MECHANISMS OF THE INDUCTION OF APOPTOSIS IN HUMAN HEPATOMA CELLS BY TUMOUR NECROSIS FACTOR-α

Tumour necrosis factor alpha (TNF-α) at 20 ng/ml induced apoptosis in human hepatoma cellsin vitro . The effect of TNF-α-induced apoptosis was exacerbated by the hypoxanthine-xanthine oxidase (HX/XO) system and cycloheximide (CHX), but alleviated by superoxide dismutase (SOD), suggesting that TNF-α-induced apoptosis may be due to oxidative stress, and independent of protein synthesis. TNF-α elevated free Ca²⁺concentration, triggered lipid peroxidation and decreased the expression of bcl-2 protein. The findings suggest that TNF-α-induced apoptosis may be involved in stimulating Ca²⁺-dependent endonuclease activity and increasing membrane lipid peroxidation. Bcl-2 may play a pivotal role in serving as a Ca²⁺regulator or antioxidant, preventing lipid peroxidation in the process.     

Involvement of Two Types of TNF Receptor in TNF-α Induced Neutrophil Apoptosis

We previously demonstrated that tumor necrosis factor-α (TNF-α) induces rapid human neutrophil apoptosis. In this paper, we examined which of the TNF receptors, p55 kDa TNF receptor (55-R) or p75 kDa TNF receptor (75-R), or both are involved in this process using specific rabbit antisera. Antibodies to 55-R (anti55-R) or 75-R (anti75-R) alone did not induce neutrophil apoptosis. Further addition of cycloheximide and anti-rabbit immunoglobulin to anti55-R but not to anti75-R accelerated apoptosis, although anti75-R augmented the capacity of anti55-R to do so. These results suggest that 55-R is a prerequisite for TNF-α induced neutrophil apoptosis.     

SIGNALLING TO TRANSLATIONAL ACTIVATION OF TUMOUR NECROSIS FACTOR-α EXPRESSION IN HUMAN THP-1 CELLS

Monocytic THP-1 cells expressed tumour necrosis factor-α (TNF-α) mRNA, but hardly any detectable TNF-α protein and a partially activated MAP kinase ERK-2 in the unstimulated state. Stimulation with phorbol ester led to expression of TNF-α protein without significant changes in mRNA, a response that was sensitive to the MEK-1/2 inhibitors PD98059 and U0126. A calcium signal also led to expression of TNF-α protein, but now accompanied by a rapid increase in mRNA. A synergistic effect between phorbol ester and calcium ionophore was evident at the level of TNF-α protein, but not its mRNA. Stimulation with anisomycin led to a TNF-α expression that was sensitive to the p38 inhibitor SB203580. Actinomycin D lowered TNF-α mRNA in a similar way as PD98059 but was less inhibitory on PMA- or anisomycin-induced formation of TNF-α, thus confirming that these agents acted by causing translational derepression. Thus, in THP-1 cells MAP kinase pathways involving MEK-1/2 and possibly ERK-2 as well as the human p38 analogue were essential for basal TNF-α mRNA expression and translational activation.     

Ultraviolet B irradiation modulates susceptibility to tumour necrosis factor-alpha-induced apoptosis via induction of death receptors in murine fibroblasts.

Ultraviolet B (UVB) irradiation causes cell death by apoptosis in murine fibroblast cells. Tumor necrosis factor-alpha (TNF-alpha) is also a well known inducer of apoptosis, although the physiological significance of this activity is poorly understood. We investigated the effects of pretreatment with UVB (312 nm) on TNF-alpha-induced apoptosis in murine fibroblast cells. UVB enhanced susceptibility to cell death by TNF-alpha in a dose-dependent manner. UVB but not TNF-alpha induced the expression of TNF receptor type-1 (TNFR-1) and type-2 (TNFR-2) in a dose-dependent manner. Expression of Fas (CD95) and Fas-ligand (Fas-L), and significant DNA fragmentation were observed in the cells that died. These results suggest that UVB irradiation modulates susceptibility to TNF-alpha-induced apoptosis through the induction of TNFRs, Fas, and Fas-L in murine fibroblasts.     

