Functional genomics of PPAR-γ in human immunomodulatory cells

Keeping in view the fact that peroxisome-proliferators activated receptors-PPARs (α,γ) play a crucial role in atherogenic inflammation, the present study was addressed to explore as to how selective and specific PPAR-γ gene silencing within human mononuclear cells affects genes involved in lipid metabolism and innate immune process. Such a study revealed that with respect to control cells, the PPAR-γ knock-out cells exhibited significant reduction in the expression of genes coding for PPAR- α, CD-36, LDL-R as well as significant increase in the expression of genes coding for IL-4, IL-8, IFN-γ, CX3CR1, hTERT. However, the expression of genes coding for LXR-α and Receptor-C _k could not be detected in PPAR-γ knock-out cells. Based on these results, we propose that PPAR-γ gene has the inherent capacity to influence the lipid mediated inflammation process in atherosclerotic lesions.     

Increased ROS generation and p53 activation in α-lipoic acid-induced apoptosis of hepatoma cells

α-lipoic acid (α-LA) is an antioxidant used for the treatment of a variety of diseases, including liver cirrhosis, heavy metal poisoining, and diabetic polyneuropathy. In addition to its protective effect against oxidative stress, α-LA induces apoptosis in different cancer cells types. However, whether α-LA acid induces apoptosis of hepatoma cells is unknown. Herein, we investigated whether α-LA induces apoptosis in two different hepatoma cell lines FaO and HepG2. The results showed that α-LA inhibits the growth of both cell lines as indicated by the reduction in cell number, the reduced expression of cyclin A and the increased levels of the cyclin/CDKs inhibitors, p27^Kip1 and p21^Cip1. Cell cycle arrest was associated with cell loss, and DNA laddering indicative of apoptosis. Apoptosis was preceded by increased generation of reactive oxygen species, and associated with p53 activation, increased expression of Bax, release of cytochrome c from mitochondria, caspases activation, decreased levels of survivin, induction of pro-apoptotic signaling (i.e JNK) and inhibition of anti-apoptotic signaling (i.e. PKB/Akt) pathways. In conclusion, this study provides evidence that α-LA induces apoptosis in hepatoma cells, describes a possible sequence of molecular events underlying its lethal effect, and suggests that it may prove useful in liver cancer therapy.     

Involvement of p38α in the mitotic progression of p53-/- tetraploid cells

The tumor suppressor protein p53 plays a major role in preserving genomic stability. p53 suppresses a pathway leading from normal diploidy to neoplastic aneuploidy (via an intermediate metastable stage of tetraploidy) at two levels: first by preventing the generation/survival of tetraploid cells, and second by repressing their aberrant multipolar division. Here, we report the characterization of p53^-/- tetraploid cells, which - at difference with both their p53^-/- diploid and their p53^+/+ tetraploid counterparts - manifest a marked hyperphosporylation of the mitogen-activated protein kinase MAPK14 (best known as p38α) that is particularly strong during mitosis. In p53^-/- tetraploid cells, phosphorylated p38α accumulated at centrosomes during the metaphase and at midbodies during the telophase. Selective knockdown or pharmacological inhibition of p38α had a dramatic effect on p53^-/- (but not p53^+/+) tetraploids, causing the activation of the spindle assembly checkpoint, an arrest during the metaphase, a major increase in abnormal bipolar and monopolar mitoses, as well as an increment in the generation of multinuclear cells. We conclude that the mitotic progression of p53^-/- (but not p53^+/+) tetraploids heavily relies on p38α, revealing a novel function for this protein in the context of aneuploidizing cell divisions.     

Involvement of both tumor necrosis factor-α-induced necrosis and p53-mediated caspase-dependent apoptosis in nephrotoxicity of cisplatin

We previously reported that necrosis occurs predominantly in porcine renal tubular LLC-PK₁ cells, when the cells were exposed transiently to a high concentration of cisplatin. Moreover, we demonstrated that generation of reactive oxygen species and subsequent production of tumor necrosis factor-α (TNF-α) through phosphorylation of p38 MAPK are implicated in the pathogenesis of cisplatin-induced renal cell injury. However, some TUNEL-positive cells appeared in renal proximal tubules of rats after systemic injection of cisplatin, suggesting an involvement of apoptosis. In the present study, we found in LLC-PK₁ cells that both apoptosis and necrosis were elicited when the cells were exposed to 200 μM cisplatin for 1 h followed by incubation for 24 h in the presence of 20 μM cisplatin. The cisplatin-induced necrosis was largely attenuated by the antioxidant N-acetylcysteine, while apoptosis was prevented by the specific inhibitors for caspases-2, -8, and -3 and a p53 inhibitor pifithrin-α but not by the p38 MAPK inhibitor SB203580. On the other hand, SB203580 attenuated the cisplatin-induced increase in TNF-α production. These findings suggest that p53-mediated activations of caspases-2, -8 and -3 play a key role in cisplatin-induced renal cell apoptosis, while oxidative stress-induced TNF-α synthesis via p38 MAPK phosphorylation contributed to the necrosis.     

