Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:2.4.2.30 (PARP)
13,611 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Non-small cell lung cancer (NSCLC) is highly resistant to chemotherapy and radiation. Because these treatments induce apoptosis, efforts are underway to define molecular events opposing cell death in NSCLC cells. The transcription factor Stat3 was reported recently to promote growth of several human NSCLC cell lines, including A549. Because Stat1 and Stat3 often elicit opposite effects, we assessed whether Stat1 would couple to A549 cell apoptosis. Interferon-gamma (IFN-gamma) markedly induced Jak1 and Stat1 activation in cells cultured under optimal growth conditions. IFN-gamma also activated Stat3. IFN-gamma inhibited proliferation but did not induce apoptosis; however, IFN-gamma synergized with activation of Fas to induce apoptosis, as indexed by cleavage of caspase-3 and poly(ADP-ribose) polymerase (PARP), as well as DNA laddering. Knockdown of Stat1 or Stat3 with small interfering RNA (siRNA), separately or together, did not inhibit apoptosis, although a paninhibitor of Jak1 did. Our findings suggest that the proapoptotic actions of IFN-gamma in A549 cells occur downstream of Jak1 activation by a noncanonical pathway that does not involve the Jak1 target, Stat1.
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PMID:Jak inhibition, but not Stat1 knockdown, blocks the synergistic effect of IFN-gamma on Fas-induced apoptosis of A549 human non-small cell lung cancer cells. 1726 40

This study evaluated cryoablation on subcutaneously transplanted tumors of lung adenocarcinoma LA795 in T739 mice in vivo, in an effort to assess the feasibility of cryoablation in treatment of NSCLC. Subcutaneously transplanted lung adenocarcinoma LA795 was implanted into T739 mice yielding tumors of approximately 2.5 cm in diameter. Following cryoablation, the various modes of cell death were studied: necrosis in the central frozen zone by light microscopy and apoptosis in periphery of the frozen zone by in situ end labeling (TUNEL). Bc1-2 and bax expression were detected by immunohistochemical SABC procedures, and the cleavage and activation of Caspase 3 and PARP in peripheral zone by Western blot. We find that in central cryoablated zone, necrosis was the dominant mode of cell death occurring at three hours and four days post-thaw. The first three-hour necrosis peak involved approximately 47% of the tumor while the four-day peak increased in volume to 68% of the tumor. In peripheral cryoablation zone, definite cell apoptosis could be observed by morphological examination under light microscope and TUNEL staining, peaking at 8-16 h after cryoablation. Immunohistochemical results yielded little change in bcl-2 protein expression before and after cryoablation. However, bax protein expression was up-regulated significantly after cryoablation. In addition, cleavage and activation of Caspase-3 and PARP occurred in the peripheral freeze zone after the treatment. It indicated that Cryoablation efficiently induces cell death both by necrosis and apoptosis. Cryoablation appears to induce apoptosis in the peripheral freeze zone through the intrinsic mitochondrial caspase pathway based on bax upregulation. This observation allows us to suggest that cryoablation may be combined with chemotherapy to increase cancer destruction.
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PMID:Cryoablation induces necrosis and apoptosis in lung adenocarcinoma in mice. 1799 94

p53-dependent apoptosis is important for the efficacy of cancer treatment, and tumors carrying mutant p53 are often resistant to chemotherapy. Non-small cell lung cancer (NSCLC) cells generally exhibit resistance to apoptosis following treatment with many cytotoxic drugs. The new molecule PRIMA-1 appears to kill human tumor cells by restoring the transcriptional activity to mutated p53. We investigated the induction of apoptosis in response to this drug in three NSCLC cell lines carrying different p53 proteins: A549 (p53wt), LX1 (p53R273H), and SKMes1 (p53R280K). PRIMA-1 alone did not trigger apoptosis but significantly reduced cell viability. However, in combination with adriamycin, PRIMA-1 strengthen the adriamycin-induced apoptosis in A549 and LX1. Interestingly, even in SKMes1 cells, the combined treatment triggered a strong PARP cleavage without DNA fragmentation. Our data suggest that in NSCLC cells, PRIMA-1 may induce cell death through pathways other than apoptosis but may synergize with adriamycin to trigger an apoptotic response.
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PMID:PRIMA-1 synergizes with adriamycin to induce cell death in non-small cell lung cancer cells. 1844 53

