Dong-Sheng Pei

Keap1: one stone kills three birds Nrf2, IKKβ and Bcl-2/Bcl-xL.

Oxidative stress, implicated in the etiology of cancer, results from an imbalance in the production of Reactive Oxygen Species (ROS) and cells own antioxidant defenses. As a oxidative stress sensor, Keap1 functions as both an adaptor for Cul3⋅Rbx1 E3 ligase complex mediated degradation of the transcription factor Nrf2, and a master regulator of cytoprotective gene expression. Although Nrf2 is a well known substrate for Keap1, the DGR domain of Keap1 has been reported also to bind other proteins directly or indirectly. IKKβ as positive regulator of NF-κB is also destabilized by Keap1, which resulted in inhibiting NF-κB-derived tumor promotion. In addition, anti-apoptotic Bcl-2/Bcl-xL protein was identified as another substrate for the Keap1-Cul3-E3 ligase complex. Keap1 led to the repression and destabilization of Bcl-2, decreased Bcl-2:Bax heterodimers and facilitated cancer cells apoptosis. Given that Keap1 might function as a tumor suppressor protein to mitigate tumor progression, the different kinds of Keap1 somatic mutations were detected in numerous cancer cells. Therefore, it is important to understand the Keap1-involved signaling cascades. This review primarily focuses on the prevention of tumorigenesis role of Keap1 through negative regulation of three substrates Nrf2, IKKβ and Bcl-2/Bcl-xL, with emphasis on the recent findings indicating the cancer guarder function of Keap1.

Inhibition of renal cancer cell growth in vitro and in vivo with oncolytic adenovirus armed short hairpin RNA targeting Ki-67 encoding mRNA

RNA interference (RNAi) has been proved to be a powerful tool for gene knockdown purpose and holds great promise for the treatment of cancer. Our previous study demonstrated that the reduction of Ki-67 expression by means of chemically synthesized siRNAs and shRNAs expressed from plasmid resulted in proliferation inhibition in human renal carcinoma cells. In this study, we constructed a novel oncolytic adenovirus-based shRNA expression system, ZD55-Ki67, and explored ZD55-Ki67-mediated RNAi for Ki-67 gene silencing. Our results showed that ZD55-Ki67 could induce silencing of the Ki-67 gene effectively, allow for efficient tumor-specific viral replication and induce the apoptosis of tumor cells effectively in vitro and in nude mice. We conclude that combining shRNA gene therapy and oncolytic virotherapy can enhance antitumor efficacy as a result of synergism between CRAd oncolysis and shRNA antitumor responses.

Alterations of NMDA receptor subunits NR1, NR2A and NR2B mRNA expression and their relationship to apoptosis following transient forebrain ischemia

Glutamate excitotoxicity mediated by NMDA receptor activation plays a key role in many aspects of ischemic brain injury, but the expression of NMDA receptor subunits NR1, NR2A and NR2B mRNA and their relationship to apoptosis is still unclear. In this study, we applied in situ hybridization and TUNEL staining to investigate the expression of NMDA receptor subunit mRNA and apoptosis in hippocampus of rats after transient forebrain ischemia. The results showed that in the CA1 region, NR1 mRNA expression was significantly increased following ischemia-reperfusion (IR), reaching peak levels at IR 24h, and then gradually decreasing until IR 7 days. NR2A and NR2B mRNA expression dropped to lowest levels at IR 6h and IR 12h, respectively, and then started to recover. The mRNA expression of both NR2A and NR2B then increased to peak levels at IR 48h, followed by a sustained decline until IR 7 days. In the CA3 region and dentate gyrus the range of variation in mRNA expression was significantly reduced gradually. At IR 24h, apoptosis-positive cells were observed mainly in the CA1 region. The number of apoptosis-positive cells continuously grew and showed a dramatic increase at IR 48h and peaked at IR 72h. Then, the number of apoptosis-positive cells started to decrease, but at IR 7 days the apoptosis-positive cells still remained. These results indicate that the alterations of NMDA receptor subunit mRNA expression may contribute to the ischemic apoptosis of hippocampus after transient forebrain ischemia.