SENSITIVITY OF DAUDI CELLS TO TUMOR NECROSIS FACTOR ALPHA: EARLY CHANGES IN POLYPHOSPHOINOSITIDE METABOLISM

The effects of recombinant Tumor Necrosis Factor α (r-TNF α) on polyphosphoinositide metabolism were examined in a Burkitt Lymphoma cell line (Daudi cells). After 1h of in vitro treatment with r-TNF α, the incorporation of³²Pi into phosphatidylinositol 4,5-phosphate (PtdInsP₂), phosphatidylinositol 4-phosphate (PtdInsP) and phosphatidylinositol (PtdIns) was reduced compared with controls, confirming previous findings observed in other cell lines of a specific PtdIns breakdown following r-TNF α treatment. The novelty of this study is therefore the demonstration of early changes in polyphosphoinositide metabolism during the antiproliferative response elicited by this cytokine in Daudi cells.     

Inhibition by Bacterial Lipopolysaccharide of Spontaneous and TNF-α-Induced Human Neutrophil Apoptosis In Vitro

In the previous paper (Takeda et al, Int. Immunol., 5, 691-694, 1993), we demonstrated that tumor necrosis factor-α (TNF-α) promptly accelerates apoptosis of human neutrophils in vitro. In order to determine the role of neutrophil apoptosis in defending against bacterial infection, we studied the effect of bacterial lipopolysaccharide (LPS) on this process. LPS inhibited spontaneous and TNF-α-induced human neutrophil apoptosis in vitro, as determined by 1) light and electron microscopy, 2) flow cytometry, and 3) agarose gel electrophoresis of DNA. Low concentrations of cycloheximide, a protein synthesis inhibitor, which alone did not affect neutrophil apoptosis, were able to reduce spontaneous apoptosis inhibition by LPS, suggesting the involvement of newly synthesized protein in this phenomenon.     

Nicotine blocks TNF-α-mediated neuroprotection to NMDA by an α-bungarotoxin-sensitive pathway

Excitotoxic neuronal death mediated by N-methyl-D -aspartate (NMDA) glutamate receptors can contribute to the extended brain damage that often accompanies trauma or disease. Both the inflammatory cytokine tumor necrosis factor-α (TNF-α) and nicotine have been identified as possible neuroprotective agents to NMDA assault. We find that TNF-α protection of a subpopulation of cultured cortical neurons to chronic NMDA-mediated excitotoxic death requires both the activation of the p55/TNFRI, but not p75/TNFRII, and the release of endogenous TNF-α. Nicotine protection to NMDA was mediated through an α-bungarotoxin-sensitive receptor. When coapplied, neuroprotection to NMDA by either TNF-α or nicotine was abolished but could be recovered with α-bungarotoxin. These results suggest that the cytokine TNF-α and α-bungarotoxin-sensitive nicotinic neurotransmitter receptors confer neuroprotection through potentially antagonistic pathways. © 1998 John Wiley & Sons, Inc. J Neurobiol 35: 29–36, 1998     

α-KETOGLUTARATE UPTAKE IN HUMAN FIBROBLASTS

Glutamine requirements are increased during injury, in particular to sustain the needs of rapidly growing cells. This includes fibroblasts involved in wound healing. α-Ketoglutarate (α-KG) has been proved to be a potent precursor of glutamine. However, little is known about the process of its cell uptake. Since this first step could be crucial in α-KG metabolism, we have characterized α-ketoglutarate uptake in fibroblasts. Total uptake of α-ketoglutarate was linear up to 1mmol and temperature independent. Rate of uptake was independent of the presence of Na⁺in the medium. Competition studies with another ketoacid demonstrated the non-specificity of α-ketoglutarate uptake. In addition, 4-hydroxy-α-cyanocinnamate, a known inhibitor of anion transport, was ineffective on α-ketoglutarate uptake. Taken as a whole, these data provide evidence that α-ketoglutarate uptake in fibroblast occurs by an unmediated diffusion process. This suggests that α-ketoglutarate uptake is not the controlling step in fibroblasts, i.e. only the availability of extracellular α-ketoglutarate. This could be an advantage since during injury, cell membrane depolarization and dissipation of Na⁺gradient may limit cellular glutamine uptake.     