In this study, we investigate the anticancer effect of isoobtusilactone A (IOA), a constituent isolated from the leaves of Cinnamomum kotoense, on human non-small cell lung cancer (NSCLC) A549 cells. IOA was found to induce the arrest of G2-M phase, induce apoptosis, increase sub-G1, and inhibit the growth of these cells. Further investigation revealed that IOA's blockade of the cell cycle was associated with increased levels of p21/WAF1, p27 (kip1), and p53. In addition, IOA triggered the mitochondrial apoptotic pathway, as indicated by an increase in Bax/Bcl-2 ratios, resulting in a loss of mitochondrial membrane potential, release of cytochrome c, activation of caspase-9 and caspase-3, and cleavage of PARP. We also found the generation of reactive oxygen species (ROS) to be a critical mediator in IOA-induced inhibition of A549 cell growth. In antioxidant and NO inhibitor studies, we found that by pretreating A549 cells with either N-acetylcystenine (NAC), catalase, mannitol, dexamethasone, trolox, or L-NAME we could significantly decrease IOA production of ROS. Moreover, using NAC to block ROS, we could significantly suppress IOA-induced antiproliferation, antimigration, and anti-invasion. Finally, we found that IOA inhibited the migration and invasion of A549 cell migration and invasion. Taken together, these results suggest that IOA has anticancer effects on A549 cells.
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PMID:Anticancer activity of isoobtusilactone A from Cinnamomum kotoense: involvement of apoptosis, cell-cycle dysregulation, mitochondria regulation, and reactive oxygen species. 1848 63

CD133 (prominin-1), a 5-transmembrane glycoprotein, has recently been considered to be an important marker that represents the subset population of cancer stem-like cells. Herein we report the isolation of CD133-positive cells (LC-CD133(+)) and CD133-negative cells (LC-CD133(-)) from tissue samples of ten patients with non-small cell lung cancer (LC) and five LC cell lines. LC-CD133(+) displayed higher Oct-4 expressions with the ability to self-renew and may represent a reservoir with proliferative potential for generating lung cancer cells. Furthermore, LC-CD133(+), unlike LC-CD133(-), highly co-expressed the multiple drug-resistant marker ABCG2 and showed significant resistance to chemotherapy agents (i.e., cisplatin, etoposide, doxorubicin, and paclitaxel) and radiotherapy. The treatment of Oct-4 siRNA with lentiviral vector can specifically block the capability of LC-CD133(+) to form spheres and can further facilitate LC-CD133(+) to differentiate into LC-CD133(-). In addition, knock-down of Oct-4 expression in LC-CD133(+) can significantly inhibit the abilities of tumor invasion and colony formation, and increase apoptotic activities of caspase 3 and poly (ADP-ribose) polymerase (PARP). Finally, in vitro and in vivo studies further confirm that the treatment effect of chemoradiotherapy for LC-CD133(+) can be improved by the treatment of Oct-4 siRNA. In conclusion, we demonstrated that Oct-4 expression plays a crucial role in maintaining the self-renewing, cancer stem-like, and chemoradioresistant properties of LC-CD133(+). Future research is warranted regarding the up-regulated expression of Oct-4 in LC-CD133(+) and malignant lung cancer.
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PMID:Oct-4 expression maintained cancer stem-like properties in lung cancer-derived CD133-positive cells. 1861 34

