Dihydrotanshinone I inhibits angiogenesis both in vitro and in vivo

Dihydrotanshinone I （DI）, a naturally occurring compound extracted from Salvia miltiorrhiza Bunge, has been reported to have cytotoxicity to a variety of tumor cells. In this study, we investigated its anti-angiogenic capacity in human umbilical vein endothelial cells. DI induced a potent cytotoxicity to human umbilical vein endothelial cells, with an IC50 value of approximately 1.28 μg/ml.At 0.25-1μg/ml, DI dose-dependently suppressed human umbilical vein endothelial cell migration, invasion, and tube formation detected by wound healing, Transwell invasion and Matrigel tube formation assays, respectively. Moreover, DI showed significant in vivo anti-angiogenic activity in chick embryo chorioailantoic membrane assay. DI induced a 61.1% inhibitory rate of microvessel density at 0.2 μg/egg. Taken together, our results showed that DI could inhibit angio-genesis through suppressing endothelial cell proliferation, migration, invasion and tube formation, indicating that DI has a potential to be developed as a novel anti-angiogenic agent.     

Doppel-induced cytotoxicity in human neuronal SH-SY5Y cells is antagonized by the prion protein

Doppel （Dpl） is a prion （PrP）-like protein due to the structural and biochemical similarities; however, the natural functions of Dpl and PrP remain unclear. In this study, a 531-bp human PRND gene sequence encoding Dpl protein was amplified from human peripheral blood leucocytes. Furl-length and various truncated human Dpl and PrP proteins were expressed and purified from Escherichia coil Supplement of the full-length Dpl onto human neuroblastoma cell SH-SY5Y induced remarkable cytotoxicity, and the region responsible for its cytotoxicity was mapped at the middle segment of Dpl [amino acids （aa） 81-122]. Interestingly, DpMnduced cytotoxicity was antagonized by the presence of full- length wild-type PrP. Analysis on fragments of PrP mutants showed that the N-terminal fragment （aa 23- 90） of PrP was responsible for the protective activity. A truncated PrP （PrPA32-121） with similar secondary structure as Dpl induced DpMike cytotoxicity on SH- SY5Y cells. Furthermore, binding of copper ion could enhance the antagonizing effect of PrP on Dpi-induced cytotoxicity. Apoptosis assays revealed that cytotoxicity induced by Dpl occurred through an apoptotic mechanism. These results suggested that the function of Dpl is antagonistic to PrP rather than synergistic.     

Comparison of two in vitro angiogenesis assays for evaluating the effects of netrin-1 on tube formation

Netrin-1 is a neural guidance cue that also regulates vascu- lar development. Controversial results, however, have been obtained concerning the roles of netrin-1 in vascular devel- opment both in vivo and in vitro. In the present study, two in vitro angiogenesis assays were compared to evaluate the effects of netrin-1 secreted by retrovirally transduced mel- anoma cells （Mel2a-netrinl） on tube formation. The results showed that there was no obvious difference in tube forma- tion induced by conditioned media （CM） from the control, Mel2a-netrinl and Mel2a cells in a matrigel assay. The results of another in vitro assay, in which endothelial cells were co-cultured with human fibroblasts, however, showed that Mel2a-netrinl CM inhibited the tube formation, sup- posedly through blocking the elongation and coalescence of human umbilical vein endothelial cells （HUVECs）. These results confirmed that the matrigel assay is not able to demonstrate the anti-angiogenic roles of netrin-1.     