Contrasting effects of interferon γ and interleukin 4 on responses of human vascular endothelial cells to tumour necrosis factor α

Tumour necrosis factor α (TNF-α) and interleukin 4 (IL-4) selectively synergise in inducing expression of the mononuclear cell adhesion receptor VCAM-1 (vascular cell adhesion molecule-1) on human umbilical vein endothelialcells (HUVEC), which results in increased adhesiveness of HUVEC for T lymphocytes. This process may be crucial for adherence of circulating lymphocytes prior to their passage from the blood into inflammatory tissues. IL-4 also amplifies production of interleukin 6 (IL-6) and monocyte chemotactic protein-(MCP-1) from TNF-α-activated HUVEC. In the present study we demonstrate that IL-4 enhances production of granulocyte-macrophage colon-stimulating factor (GM-CSF) from TNF-α-stimulated HUVEC. Moreover, using cultured adult saphenous vein and umbilical artery endothelial cells, we show identical effects of IL-4 on TNF-α-induced responses to those observed with endothelial cells of foetal origin. Additionaly, we report here that TNF-α and interferon γ (IFN-γ) synergise in the induction of both the lymphocyte adhesion receptor VCAM-1, and the TNF-α-inducible neutrophil adhesion receptor intercellular adhesion molecule-1, on all three endothelial cell types studied. In contrast, we found that GM-CSF secretion by endothelial cells treated with IFN-γ plus TNF-α was markedly decreased when compared to the response by TNF-α alone. These results suggest that the combined actions of several cytokines, acting sequentially or in concert, may exert differential effects on activation and accumulation of circulating lymphocytes at sites of inflammation.     

PLCγ1–PKCγ Signaling‐Mediated Hsp90α Plasma Membrane Translocation Facilitates Tumor Metastasis

The 90‐kDa heat shock protein (Hsp90α) has been identified on the surface of cancer cells, and is implicated in tumor invasion and metastasis, suggesting that it is a potentially important target for tumor therapy. However, the regulatory mechanism of Hsp90α plasma membrane translocation during tumor invasion remains poorly understood. Here, we show that Hsp90α plasma membrane expression is selectively upregulated upon epidermal growth factor (EGF) stimulation, which is a process independent of the extracellular matrix. Abrogation of EGF‐mediated activation of phospholipase (PLCγ1) by its siRNA or inhibitor prevents the accumulation of Hsp90α at cell protrusions. Inhibition of the downstream effectors of PLCγ1, including Ca²⁺ and protein kinase C (PKCγ), also blocks the membrane translocation of Hsp90α, while activation of PKCγ leads to increased levels of cell‐surface Hsp90α. Moreover, overexpression of PKCγ increases extracellular vesicle release, on which Hsp90α is present. Furthermore, activation or overexpression of PKCγ promotes tumor cell motility in vitro and tumor metastasis in vivo, whereas a specific neutralizing monoclonal antibody against Hsp90α inhibits such effects, demonstrating that PKCγ‐induced Hsp90α translocation is required for tumor metastasis. Taken together, our study provides a mechanistic basis for the role for the PLCγ1–PKCγ pathway in regulating Hsp90α plasma membrane translocation, which facilitates tumor cell motility and promotes tumor metastasis.     