Roscovitine has been reported to have anti-proliferative properties and is in process of undergoing clinical trials. In addition to its intrinsic anticancer properties, it has recently been suggested that roscovitine may also enhance the activity of traditional chemo- and radio- therapies in certain cancer cell lines. The purpose of this study was to define the activity of roscovitine in increasing radiosensitivity of human non-small cell lung cancer (NSCLC) cell line A549 cells in vitro. A549 cells were exposed to ionizing radiation (IR) of gamma-ray with or without roscovitine pretreatment. Clonogenic assay was performed and cell cycle and apoptosis were analyzed by flow cytometry. Expression of PARP, Ku70 and Ku80 proteins was detected by Western blot. The active form of caspase-3 positive cells were measured by flow cytometry. Our results showed that roscovitine caused dose-dependent apoptosis in A549 cells. Pretreatment with minimally toxic concentration of roscovitine significantly radiosensitized A549 cells by inhibiting colony formation. We then examined potential mechanisms that may contribute to the enhanced radiation response induced by roscovitine. Our results showed that the combination treatment significantly induced apoptosis in A549 cells compared to roscovitine or IR treatment alone. Meanwhile, in the co-treatment group, the percentage of cells with the active form of caspase-3 was markedly increased, while roscovitine or IR alone had little effect. Roscovitine decreased S phase cells when used alone or in sequential combination with IR. Furthermore, this combination treatment blocked DNA repair process after IR, indicated by down regulation of Ku70 and Ku80 proteins, while the singly used treatment did not. Taken together, these results suggest that roscovitine has the potential to act as a radio-sensitizer in A549 cells by promoting caspase-3 activity and increasing apoptosis, affecting cell cycle distribution and impairing DNA repair process.
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PMID:Enhancement of radiosensitivity by roscovitine pretreatment in human non-small cell lung cancer A549 cells. 1872 43

Lung cancer continues to be the leading cause of cancer-related mortality worldwide. This warrants the search for new and effective agents against lung cancer. We and others have recently shown that lanostane-type triterpenoids isolated from the fungal species Poria cocos (P. cocos) can inhibit cancer growth. However, the mechanisms responsible for the anticancer effects of these triterpenoids remain unclear. In this study, we investigated the effect of polyporenic acid C (PPAC), a lanostane-type triterpenoid from P. cocos, on the growth of A549 nonsmall cell lung cancer cells (NSCLC). The results demonstrate that PPAC significantly reduced cell proliferation via induction of apoptosis as evidenced by sub-G1 analysis, annexin V-FITC staining, and increase in cleavage of procaspase-8, -3, and poly(ADP-ribose)-polymerase (PARP). However, unlike our previously reported lanostane-type triterpenoid, pachymic acid, treatment of cells with PPAC was not accompanied by disruption of mitochondrial membrane potential and increase in cleavage of procaspase-9. Further, PPC-induced apoptosis was inhibited by caspase-8 and pan caspase inhibitors but not by a caspase-9 inhibitor. Taken together, the results suggest that PPAC induces apoptosis through the death receptor-mediated apoptotic pathway where the activation of caspase-8 leads to the direct cleavage of execution caspases without the involvement of the mitochondria. Furthermore, suppressed PI3-kinase/Akt signal pathway and enhanced p53 activation after PPAC treatment suggests this to be an additional mechanism for apoptosis induction. Together, these results encourage further studies of PPAC as a promising candidate for lung cancer therapy.
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PMID:Polyporenic acid C induces caspase-8-mediated apoptosis in human lung cancer A549 cells. 1897 84

Pyrogallol, a catechin compound, is an active component of Emblica officinalis extracts and has an anti-proliferative effect on some human cancer cell lines. In our preliminary study, pyrogallol had highly cytotoxic effect on human lung cancer cell lines and less effect on human bronchial epithelium cell line. This study was performed to investigate the beneficial effect of pyrogallol on human lung cancer cell lines - H441 (lung adenocarcinoma) and H520 (lung squamous cell carcinoma). The MTT (cytotoxic) data showed the inhibition growth of lung cancer cells followed pyrogallol treatment. The cell cycle of lung cancer cells was arrested in G2/M phase using flow cytometry. Using Western blot analysis, the cell cycle related proteins - cyclin B1 and Cdc25c were decreased in a time-dependent manner and the phosphorylated Cdc2 (Thr14) was increased within 4h pyrogallol treatment. Moreover, the higher cleavage of poly (ADP)-ribose polymerase (PARP), the increased of Bax concurrent with the decreased of Bcl-2 indicated that pyrogallol treatment resulted in apoptosis of lung cancer cells. The cell apoptosis was also directly demonstrated using Annexin V-FITC and TUNEL stain. Additionally, the tumoricidal effect of pyrogallol was measured using a xenograft nude mice model. After 5 weeks of pyrogallol treatment could cause the regression of tumor. Taken in vitro and in vivo studies together, these results suggest that pyrogallol can be developed as a promising anti-lung cancer drug particular for the non-small cell lung cancer (NSCLC).
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PMID:Pyrogallol induces G2-M arrest in human lung cancer cells and inhibits tumor growth in an animal model. 1923 5

