TBHP-mediated photochemical coupling/cyclization of N-arylacrylamides with thiols.

The effective photoredox-mediated oxidative thiolation and cyclization of N-arylacrylamides with thiols leads to biologically interesting 3-thionated oxindoles through C-S and C-C bond formation. This process represents a straightforward reaction that starts from non-prefunctionalized thiolating reagents. Mechanistic studies demonstrated that the TBHP serves as a key radical initiator with visible-light catalysis.

Attenuation of atherosclerotic lesions in diabetic apolipoprotein E-deficient mice using gene silencing of macrophage migration inhibitory factor.

Macrophage migration inhibitory factor (MIF) involves the pathogenesis of atherosclerosis (AS) and increased plasma MIF levels in diabetes mellitus (DM) patients are associated with AS. Here, we have been suggested that MIF could be a critical contributor for the pathological process of diabetes-associated AS by using adenovirus-mediated RNA interference. First, streptozotocin (STZ)-induced diabetic animal model was constructed in 114 apolipoprotein E-deficient mice (apoE-/- mice) fed on a regular chow diet. Then, the animals were randomly divided into three groups: Adenovirus-mediated MIF interference (Ad-MIFi), Ad-enhanced green fluorescent protein (EGFP) and normal saline (NS) group (n ≈ 33/group). Non-diabetic apoE-/- mice (n = 35) were served as controls. Ad-MIFi, Ad-EGFP and NS were, respectively, injected into the tail vein of mice from Ad-MIFi, Ad-EGFP and NS group, which were injected repeatedly 4 weeks later. Physical, biochemical, morphological and molecular parameters were measured. The results showed that diabetic apoE-/- mice had significantly aggravated atherosclerotic lesions. MIF gene interference attenuated atherosclerotic lesions and stabilized atheromatous plaque, accompanied by the decreased macrophages and lipids deposition and inflammatory cytokines production, improved glucose intolerance and plasma cholesterol level, the decreased ratio of matrix matalloproteinase-2/tissue inhibitor of metalloproteinase-1 and plaque instability index. An increased expression of MIF and its ligand CD74 was also detected in the diabetic patients with coronary artery disease. The results suggest that MIF gene interference is able to inhibit atherosclerotic lesions and increase plaque stability in diabetic apoE-/-mice. MIF inhibition could be a novel and promising approach to the treatment of DM-associated AS.

Nuclear factor-κB binding motifs specify Toll-like receptor-induced gene repression through an inducible repressosome.

Sustained Toll-like receptor (TLR) stimulation continuously activates antimicrobial genes but paradoxically represses inflammatory genes. This phenomenon, termed TLR tolerance, is essential for preventing fatal inflammatory conditions such as sepsis, but its underlying mechanisms are unclear. We report here that NF-κB binding nucleic acids of gene promoters are tolerogenic motifs, which selectively recruit an NcoR-Hdac3-deacetylated-p50 repressosome to inflammatory genes. Genome-wide analyses of TLR4-induced genes revealed that NF-κB motifs were the only regulatory elements significantly enriched in tolerizable genes. Mutating the NF-κB motifs of tolerizable genes converted them into nontolerizable ones, whereas inserting NF-κB binding motifs into nontolerizable genes conferred the tolerance. Although NF-κB p50 was essential for assembling the repressosome, genetic disruption of the NcoR-Hdac3 interaction alone was sufficient to completely abolish TLR4 tolerance and to render mice vulnerable to sepsis. Thus, the specificity of TLR tolerance is dictated by evolutionally conserved nucleic acid motifs that bound by NF-κB and the NcoR repressosome.

Effect of non-cell Corynebacterium Parvum on differentiation and maturation of bone marrow-derived dendritic cells.

Corynebacterium parvum (CP), with their potent anti-tumor activities, has been well documented. Non-cell Corynebacterium Parvum (NCPP) is a neotype of biological preparation, which based on manipulating CP with nanotechnology. The present study was designed to investigate the effect of NCPP/CP on bone marrow derived dendritic cells (BMDCs) in tumor-bearing mice, especially focused on the differentiation and maturation of these BMDCs. BM cells from tumor-bearing mice administrated with NCPP/CP were analyzed by flow cytometry, which exhibit enhanced numbers of DCs and macrophages. In the meanwhile, flow cytometry analysis showed mild but significant difference for CD80 expression on these LPS- treated BMDCs between NCPP/CP administrated mice and the control animals. Furthermore, antigen presenting assay for these LPS-treated BMDCs showed significant difference for cytolytic assay of CD8+T cells against B16 melanoma cells, which indicate that NCPP treatments have enhanced the cytolytic rates of CD8+T cells from 47.9%±2.3% to 54.2%±2.4%. The data suggest that NCPP/CP treatment can efficiently facilitate the generation of BMDCs in vivo and enhance the maturation of these BMDCs in vitro.