Involvement of PPARα and PPARγ in apoptosis and proliferation of human hepatocarcinoma HepG2 cells

Peroxisome proliferator‐activated receptors (PPARs) mediate the effects of various ligands, known as peroxisome proliferators, a heterogeneous class of compounds including industrial chemicals, pharmaceuticals, and biomolecules such as fatty acids and eicosanoids. Among peroxisome proliferators, fibrate derivatives are considered specific ligands for PPARα, whereas eicosanoids, such as PGJ2, for PPARγ. The study aimed to clarify the relation between PPARs and apoptosis or proliferation on the same type of cells, using clofibrate as specific ligand of PPARα and PGJ2 as specific ligand of PPARγ. The cells used were human hepatocarcinoma HepG2 cells. The results showed that PPARα protein content increased in HepG2 cells treated with clofibrate, causing apoptosis in a time‐ and concentration‐dependent way, as evidenced by the citofluorimetric assay and determination of BAD, myc and protein phosphatase 2A protein content. It also emerged that PPARγ increased in the same cells when treated with a specific ligand of this PPAR; in this case the increase of PPARγ did not cause an increase of apoptosis, but a time‐ and concentration‐dependent inhibition of cell proliferation, evidenced by decreased cell numbers and increased number of cells in the G0/G1 phase of the cycle. It may be concluded that PPARα is chiefly related to apoptosis and PPARγ to cell proliferation. Copyright © 2010 John Wiley & Sons, Ltd.     

Acridinium ester labelled cytokines: Receptor binding studies with human interleukin-1α, interleukin-1β and interferon-γ

As a consequence of environmental protection and legal restrictions, increasing efforts are made to avoid radioactivity. One alternative is the labelling of ligands with chemiluminescent acridinium esters such as 2,6,-dimethyl-4-(N-succinimidyloxycarbonyl)phenyl 10-methylacridinium-9-carboxylate methosulphate (DMAE-NHS). When exposed to hydrogen peroxide in a basic solution, the DMAE-moiety decays with emission of a short-lasting chemiluminescent flash. With the goal of replacing the radioactive label in protein ligands with a DMAE label, and of increasing the efficiency by using microtitre plate technology for DMAE detection, we compared the receptor binding properties of iodinated interleukin-1α (¹²⁵I-IL-1α), interleukin-1β (¹²⁵I-IL-1β) and interferon-γ (¹²⁵I-IFN-γ) with the corresponding DMAE-labelled ligands. The luminescence signal was assessed in a single-tube luminometer and in the prototype of a chemiluminescent microtitre plate reader. Derivatization of the three proteins with DMAE-N-hydroxy-succinimide resulted in photon yields of up to 100,000 counts per femtomole. As shown by Scatchard analysis, no significant loss of receptor binding affinity was observed, which might have been expected as a consequence of the chemical modification of the proteins. The use of DMAE labelling of proteins has the following advantages as compared to iodination: (i) the coupling reaction and binding assay can be performed in a normal laboratory, (ii) since there is no radiolysis, the DMAE-labelled proteins remain stable, (iii) the detection sensitivity may be improved as a consequence of higher specific activity of the DMAE label. Thus, the method could be used to replace the standard ¹²⁵I label in receptor screening assays as well as other applications.     

LYMPHOTOXIN-α (TNF-β) DURING SEPSIS

T cell release of lymphotoxin-α (LT-α, or TNF-β) is stimulated by pyrogenic exotoxins of Gram-positive bacteria and mitogens. In contrast to TNF-α, it is unknown whether LT-α plays any role in the pathogenesis of sepsis and, in particular, the pathogenesis of Gram-positive sepsis. Sera from patients with sepsis were examined for LT-α and compared with normal volunteers and pregnant women. LT-α was detected in 33% of sepsis sera (mean 608.4 pg/ml SE 306), 16% of normal sera (mean 167 pg/ml SE 87) and 23% of sera from pregnant women (mean 714 pg/ml SE 191). These differences were not significant and there were no differences within species sera when grouped by the type of causative organism, or disease severity. LT-α detected by immunoassay in serum was not bioactive, in contrast to that produced in cell culture. Recombinant soluble TNF receptors (rSTNFR) neutralized the bioactivity of recombinant LT-α at rSTNFR concentrations which did not interfere with immunoreactivity and which are known to prevailin vivo. Hence, LT-α is unlikely to have a critical role in the pathogenesis of sepsis. Much of the potential bioactivity of this lymphokine may be abrogated by TNFR in serum.