RESUMO
Identifying the subcellular localization of a protein within a cell is often an essential step in understanding its function. The main objective of this report was to determine the presence of the P2X7 receptor (P2X7R) in healthy human cells of skeletal system, specifically osteoblasts (OBs), chondrocytes (Chs) and intervertebral disc (IVD) cells. This receptor is a member of the ATP-gated ion channel family, known to be a main sensor of extracellular ATP, the prototype of the danger signal released at sites of tissue damage, and a ubiquitous player in inflammation and cancer, including bone and cartilaginous tissues. Despite overwhelming data supporting a role in immune cell responses and tumor growth and progression, a complete picture of the pathophysiological functions of P2X7R, especially when expressed by non-immune cells, is lacking. Here we show that human wild-type P2X7R (P2X7A) was expressed in different samples of human osteoblasts, chondrocytes and intervertebral disc cells. By fluorescence microscopy (LM) and immunogold transmission electron microscopy we localized P2X7R not only in the canonical sites (plasma membrane and cytoplasm), but also in the nucleus of all the 3 cell types, especially IVD cells and OBs. P2X7R mitochondrial immunoreactivity was predominantly detected in OBs and IVD cells, but not in Chs. Evidence of subcellular localization of P2X7R may help to i. understand the participation of P2X7R in as yet unidentified signaling pathways in the joint and bone microenvironment, ii. identify pathologies associated with P2X7R mislocalization and iii. design specific targeted therapies.
RESUMO
Intervertebral disc (IVD) degeneration (IDD) is closely associated with inflammation, oxidative stress and loss of the discogenic phenotype, which current therapies are unable to reverse. In the present study, the effects of acetone extract from Violina pumpkin (Cucurbita moschata) leaves on degenerated IVD cells were investigated. IVD cells were isolated from the degenerated disc tissue of patients undergoing spinal surgery and were exposed to acetone extract and three major thin layer chromatography subfractions. The results revealed that, in particular, the cells benefited from exposure to subfraction Fr7, which consisted almost entirely of pCoumaric acid. Western blot and immunocytochemical analysis showed that Fr7 induced a significant increase in discogenic transcription factors (SOX9 and trichorhinophalangeal syndrome type I protein, zinc finger protein), extracellular matrix components (aggrecan, collagen type II), cellular homeostasis and stress response regulators, such as FOXO3a, nuclear factor erythroid 2related factor 2, superoxide dismutase 2 and sirtuin 1. Two important markers related to the presence and activity of stem cells, migratory capacity and OCT4 expression, were assessed by scratch assay and western blotting, respectively, and were significantly increased in Fr7treated cells. Moreover, Fr7 counteracted H2O2triggered cell damage, preventing increases in the proinflammatory and antichondrogenic microRNA (miR), miR221. These findings strengthen the hypothesis that adequate stimuli can support resident cells to repopulate the degenerated IVD and restart the anabolic machinery. Taken together, these data contribute to the discovery of molecules potentially effective in slowing the progression of IDD, a disease for which there is currently no effective treatment. Moreover, the use of part of a plant, the pumpkin leaves, which is usually considered a waste product in the Western world, indicated that it contains substances with potential beneficial effects on human health.