NCPP treatment alleviates ConA-induced hepatitis via reducing CD4+T activation and NO production.

Corynebacterium parvum (CP), a kind of immunomodulator, has been well documented in many diseases. Non-cell C. parvum product (NCPP) is a newly-found nano-preparation. To investigate the effect of NCPP on Con A-induced murine severe hepatitis, we pretreated mice with NCPP intraperitoneally. After 12 h, ConA (25 µg/g body wt) was injected intravenously to provoke severe hepatitis and the degree of liver injury was evaluated by serum transaminase analysis and heptatic tissue pathology. Results have shown that levels of serum transaminase and degree of liver injury in ConA/NCPP groups had significantly declined than those in ConA/PBS groups. Notably, results of flow cytometry have demonstrated that activation of CD4+T cells in ConA/NCPP groups has been down-regulated, compared with ConA/PBS groups. Further, levels of serum and KC-related nitric oxide (NO) was displayed significantly lower in ConA/NCPP groups than those in ConA/PBS groups. The results indicate that NCPP may alleviate ConA-induced hepatitis by reducing CD4+T activation and NO production.

Hydrogen-Borrowing Reduction/Dehydrogenative Aromatization of Nitroarenes through Visible-Light-Induced Energy Transfer: An Entry to Pyrimidoindazoles and Carbazoles.

Herein, we describe a novel visible-light-induced protocol for hydrogen-borrowing reduction/dehydrogenation aromatization/cyclization of nitroarenes by energy transfer. The present protocol does not require additional oxidants, hydrogen acceptors, and hydrogen evolution metal catalysts. The mechanistic studies demonstrated that the hydrogen-borrowing reduction/dehydrogenative aromatization process was initiated by the formation of active singlet species through efficient energy transfer of excited Ir[dF(CF3)ppy]2(dtbpy)PF6 to nitroarenes.

NaI/PPh3-Mediated Photochemical Reduction and Amination of Nitroarenes.

A mild transition-metal- and photosensitizer-free photoredox system based on the combination of NaI and PPh3 was found to enable highly selective reduction of nitroarenes. This protocol tolerates a broad range of reducible functional groups such as halogen (Cl, Br, and even I), aldehyde, ketone, carboxyl, and cyano. Moreover, the photoredox catalysis with NaI and stoichiometric PPh3 provides also an alternative entry to Cadogan-type reductive amination when o-nitrobiarenes were used.

Involvement of anoikis-resistance in the metastasis of hepatoma cells.

Acquisition of anoikis-resistance is a pre-requisite for cancer cell metastasis. We have demonstrated that hepatoma cells could resist anoikis by a synoikis-like survival style. In this study, we further suggest that acquisition of anoikis-resistance confer cancer cells more capacity for invasiveness, evading from cancer therapeutic agents and escaping from host immune attacks. We investigated the response of anoikis-resistant hepatoma cells to TNF-related apoptosis-inducing ligand (TRAIL), a typical immune surveillant molecule as well as a potential anticancer agent. Our data indicated that detached hepatoma cells not only resist TRAIL-induced apoptosis, but also domesticate TRAIL to exert a stealth "tumor counterattack" effect. These results reveal that acquisition of anoikis-resistance may act as a selective pressure to superimpose on hepatoma cells more metastatic potential for the development of cancer.

Copper(0)/PPh3-Mediated Bisheteroannulations of o-Nitroalkynes with Methylketoximes Accessing Pyrazo-Fused Pseudoindoxyls.

A copper(0)/PPh3-mediated cascade bisheteroannulation reaction of o-nitroalkynes with methylketoximes has been developed that provides viable access to a diverse range of pyrazo-fused pseudoindoxyl compounds. Synthetically useful functional groups including sensitive C-I bonds are compatible with this system. Mechanistic studies suggest a reaction cascade involving sequential PPh3-mediated deoxygenative cycloisomerization and copper-catalyzed [3 + 2] pyrazo-annulation.