Oleanolic Acid Induces Apoptosis in Human Leukemia Cells through Caspase Activation and Poly（ADP-ribose） Polymerase Cleavage

It has been shown that Fructus Ligustri Lucidi （FLL）, a promising traditional Chinese medicine, can inhibit the growth of tumors. However, the effective component and molecular mechanism of FLL act to inhibit tumor proliferation are unclear. In this study, we demonstrated that oleanolic acid （OA）, a principal chemical component of FLL, inhibited the proliferation of human leukemia HL60 cells in culture. MTT assay showed that treatment of HL60 cells with FLL crude extracts or OA dramatically blocked the growth of target tumor cell in a time- and dose-dependent manner. Morphological changes of the nuclei and DNA fragmentation showed that apoptotic cell death occurred in the HL60 cells after treating with FLL extracts （20 mg/ml） or OA （3.65×10^-2 mg/ml）. Furthermore, flow cytometry assay showed that treatment of HL60 cells with FLL or OA caused an increased accumulation of G1 and sub-G1 subpopulations. Western blot analysis showed that caspase-9 and caspase-3 were activated, accompanied by the cleavage of poly （ADP-ribose） polymerase （PARP） in the target cells during FLL- or OA-induced apoptosis, These results suggest that OA acts as the effective component of FLL by exerting its cytotoxicity towards target tumor cells through activation of caspases and cleavage of PARP.     

A Lectin from Chinese Mistletoe Increases γδ T Cell-mediated Cytotoxicity through Induction of Caspase-dependent Apoptosis

In this study, a mistletoe lectin (ML) was purified from Chinese mistletoe and the effect of this 60 kDa Chinese ML on human γδ T cell cytotoxicity, apoptosis and modulation of the cytokine network was studied. The cytotoxic properties of δ T cells was evaluated by using a ~(51)Cr release test and employed fluorescence-activated cell sorting and enzyme-linked immunosorbent assay analysis to quantify translocation of the cell membrane phospholipid, phosphatidylserine and nuclear DNA fragmentation during apoptosis. It was found that: (ⅰ) ML effectively stimulated γδ T cell proliferation in a dose- and time-dependent manner; (ⅱ) ML increased γδ T cell cytotoxicity; (ⅲ) ML could modulate lipopolysaccharide-induced cytokine release in a pro-inflammatory manner by increasing tumor necrosis factor (TNF)-α release and inhibiting the release of anti-inflammatory interleukin (IL)-10; (ⅳ) ML induced apoptosis in caspase-dependent and CD95-independent manner. The results indicated that ML is a potent immunomodulator to human γδ T cell cytotoxicity, apoptosis and cytokine production.     

Effect of Human WEE1 and Stem Cell Factor on Human CD34^＋ Umbilical Cord Blood Cell Damage Induced by Chemotherapeutic Agents

Myelosuppression is one of the major side-effects of most anticancer drugs. To achieve myeloprotection, one bicistronic vector encoding anti-apoptotic protein human WEE l （WEElHu） and proliferation-stimulating stem cell factor （SCF） was generated. In this study, we selected human umbilical cord blood CD34^＋ cells as the in vitro model in an attempt to investigate whether WEEIHu, rather than conventional drug-resistant genes, can be introduced to rescue cells from the damage by chemotherapeutic agents such as cisplatin, adriamycin, mitomycin-c and 5-fluorouracil. Cell viability and cytotoxicity assay, colony-forming units in culture assay and externalization of phospholipid phosphatidylserine analysis showed that the expression of WEElHu and SCF in CD34^＋ cells provided the cells with some protection. These findings suggest that the expression of WEElHu and SCF might rescue CD34^＋ cells from chemotherapyinduced myelosuppression.     

Hydrogen peroxide induces the activation of the phospholipase C-γ1 survival pathway in PC12 cells： protective role in apoptosis

It has been reported that phospholipase C-γ1 （PLC-γ1） plays an important protective role in hydrogen peroxide （H2O2）-induced pheochromocytoma （PC） 12 cells death. However, most studies have used high doses of H2O2 and the downstream targets of PLC-γ1 activation remain to be identified. The present study was designed to examine the roles of PLC-γ1 signaling pathway in the apoptosis of PC12 cells induced by low dose of H2O2, as well as the downstream factors involved in this pathway. Low-dose treatment of H2O2 resulted in PLC-γ1 tyrosine phosphorylation in a time-dependent manner and H2O2 killed the PC12 cells by inducing necrosis. In contrast, pretreatment of PCI2 cells with U73122, a specific inhibitor of PLC, markedly increased the percentage of dead cells. The mode of cell death was converted to apoptosis as determined by Hoechst/PI nuclear staining and fluorescence microscopy. Western blot analysis demonstrated that the expression of Bcl-2 protein and the activation of pro-caspase-3 were not significantly affected by low dose of H2O2 alone. However, after pretreatment with U73122, Bcl-2 protein expression was dramatically decreased and the activation of pro-caspase-3 was significantly increased. We concluded that PLC-γ1 plays an important protective role in H2O2-induced PC12 cells death. Bcl-2 and caspase-3 probably participate in the signaling pathway as downstream factors.     