PPARγ ligands induce growth inhibition and apoptosis through p63 and p73 in human ovarian cancer cells

Peroxisome proliferator-activated receptor gamma (PPARγ) agonists, including thiazolidinediones (TZDs), can induce anti-proliferation, differentiation, and apoptosis in various cancer cell types. This study investigated the mechanism of the anticancer effect of TZDs on human ovarian cancer. Six human ovarian cancer cell lines (NIH:OVCAR3, SKOV3, SNU-251, SNU-8, SNU-840, and 2774) were treated with the TZD, which induced dose-dependent inhibition of cell growth. Additionally, these cell lines exhibited various expression levels of PPARγ protein as revealed by Western blotting. Flow cytometry showed that the cell cycle was arrested at the G1 phase, as demonstrated by the appearance of a sub-G1 peak. This observation was corroborated by the finding of increased levels of Bax, p21, PARP, and cleaved caspase 3 in TGZ-treated cells. Interestingly, when we determined the effect of p53-induced growth inhibition in these three human ovarian cancer cells, we found that they either lacked p53 or contained a mutant form of p53. Furthermore, TGZ induced the expression of endogenous or exogenous p63 and p73 proteins and p63- or p73-directed short hairpin (si) RNAs inhibited the ability of TGZ to regulate expression of p21 in these cells. Thus, our results suggest that PPARγ ligands can induce growth suppression of ovarian cancer cells and mediate p63 and p73 expression, leading to enhanced growth inhibition and apoptosis. The tumor suppressive effects of PPARγ ligands may have applications for the treatment of ovarian cancer.     

Role of p38γ MAPK in regulation of EMT and cancer stem cells

p38γ is a member of p38 MAPK family which contains four isoforms p38α, p38β, p38γ, and p38δ. p38γ MAPK has unique function and is less investigated. Recent studies revealed that p38γ MAPK may be involved in tumorigenesis and cancer aggressiveness. However, the underlying cellular/molecular mechanisms remain unclear. Epithelial-mesenchymal transition (EMT) is a process that epithelial cancer cells transform to facilitate the loss of epithelial features and gain of mesenchymal phenotype. EMT promotes cancer cell progression and metastasis, and is involved in the regulation of cancer stem cells (CSCs) which have self-renewal capacity and are resistant to chemotherapy and target therapy. We showed that p38γ MAPK significantly increased EMT in breast cancer cells; over-expression of p38γ MAPK enhanced EMT while its down-regulation inhibited EMT. Meanwhile, p38γ MAPK augmented CSC population while knock down of p38γ MAPK decreased CSC ratio in breast cancer cells. MicroRNA-200b (miR-200b) was down-stream of p38γ MAPK and inhibited by p38γ MAPK; miR-200b mimics blocked p38γ MAPK-induced EMT while miR-200b inhibitors promoted EMT. p38γ MAPK regulated miR-200b through inhibiting GATA3. p38γ MAPK induced GATA3 ubiquitination, leading to its proteasome-dependent degradation. Suz12, a Polycomb group protein, was down-stream of miR-200b and involved in miR-200b regulation of EMT. Thus, our study established an important role of p38γ MAPK in EMT and identified a novel signaling pathway for p38γ MAPK–mediated tumor promotion.     

Involvement of integrin α5β1 in apoptosis and drug resistance of human breast carcinoma cells

The doxorubicin-resistant MCF-7Dox cell line derived from the drug-sensitive MCF-7 human breast carcinoma cell line, differs from the latter by a strongly reduced expression of the α2β1 integrin and a highly increased ex-pression of the α5β1 integrin. Silencing of this integrin in the MCF-7Dox cells by transfection with α5-specific siRNA markedly stimulated anoikis and increased sensitivity of these cells to doxorubicin. α5β1 silencing was also accompanied by a significant inhibition of the activity of signal protein kinases Akt and Erk2. Our results suggest involvement of common integrin-mediated signal mechanisms controlling apoptotic cell death under various stress conditions.     