Histone deacetylase (HDAC) inhibitors (HDIs) play an important role in the regulation of gene expression associated with cell cycle and apoptosis and have emerged as promising anticancer agents. In addition to their intrinsic anticancer properties, some studies have demonstrated that HDIs can modulate cellular responses to ionizing radiation (IR). Here we show evidence that co-treatment with the HDI trichostatin A (TSA) radiosensitizes human non-small cell lung cancer (NSCLC) A549 cells and H1650 cells. Cells were exposed to gamma-irradiation with or without TSA co-treatment. Clonogenic survival was significantly reduced in cells with TSA co-treatment. In A549 cells, TSA enhanced IR-induced accumulation of cells in G(2)/M phase, with upregulated expression of p21(waf1/cip1). In addition, TSA co-treatment caused pronounced apoptosis in irradiated cells, which was accompanied with p21(waf1/cip1) cleavage to a 15 kDa protein. The enhanced apoptotic effect was via mitochondrial pathway, as indicated by the increased dissipation of mitochondrial transmembrane potential (MMP) and release of cytochrome c from the mitochondria to the cytoplasm. Caspase-3 activation was also significantly increased, with accordingly more cleavage of PARP, associated with the repression of X-linked inhibitor of apoptosis protein (XIAP). Furthermore, TSA co-treatment impaired DNA repair capacity after IR by downregulation of Ku70, Ku80 and DNA-PKcs, reflected by enhanced and prolonged expression of gammaH2AX. Taken together, our results demonstrate that TSA acts as a powerful radiosensitizer in NSCLC cells by enhancing G(2)/M cell cycle arrest, promoting apoptosis through multiple pathways and interfering with DNA damage repair processes.
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PMID:Sensitization to gamma-irradiation-induced cell cycle arrest and apoptosis by the histone deacetylase inhibitor trichostatin A in non-small cell lung cancer (NSCLC) cells. 1945 85

Several lines of evidence suggest that non-steroidal anti-inflammatory drugs (NSAIDs) have a radiosensitizing effect on cancer cells in vitro and in vivo, but little is known about the underlying cellular mechanism. In this study, we found that the treatment with the NSAID nimesulide significantly increased the sensitivity of A549 human non-small cell lung cancer cells to radiotherapy. The combined nimesulide-radiation treatment increased apoptosis, induced the cleavage of caspase-3, caspase-9, and poly(ADP-ribose) polymerase (PARP), activated caspase-8, and induced cleavage of Bid. A pan-caspase inhibitor, z-VAD-fmk, suppressed this increase in apoptosis and also suppressed the cleavage of caspase-8, caspase-3, and PARP, suggesting a caspase-dependent mechanism. In addition, z-IETD-fmk, a selective caspase-8 inhibitor, suppressed the nimesulide- and radiation-induced cleavage activation of caspase-9, caspase-3, caspase-8, and Bid, and suppressed the concomitant apoptosis, indicating that the nimesulide-induced increase in radiosensitivity was initiated by caspase-8. However, the caspase-3 inhibitor z-DEVD-fmk failed to suppress activation of the caspase-8/Bid pathway, indicating that caspase-3 activation occurred downstream of caspase-8 activation in our experiments. Marked antitumor effects, which were evaluated by measuring protracted tumor regression, were observed when nude mice were treated with a combination of nimesulide at a clinically achievable dose (0.5 mg/kg) and radiation therapy. Our results, demonstrating the radiosensitivity-increasing and tumor growth-inhibiting effects of nimesulide, suggest that nimesulide may be suitable as an adjuvant to enhance the efficacy and selectivity of radiotherapy.
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PMID:Nimesulide, a selective COX-2 inhibitor, acts synergistically with ionizing radiation against A549 human lung cancer cells through the activation of caspase-8 and caspase-3. 1936 Mar 61


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