endoplasmic reticulum.
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