Docosahexaenoic acid sensitizes Ramos cells to Gamma-irradiation-induced apoptosis through involvement of PPAR-γ activation and NF-κB suppression

The aim of the present study was to characterize the effects of chronic nitric oxide synthase (NOS) inhibition on the alterations of regulatory myocardial proteins of intracellular signaling pathways (mitogen-activated protein kinase (MAPK) and Akt kinase cascades) and matrix metalloproteinases (MMP). Chronic NO deficiency (NOD) was induced by N^G-nitro-L-arginine methyl ester (L-NAME, 40mg/kg/day, 4 weeks). Protein levels and activation of protein kinases were determined using specific antibodies, activities of MMP were analyzed by zymography in gels containing gelatin as a substrate. The development of NOD was associated with decreased activation of endothelial NOS (eNOS) and down-regulation of protein level of inducible NOS (iNOS). Investigation of kinase pathways revealed that the activation of extracellular signal-regulated kinases (ERK) and the levels of upstream activators of ERK (aFGF, H-Ras) were decreased after L-NAME treatment. Western blot analysis revealed that chronic application of L-NAME also decreased the activation of Akt kinase as compared with control hearts. Study of MMPs showed that in L-NAME-treated rat hearts activities of tissue MMP-2 were decreased. It is concluded that development of NOD resulted in inhibition of ERK and Akt kinase pathways and these changes suggest the involvement of these cascades in responses of myocardium to NOD. The results also point to the possible relationship between ERK and Akt kinase pathways and activation of eNOS and/or MMP-2. Anna Špániková and Petra Šimončíková have contributed equally to the study.     

Involvement of caspase activation and mitochondrial stress in taxol-induced apoptosis of Epstein–Barr virus-infected Akata cells

Taxol (paclitaxel) is one of the most potent antimicrotubule agents currently used in cancer chemoprevention and treatment. However, the effects of taxol on the induction of apoptosis in Epstein–Barr virus (EBV)-infected cells are unknown. This study investigated the mechanisms of taxol on cell cycle arrest and apoptosis induction using the EBV-infected cell line, Akata. Taxol treatment sensitively and dose-independently induced growth inhibition, cytotoxicity, and apoptosis in the cells, which was demonstrated by the decreased level of tritium incorporation and cell viability, the increased number of positively stained cells in the trypan blue staining and TUNEL assay, the increased population of cells in the sub-G₀/G₁ phase in flow cytometric analysis, and ladder formation of the genomic DNA. Treatment with z-VAD-fmk almost completely protected the cells from taxol-induced apoptosis indicating that the taxol-induced apoptosis of Akata cells is caspase-dependent. In addition, taxol-induced apoptosis is proposed to be associated with a lower mitochondrial membrane potential and G₂/M arrest. However, the tubulin expression level doses not appear to be a direct mediator of taxol-induced apoptosis in cells. The presence of EBV in these cells was not related to the sensitivity of the cells to the induction of apoptosis by taxol. Overall, these results demonstrate that taxol induces apoptosis in EBV-infected Akata cells in a dose-independent manner, and that caspase activation and mitochondrial stress are involved in the induction.     

Possible Involvement of PPAR-γ in the Anticonvulsant Effect of Aegle marmelos (L.) Correa

Aegle marmelos is well documented for antihyperglycemic effect and PPAR-γ activation has been suggested to be the molecular mechanism of its action. Also, the plant has been used in Ayurveda as a brain tonic and has been postulated to have antidepressant activities. The present study was designed to investigate the anticonvulsant effects of A. marmelos leaf extract (AME) in pentylenetetrazole and maximal electroshock induced convulsions; involvement of PPAR-γ, nitric oxide pathway and effect of chronic AME treatment on post-ictal depression. AME was administered at doses of 50, 100 and 200 mg kg^?1 in PTZ and MES model. Severity of convulsions was noted in both the models. Pretreatment with bisphenol A diglycidyl ether (BADGE) was used to study the involvement of PPAR-γ and l-arginine and N-nitro-l-arginine methyl ester hydrochloride (l-NAME) to study the involvement of nitric oxide (NO). Chronic treatment with AME interspersed with sub maximal doses of PTZ (50 mg kg^?1) on every fifth day up to 15 days was given to study post-ictal depression using forced swimming and actophotometer. AME showed significant increase in the onset time and decrease in the duration of convulsions in PTZ and MES models dose dependently. In MES a dose of 100 mg kg^?1 had effect comparable to phenytoin. Pretreatment with BADGE and l-arginine reversed the protective effect while l-NAME did not alter the protective effect, thereby indicating possible involvement of PPAR-γ and inhibition of NO. Chronic AME treatment ameliorated the post-seizure depression significantly as evidenced by increase in the locomotor activity and decrease in the immobility time.     