Regioselectivity Control in the Oxidative Formal [3 + 2] Annulations of Ketoxime Acetates and Tetrohydroisoquinolines.

A novel copper-catalyzed oxidative formal [3 + 2] annulations of ketoxime acetates and tetrohydroisoquinolines for the synthesis of fused pyrazoles and imidazoles has been developed. A broad range of important isoquinoline-fused pyrazole and imidazole products were selectively generated by the key control of oxidant.

Blockade of preS2 down-regulates the apoptosis of HepG2.2.15 cells induced by TRAIL.

The TNF-related apoptosis-inducing ligand (TRAIL) has recently been implicated in the death of hepatocytes under infectious but not normal conditions. Our previous studies showed that both the whole HBV genome and its HBx protein enhanced TRAIL-induced hepatocyte apoptosis. We report here that preS2-containing viral proteins are also potent regulators of TRAIL-induced apoptosis. HBV-transfected hepatoma cell line, HepG2.2.15, pretreated with antisense oligonucleotide against preS2 gene, showed a lower sensitivity towards TRAIL-induced apoptosis. However, this effect might not be related with the expression level of TRAIL receptors. These results establish that besides HBx, preS2 viral proteins are also involved in enhancing TRAIL-induced hepatocyte apoptosis. The novel role of preS2 would be useful to further unravel the mechanisms of imbalanced apoptosis during HBV infection and provides a potential therapeutic target for HBV-related diseases.

Acquisition of anoikis resistance reveals a synoikis-like survival style in BEL7402 hepatoma cells.

Resistance to anoikis is a hallmark of human malignancies. Our results showed that hepatoma cells resisted anoikis by non-proliferation, non-apoptosis and cell cycle arrest which were termed synoikis-like. These synoikis-like cells are more resistant to extracellular stimuli and could spontaneously attach and proliferate again under suitable conditions, which indicate a reversible property of these cells. Microarray expression profile reveals the change of molecules involved in the synoikis-like hepatoma cells and our data indicated that ANGPTL4 contributed to anoikis resistance of hepatoma cells. These results demonstrated that hepatoma cells might resist anoikis through a synoikis-like survival style, which may facilitate tumor metastasis.

Tumor microenvironment: hypoxia and buffer capacity for immunotherapy.

In recent years, significant progress has been made in the study of tumor biology and anti-tumor immunotherapy. However, the cellular and molecular mechanisms of tumor progression still remain obscure. As we know, tumor microenvironment that can directly influence tumor development and prognosis has attracted much attention of large number of immunologists. Accumulated evidence has suggested that tumor microenvironment is in a hypoxic condition, under which immune cells may exhibit distinct functions compared to those under normal oxygen tension. The article we propose here will offer a novel point of view for understanding tumor microenvironment in order to instruct clinical immunotherapy. Just like the pH buffer system in human body, interactions of immune cells in tumor microenvironment may also constitute a buffer system, the balance of which is of great importance during immunotherapy for tumors. However, many protocols for tumor immunotherapy in clinic at present have not taken it into account, so the therapeutic outcome is often disappointing. In the present study, we have demonstrated the effect of Corynebacterium parvum, a well known immune stimulator, on malignant melanoma. Cell ingredients in tumor-infiltrating lymphocytes (TIL) and their anti-tumor effect have been altered when dosage of Corynebacterium parvum is changed. So, to obtain better therapeutic purposes, what we should do first is to detect an index to evaluate immune buffer capacity for the patient during tumor immunotherapy, then to choose appropriate drug doses to augment buffer capacity for their immune buffer system. Taken together, the hypothesis proposed here may help understand the pathogenesis of tumor progression and design more effective strategy for clinical immunotherapy for tumors.

An essential role of PDCD4 in progression and malignant proliferation of gastrointestinal stromal tumors.