PAK5-Egr1-MMP2 signaling controls the migration and invasion in breast cancer cell

Abstractp21-activated kinases (PAKs) are activated by various extracellular stimuli and, in turn, activate other kinases by phosphorylating them at specific serine/threonine residues or through protein–protein interaction. As a recently identified member of the group B PAK family, the role of PAK5 in cancer is poorly understood. In this study, we investigated the effect of PAK5 on the malignant phenotype, such as proliferation, cell cycle, apoptosis, migration, and invasion. Cell growth assay and cell cycle analysis consistently showed that knockdown of PAK5 could significantly inhibit the proliferation of breast cancer cells. Wound healing assay. migration assay, and invasion assay showed that PAK5 promoted cell migration. Furthermore, in order to elucidate the underlying mechanism of PAK5 on cellular growth and migration, we examined the protein expressions of cyclin D1, p21, early growth response protein 1 (Egr1), and matrix metalloproteinase 2 (MMP2). Our work further reveals the PAK5-Egr1-MMP2 signaling pathway to be a critical regulator of cell migration and invasion. These results suggest that PAK5 may be a potential therapeutic target for breast cancer.

Oncolytic adenovirus expressing interleukin-18 induces significant antitumor effects against melanoma in mice through inhibition of angiogenesis

It has been shown that interleukin 18 (IL-18) exerts antitumor activity. In this study, we investigated whether oncolytic adenovirus-mediated gene transfer of IL-18 could induce strong antitumor activity. A tumor-selective replicating adenovirus expressing IL-18 (ZD55-IL-18) was constructed by insertion of an IL-18 expression cassette into the ZD55 vector, which is based on deletion of the adenoviral E1B 55-kDa gene. It has been shown that ZD55-IL-18 exerted a strong cytopathic effect and significant apoptosis in tumor cells. ZD55-IL-18 significantly decreased vascular endothelial growth factor and CD34 expression in the melanoma cells. Treatment of established tumors with ZD55-IL-18 showed much stronger antitumor activity than that induced by ZD55-EGFP (enhanced green fluorescent protein) or Ad-IL-18. These data indicated that oncolytic adenovirus expressing IL-18 could exert potential antitumor activity through inhibition of angiogenesis and offer a novel approach to melanoma therapy.

P53/microRNA-34-induced metabolic regulation: new opportunities in anticancer therapy

MicroRNA-34 (miR-34) is directly regulated by p53, and its potential tumor suppressive roles have been studied extensively. As a p53-induced microRNA, miR-34 functions as a tumor suppressor by playing a role in cell cycle arrest, apoptosis and metabolic regulation. Among these p53/miR-34 associated processes, apoptosis and cell cycle arrest are known as essential for p53/miR-34-mediated tumor suppression. P53-mediated metabolic processes have been shown to play pivotal roles in cancer cell biology. Recent studies have also identified several miR-34 targets involved in p53/miR-34-induced metabolic regulation. However, correlations among these metabolic targets remain to be fully elucidated. In this review, we summarize the current progress in the field of metabolic regulation by the p53/miR-34 axis and propose future directions for the development of metabolic approaches in anticancer therapy.

Downregulation of PAK5 inhibits glioma cell migration and invasion potentially through the PAK5-Egr1-MMP2 signaling pathway

PAK5 (p21 activated kinase 5) is upregulated in human colorectal carcinoma cells and is a known tumor promoter in carcinogenesis of the colon. Little is known regarding the mechanisms underlying the downstream targets of PAK5, and information concerning its biological significance in glioma is lacking. In this study, we investigated the effects of PAK5 on proliferation, migration, invasion, and apoptosis in human U87 and U251 glioma cells and examined the underlying molecular mechanism. We performed cell growth assays and cell cycle analysis to observe the cell proliferation. Flow cytometry analysis was performed to evaluate apoptosis, and in vitro scratch assays, cell migration assays, and gelatin zymography were performed to examine cell migration. Western blot analysis was performed to examine signal transduction in the cells. We demonstrated that suppression of PAK5 in glioma cells significantly inhibited cell migration and invasion. We also observed that suppression of PAK5 in human glioma cell lines inhibited cell growth because of G1 phase arrest. Additionally, flow cytometry and Western blot analysis indicated that PAK5 could inhibit cell apoptosis. These results suggest that the PAK5–Egr1–MMP2 signaling pathway is involved in tumor progression and may have a potential role in cancer prevention and treatment.

