A novel protein, proteolysis-inducing factor (PIF), has been isolated from the urine of patients with pancreatic cancer and is capable of inducing muscle proteolysis in vitro. Only adult skeletal muscle and liver exhibit substantial binding of PIF. We have investigated the effect of PIF on hepatic gene expression. Primary cultures of human hepatocytes and the human cell line HepG2 were incubated in the presence of PIF to assess its effects on hepatic transcription factors, proinflammatory cytokine production, and acute phase proteins. PIF activates both the transcription factors NF-kB and STAT3, which result in the increased production of IL-8, IL-6, and C-reactive protein and the decreased production of transferrin. The function of PIF, beyond muscle degradation, is unknown but here we show that it is involved in hepatic gene expression, and is thus likely to be involved in the proinflammatory response observed in cachexia. These results may also suggest a potential role for PIF during embryonic development. The expression of PIF peaks during the embryonic period E8 to E9, a stage that is crucial in the development of skeletal muscle and liver and during which both NF-kB and STAT3 activation can also be observed.
Injury to the alveolar region is a hallmark of the adult respiratory distress syndrome (ARDS) whereas injury to the epithelium of the conducting airways is a characteristic of asthma. Reactive oxygen species have been implicated as mediators of lung injury in both of these conditions. We have investigated the relationship between intracellular nonprotein thiols (NPSH), and the release of the cytosolic enzyme lactate dehydrogenase (LDH), as an index of cell injury, following treatment of the human alveolar type II-like epithelial cell line (A549 cells) or the human bronchial epithelial cell line (16HBE140-) with hydrogen peroxide (H2O2). We have also assessed the protective effects of pre-incubation of both of these cells lines with H2O2 or enhancement of intracellular NPSH against H2O2-induced cell injury. Exposure of A549 and 16HBE140- cells to H2O2 (0.1 mM and 1 mM respectively for 16 h) produced the release of 40% of the total cellular LDH. H2O2 exposure produced an initial dose-dependent decrease in NPSH in A549 cells, with a subsequent increase to above control values. 16HBE140- cells also showed a dose-dependent decrease in NPSH following exposure to H2O2. Pretreatment of A549 cells with 0.1 mM H2O2 followed by subsequent exposure to H2O2 did not protect against H2O2-induced LDH release in this epithelial cell line. Pre-incubation with 2 mM N-acetylcysteine (NAC) increased NPSH but not intracellular reduced glutathione and resulted in total inhibition of H2O2-induced LDH release in both cell types. Pretreatment with reduced glutathione protected both cell types against the injurious effects of H2O2, whereas glutathione monethyl ester (GSHMEE) only partially protected A549 cells and had no effect in 16HBE140- cells. Intracellular cysteine levels were increased in both cell lines following NAC exposure but not sufficiently to account for the increase in NPSH levels. These observations raise the possibility that a critical concentration of nonprotein thiols may be necessary to protect pulmonary epithelial cells against hydrogen peroxide-induced injury.
Proteolysis-inducing factor (PIF) is a novel sulfated glycoprotein initially identified as a protein capable of triggering muscle proteolysis during the process of cancer cachexia. Only skeletal muscle and liver exhibit substantial binding of PIF in adult tissue. Here, we demonstrate that PIF induces transcriptional regulation in both the liver endothelial cell line SK-HEP-1 and in human umbilical vein endothelial cells (HUVECs) but not in pulmonary artery endothelial cells. PIF differentially induces activation of nuclear factor-κB, resulting in the induction of proinflammatory cytokines [interleukin (IL)-8 and IL-6] and increased expression of the cell surface proteins intercellular adhesion molecule-1 and vascular cell adhesion molecule in SK-HEP-1 and HUVECs only. In addition, PIF induces the shedding of syndecans from the cell surface. Syndecans are involved in wound repair, metastasis of cancers, and embryonic development. These results suggest that PIF may play additional roles in the proinflammatory response observed in cancer cachexia but may also have a role without the cachectic process.
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