Programmed cell death 4 (PDCD4) is a tumor suppressor that can inhibit tumorigenesis by suppressing activator protein (AP)-1 activation and protein translation. Lost or decreased PDCD4 expression has been found in multiple types of human cancers, which was also associated with progression and metastasis of the tumors. However, the status and significance of PDCD4 in gastrointestinal stromal tumors have not been evaluated. In the present study, we examined the PDCD4 expression in a total of 63 gastrointestinal stromal tumor samples at both mRNA and protein levels by RT-PCR, western blot, and immunohistochemistry. We demonstrated that the expression of PDCD4 mRNA was diminished in 68% (17/25) of the tumor samples, and the level of PDCD4 protein appeared to be decreased in 66.7% (42/63) of the samples, as compared to adjacent normal gastrointestinal tissues, which expressed high levels of PDCD4 mRNA and protein. In addition, altered expression of PDCD4 was associated with clinicopathological parameters including risk group, tumor size, and mitosis. Moreover, PDCD4 expression had a negative correlation with the Ki-67 labeling index (r = -0.6059, P < 0.0001). All these results suggest that downregulation of PDCD4 expression may have an essential role in the progression and malignant proliferation of human gastrointestinal stromal tumors.

The clinical significance of reduced programmed cell death 5 expression in human gastrointestinal stromal tumors.

Programmed cell death 5 (PDCD5) is a novel apoptosis-related gene with potent antitumor effects which can interact with the histone acetyltransferase Tip60 and induce DNA damage-induced apoptosis. Reduced PDCD5 expression has been found in a few types of human tumors and is also associated with the progression and prognosis of the tumors. However, the expression status and clinical significance of PDCD5 in gastrointestinal stromal tumors has not yet been analyzed. In our study, we examined PDCD5 expression in 63 tumor samples of gastrointestinal stroma at both mRNA and protein levels by RT-PCR, western blotting and immunohistochemistry. We found that 57% (16/28) of the tumor samples had a decreased PDCD5 expression at the mRNA level and 53% (35/66) of the samples were found to have decreased PDCD5 expression at the protein level, whereas PDCD5 was highly expressed in all adjacent normal gastrointestinal tissues at the mRNA or protein level. Moreover, decreased PDCD5 expression was significantly associated with clinicopathological characteristics including tumor size and mitosis. Our results suggest that PDCD5 expression plays a significant role in the malignant progression of human gastrointestinal stromal tumors and may be a key inhibitory factor.

Clinical significance of programmed cell death 4 expression in malignant progression of human nasal inverted papillomas.

Programmed cell death 4 (PDCD4) is a novel tumor suppressor gene that can inhibit tumor neoplastic transformation and progression in cultured cells and gene knock-out mouse models. Lost or decreased PDCD4 expression has been associated with progression and prognosis of multiple types of human tumors. However, the expression and clinical significance of PDCD4 in nasal inverted papillomas (NIPs) has not been investigated. We compared PDCD4 expression in 64 samples of NIPs, 23 of associated squamous cell carcinomas (SCCs), and 19 normal nasal samples at mRNA and protein levels by RT-PCR, western blot analysis, and immunohistochemistry. PDCD4 mRNA expression was reduced in 52% of NIP frozen samples (13/25), and the protein level was diminished in 56.3% of samples (36/64) as compared with 19 normal nasal samples, which expressed high levels of PDCD4 mRNA and protein. Furthermore, altered expression of PDCD4 was associated with the clinicopathological features Krouse stage and dysplasia. Importantly, we found a strong negative correlation of PDCD4 expression and Ki-67 labeling index in NIPs (r=-0.6645, p<0.001). In addition, the 3 tissue-sample groups significantly differed in PDCD4 expression and Ki-67 labeling index. Thus, PDCD4 expression may play a key role in pre-cancerous lesions of human NIPs and may help predict malignant progression from benign nasal tumors to associated SCC.

Roles of TIPE2 in hepatitis B virus-induced hepatic inflammation in humans and mice.

Hepatitis B virus (HBV)-induced hepatic inflammation afflicts hundreds of millions of people worldwide and is a leading cause of hepatic cancer. While the deleterious effect of the chronic hepatitis is well recognized, the molecular mechanisms underlying the pathogenesis of HBV-induced hepatic inflammation are not well understood. We report here that the tumor necrosis factor-alpha-induced protein-8 like-2 (TIPE2 or TNFAIP8L2), a newly identified regulator of immune receptor signaling, plays an important role in controlling HBV-induced hepatitis. Patients with chronic hepatitis B had significantly reduced levels of TIPE2 expression in their peripheral blood mononuclear cells (PBMCs) as compared to healthy individuals. The TIPE2 expression negatively correlated with the blood levels of alanine aminotransferase (ALT), aspartate aminotransferase (AST), and total bilirubin (Tbil) as well as the HBV load of the patients. Importantly, using a murine model of HBV-induced hepatitis, we found that TIPE2-deficient mice developed significantly more severe hepatic inflammation than wild type mice. These results indicate that TIPE2 plays an important role in taming HBV-induced hepatic inflammation.