Regulatory T cells expressing PPAR-γ control inflammation in obesity

A recent study (Cipolletta et al., 2012) shows that regulatory T (Treg) cells expressing the peroxisome-proliferator- activated receptor (PPAR-γ) are engaged in suppressing adipose tissue inflammation in obesity, suggesting that Treg cells may be a target for treatment and prevention of adipose tissue inflammation and insulin resistance.     

Stimulation of IFN-γ production by garlic lectin in mouse spleen cells: Involvement of IL-12 via activation of p38 MAPK and ERK in macrophages

Several lectins, present in beans and edible plant products, have immuno-potentiating and anti-tumor activities. We here report the effects of garlic lectin purified from garlic bulbs on the production of cytokines such as interleukin-12 (IL-12) and interferon-γ (IFN-γ) in the mouse. Garlic lectin induced IFN-γ production in spleen cells in a bell-shaped time (24-60 h)- and concentration (0.25-2.0 mg/ml)-dependent manner. The maximal enhancement was observed at 36 h with 0.5 mg/ml of garlic lectin. The stimulatory effect of garlic lectin on IFN-γ production was completely inhibited by both actinomycin D and cycloheximide, an inhibitor of ribosomal protein synthesis and DNA-dependent RNA polymerase, respectively, and was associated with an increase in IFN-γ mRNA level. Garlic lectin also induced IL-12 production in mouse peritoneal macrophages in a concentration (0.25-1.0 mg/ml)- and bell-shaped time (3-24 h)-dependent manner. The lectin increased the phosphorylation of extracellular signal-regulated kinases (ERK) and p38 mitogen-activated protein kinase (p38 MAPK) in macrophages. Furthermore, specific pharmacological inhibitors of ERK kinase (U0126) and p38 MAPK (SB203580) also suppressed the production of IL-12 induced by garlic lectin. The present findings suggest that garlic lectin induces IL-12 production via activation of p38 MAPK and ERK in mouse macrophages, which, in turn, stimulates IFN-γ production through an increase in IFN-γ mRNA in the spleen cells.     

Involvement of protein kinase Cδ in induction of apoptosis by cationic liposomes in macrophage-like RAW264.7 cells

We have recently demonstrated that reactive oxygen species (ROS) play an important role in RAW264.7 cell apoptosis induced by cationic liposomes composed of stearylamine (SA-liposomes). In this study, we investigated whether protein kinase Cδ PKCδ) is involved in apoptosis induced by cationic liposomes. Tyrosine phosphorylation, nuclear localization, and cleavage of PKCδ were observed following the treatment of cells with SA-liposomes, suggesting that SA-liposomes activate PKCδ. Rottlerin, a specific inhibitor of PKCδ, inhibited ROS generation and also suppressed apoptosis. Cell surface proteoglycans may contribute to PKCδ activation by SA-liposomes. These findings suggest that PKCδ is strongly associated with apoptosis induced by SA-liposomes.     

Growth arrest and induction of apoptosis in breast cancer cells by antisense depletion of protein kinase A-RIα subunit: p53-independent mechanism of action

The enhanced expression of the RI subunit of cyclic AMP-dependent protein kinase type 1 (PKA-I) has been correlated with cancer cell growth. We have investigated the effects of sequence-specific inhibition of RI gene expression on the growth of MCF-7 human breast cancer cells. We report that RI antisense treatment results in a reduction in RI expression at both mRNA and protein levels and inhibition of cell growth. The growth inhibition was accompanied by changes in cell morphology, cleavage of poly(ADP-ribose) polymerase (PARP) and appearance of apoptotic nuclei. In addition, bcl-2 protein level was reduced and p53 expression increased in growth arrested cells. Interestingly, RI antisense inhibited cell viability and induced apoptosis in the absence of p53, suggesting that these actions of RI antisense are exerted independent of p53. In contrast, two- and four-base mismatched control oligonucleotides had no effect on either cell growth or morphology. These results demonstrate that the RI antisense, which efficiently depletes the growth stimulatory molecule RI, induces cell differentiation and apoptosis, providing a new approach to combat breast cancer cell growth.