Coactivation of GABA receptors inhibits the JNK3 apoptotic pathway via disassembly of GluR6-PSD-95-MLK3 signaling module in KA-induced seizure

Purpose:  Past work has demonstrated that kainic acid (KA)–induced seizures could cause the enhancement of excitation and lead to neuronal death in rat hippocampus. To counteract such an imbalance between excitation and inhibition, we designed experiments by activating the inhibitory γ‐aminobutyric acid (GABA) receptor to investigate whether such activation suppresses the excitatory glutamate signaling induced by KA and to elucidate the underlying molecular mechanisms.

GluR6‐containing KA receptor mediates the activation of p38 MAP kinase in rat hippocampal CA1 region during brain ischemia injury

Our previous study showed that kainate (KA) receptor subunit GluR6 played an important role in ischemia‐induced MLK3 and JNK activation and neuronal degeneration through the GluR6‐PSD95‐MLK3 signaling module. However, whether the KA receptors subunit GluR6 is involved in the activation of p38 MAP kinase during the transient brain ischemia/reperfusion (I/R) in the rat hippocampal CA1 subfield is still unknown. In this present study, we first evaluated the time‐course of phospho‐p38 MAP kinase at various time‐points after 15 min of ischemia and then observed the effects of antagonist of KA receptor subunit GluR6, GluR6 antisence oligodeoxynucleotides on the phosphorylation of p38 MAP kinase induced by I/R. Results showed that inhibiting KA receptor GluR6 or suppressing the expression of KA receptor GluR6 could down‐regulate the elevation of phospho‐p38 MAP kinase induced by I/R. These drugs also reduced the phosphorylation of MLK3, MKK3/MKK6, MKK4, and MAPKAPK2. Additionally, our results indicated administration of three drugs, including p38 MAP kinase inhibitor before brain ischemia significantly decreased the number of TUNEL‐positive cells detected at 3 days of reperfusion and increased the number of the surviving CA1 pyramidal cells at 5 days of reperfusion after 15 min of ischemia. Taken together, we suggest that GluR6‐contained KA receptors can mediate p38 MAP kinase activation through a kinase cascade, including MLK3, MKK3/MKK6, and MKK4 and then induce increased phosphorylation of MAPKAPK‐2 during ischemia injury and ultimately result in neuronal cell death in the rat hippocampal CA1 region.

NR2B-Containing NMDA Receptors Expression and Their Relationship to Apoptosis in Hippocampus of Alzheimer’s Disease-Like Rats

Although studies have shown that excitotoxicity mediated by N-methyl-D-aspartate receptors (NMDARs, NR) plays a prominent role in Alzheimer’s disease (AD), the precise expression patterns of NMDARs and their relationship to apoptosis in AD have not been clearly established. In this study, we used Abeta (Aβ) 1-40 and AlCl3 to establish AD rat model. The behavioral changes were detected by morris water maze and step-down test. The hippocampal amyloid deposition and pathological changes were determined by congo red and hematoxylin-eosin staining. Immunohistochemistry was used to detect expression of NR1, NR2A and NR2B, and TUNEL staining was used to detect apoptosis. Results showed that water maze testing escape latency of AD-like rats was prolonged significantly. Reaction time, basal number of errors, and number of errors of step-down test were increased significantly; latency period of step-down test was shortened significantly in AD-like rats. Amyloid substance deposition and obvious damage changes could be seen in hippocampus of AD-like rats. These results suggested that AD rat model could be successfully established by Aβ1-40 and AlCl3. Results also showed that expression of NR1 and NR2B were significantly increased, but expression of NR2A had no significant change, in AD-like rat hippocampus. Meanwhile, apoptotic cells were significantly increased in AD-like rat hippocampus, especially in CA1 subfield and followed by dentate gyrus and CA3 subfield. These results implied that NR2B-, not NR2A-, containing NMDARs showed pathological high expression in AD-like rat hippocampus. This pathological high expression with apoptosis and selective vulnerability of hippocampus might be exist a specific relationship.