The interaction between the human β-globin locus control region and nuclear matrix

Our previous study showed that hydroxyurea (Hu) could induce HEL cells to express humanβ-globin gene. However the molecular mechanisms by which the expression of β-globin gene is activated and regulated are poorly understood. Here we show that the binding patterns between the core DNA sequences (HS2 core sequence -10681- -10971 bp , HS3 core sequence -14991- -14716 bp and HS4 core sequence -18586- -18306 bp) of DNase I hypersensitive sites in the human β-globin LCR and nuclear matrix proteins isolated from Hu induced and uninduced HEL cells are quite different. Results demonstrated that nuclear matrix proteins might play important roles in regulating the expression of humanβ-like globin genes through their interaction with HSs (HS2,HS3 and HS4 core sequences) in the LCR. Moreover, the results obtained from the in vitro DNA-matrix binding assay showed that the core DNA sequences of DNase I hypersensitive sites (HS2, HS3 and HS4) were unable to bind to the nuclear matrix isolated from uninduced HEL cel     

Resistance of SKW6 cell to apoptosis induction with anti-Fas antibody upon transduction of a reverse fragment to a cDNA encoding human 6A8 α-mannosidase

The effect of transduction with a reverse fragment to a cDNA encoding human 6A8 ?-mannosidase on apoptosis induction of human B cell line SKW6 by anti-Fas antibody was tested. Apoptosis-inducer of anti-Fas monoclonal antibody was used to induce apoptosis in SKW6 cells. Giemsa’s staining, Annexin-V-FLUOS staining and DNA ladder test were used to determine the events of apoptosis. Indirect immunofluorescent staining with anti-Fas antibody was performed to detect the surface Fas expression. In a time-course test of 12, 24 and 36 h for apoptosis induction by anti-Fas antibody, DNA ladder was observed in the wild-type SKW6 cells in a time-dependent fashion. Mock transduction had no effect on DNA ladder production. However, no DNA ladder was detected in the rAAV-antisense 6A8 cDNA-transduced SKW6. Results from Annexin-V-FLUOS staining on anti-Fas antibody-treated cells revealed that the staining-positive rate in the rAAV-antisense 6A8 cDNA-transduced SKW6 cells was decreased in comparison to that in the wild-type and the mock-transduced cells. Giemsa’s staining observation showed that the number of dying (with apoptotic bodies) and dead cells was reduced in the rAAV-antisense 6A8 cDNA-transduced SKW6 cells in comparison with that in the wild-type and the mock-transduced cells upon anti-Fas antibody induction. The transduction did not affect the expression of Fas molecular on cell surface. 100% cells in all the groups showed Fas expression. The SKW6 cells became resistant to apoptosis induction by anti-Fas antibody upon transduction with a reverse fragment to a cDNA encoding human 6A8 a-mannosidase. The transduction did not affect the expression of Fas molecule on cells.     

Coordinated peak expression of MMP-26 and TIMP-4 in preinvasive human prostate tumor