Tissue-specific expression of TIPE2 provides insights into its function.

Tumor necrosis factor-alpha-induced protein-8 like-2 (TNFAIP8L2, TIPE2) is a newly discovered negative regulator of innate immunity and cellular immunity. TIPE2 deficiency in mice causes fetal inflammatory diseases and TIPE2 downregulation in humans is associated with systemic autoimmunity. However, TIPE2 deficiency leads to a selective defect in humoral immunity. Due to the lack of a suitable antibody, the nature of cells and tissues that express TIPE2 protein has not been determined. In this study, we generated a highly specific antibody to TIPE2 and examined TIPE2 expression in various murine tissues by immunohistochemistry and RT-PCR. We found that TIPE2 was a cytoplasmic protein expressed preferentially in lymphoid tissues and a small group of non-lymphoid tissues. Within the lymphoid compartment, T cells appear to express high level of TIPE2 protein, while B cells and B cell zones of lymphoid organs were devoid of TIPE2. Within most of the non-lymphoid tissues, TIPE2 was not detected. However, several endocrine tissues and skeletal muscle expressed detectable TIPE2 protein and mRNA. Furthermore, high levels of TIPE2 were detected in monocyte/macrophage derived cell lines and ovarian adenocarcinoma cells, but not detectable or weakly expressed in most human carcinoma cell lines. These results indicate that TIPE2 may perform tissue-specific functions in both lymphoid and non-lymphoid compartments. They may also explain why TIPE2 deficiency enhanced cellular but not humoral immunity.

Hepatitis B virus sensitizes hepatocytes to complement-dependent cytotoxicity through downregulating CD59.

Hepatitis B virus (HBV) infection afflicts over 350 million people worldwide and is a leading cause of hepatitis, cirrhosis and hepatocellular carcinoma. HBV replicates noncytopathically in hepatocytes, and most of the hepatic injury is caused by the immune response to the virus. While most studies focused on the adaptive immune response, the role of the innate immune response, especially the complement activation, in HBV infection remains obscure. To identify proteins that are involved in the pathogenesis of HBV infection, we carried out gene microarray analysis to compare the gene expression profile of HBV transgenic BALB/c mice with that of control mice. CD59 mRNA, which encodes an important complement regulatory protein (CRP) expressed on cell surface, was found to be significantly downregulated in HBV transgenic liver, a result that was further confirmed by RT-PCR and real-time PCR. To explore the relationship between CD59 and HBV infection, we examined the effect of HBV on CD59 expression and complement-dependent cytolysis in two hepatocyte cell lines. We found that HBV could significantly downregulate CD59 expression and sensitize cells to complement-dependent lysis. Blocking CD59 function using a CD59-specific antibody greatly diminished the HBV effect. Similar CD59 downregulation was also observed in the livers of patients with chronic HBV infection. These results demonstrate that HBV can sensitize hepatocytes to complement-dependent cytotoxicity (CDC) through downregulating CD59, which may lead to the activation of complement system and cause liver inflammation.

Combined endostatin and TRAIL gene transfer suppresses human hepatocellular carcinoma growth and angiogenesis in nude mice.

Endostatin can inhibit tumor growth by blocking angiogenesis, whereas tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) may function as a soluble cytokine to selectively kill cancer cells without toxicity to most normal cells. To establish the combined anti-tumor therapeutic effect of endostatin and soluble TRAIL (sTRAIL), we performed intra-tumoral human endostatin and sTRAIL gene transfer using plasmid pVAX1 as a vector in a nude mouse model of human liver cancer. For subcutaneously inoculated human BEL7402 cancer, co-expression of both transgenes conferred marked anti-tumor activity with a significant reduction in tumor vessel density and an increase in apoptotic rates, which was accompanied with a strong activation of caspase-3. Importantly, combination therapy employing one-half dose of endostatin and sTRAIL plasmids was more effective than single endostatin or sTRAIL therapy. These results indicate that a pVAX1-mediated combinatorial antiangiogenic and proapoptotic gene therapy approach involving endostatin and sTRAIL can be an effective novel form of treatment for human liver cancer.