The identification of novel biomarkers for early prostate cancer diagnosis is highly important because early detection and treatment are critical for the medical management of patients. Disruption in the continuity of both the basal cell layer and basement membrane is essential for the progression of high-grade prostatic intraepithelial neoplasia （HGPIN） to invasive adenocarcinoma in human prostate. The molecules involved in the conversion to an invasive phenotype are the subject of intense scrutiny. We have previously reported that matrix metalloproteinase-26 （MMP-26） promotes the invasion of human prostate cancer cells via the cleavage of basement membrane proteins and by activating the zymogen form of MMP-9. Furthermore, we have found that tissue inhibitor of metalloproteinases-4 （TIMP-4） is the most potent endogenous inhibitor of MMP-26. Here we demonstrate higher （p〈0.0001） MMP-26 and TIMP-4 expression in HGPIN and cancer, compared to non-neoplastic acini. Their expression levels are highest in HGPIN, but decline in invasive cancer （p〈0.001 for each） in the same tissues. Immunohistochemical staining of serial prostate cancer tissue sections suggests colocalization of MMP-26 and TIMP-4. The present study indicates that MMP-26 and TIMP-4 may play an integral role during the conversion of HGPIN to invasive cancer and may also serve as markers for early prostate cancer diagnosis.     

Studies on DNA—protein interactions in the upstream regulatory region of the human ε—globin gene promoter

The erythroid- and developmental stage-specific expression of the human ε-globin gene is controlled,in part,by the 5‘-flanking DNA sequence of this gene.In the present study,we have used DNA-protein binding assays to identify trans-acting factors which regulate the temporal expression of the human ε-globin gene during development.Using gel mobility shift assays and DNaseI footprinting assays,a nuclear protein factor (termed ε-SSF1) in the nuclear extracts from mouse haematopoietic tissues at d 11 and d 13 of gestation was identified.It could specifically bind to the positive control region (between-535 and -453bp) of the human ε-globin gene.We speculated that the ε-SSF1 might be an erythroid-and developmental stage-specific activator.In addition,we found another nuclear protein factor (terned ε-R1) in the nuclear extract from mouse fetal liver at d18 of gestation,which could strongly bind to the silencer region (between-392 and -177bp) of this gene.Therefore,we speculated that the ε-R1 might be an erythroid-and developmental stagespecific repressor.Our data suggest that both ε-SSF1 and ε-R1 might play important roles in developmental regulation of the human ε-globin gene expression during the early embryonic life.On the hand,we observed that the binding patterns of nuclear proteins from three cell lines (K562,HEL and Raji) to these regulatory regions were partially different.These results suggest that different trans-acting factors in K562,HEL and Raji cells might be responsible for activating or silencing the human ε-globin gene in three different cell lines.     

Regulation of Cytokinesis by Exocyst Subunit SEC6 and KEULE in Arabidopsis thaliana

Proper vesicle tethering and membrane fusion at the cell plate are essential for cytokinesis. Both the vesicle tethering complex exocyst and membrane fusion regulator KEULE were shown to function in cell plate formation, but the exact mechanisms still remain to be explored. In this study, using yeast two-hybrid （Y-2-H） assay, we found that SEC6 interacted with KEULE, and that a small portion of C-terminal region of KEULE was required for the interaction. The direct SEC6-KEULE interaction was supported by further studies using in vitro pull-down assay, immunoprecipitation, and in vivo bimolecular florescence complementation （BIFC） microscopy, sec6 mutants were male gametophytic lethal as reported; however, pollen-rescued sec6 mutants （PRsec6） displayed cytokinesis defects in the embryonic cells and later in the leaf pavement cells and the guard cells. SEC6 and KEULE proteins were co-localized to the cell plate during cytokine- sis in transgenic Arabidopsis. Furthermore, only SEC6 but not other exocyst subunits located in the cell plate interacted with KEULE in vitro. These results demonstrated that, like KEULE, SEC6 plays a physiological role in cytokinesis, and the SEC6-KEULE interaction may serve as a novel molecular linkage between arriving vesicles and membrane fusion machin- ery or directly regulate membrane fusion during cell plate formation in plants.     

Mitochondrial mechanism of cardiomyocyte apoptosis induced by stress

Stress induced the serious disorder of cardiac function and cardiovascular diseases. Apoptosis is the cellular basis in stress induced cardiac injury. In our previous study we found that many stressors resulted in mitochondrial damage. It is certain that mitochondria is important mediator in triggering apoptotic cell death, but the mechanism, by which the stress induced mitochondrial injury leads to cardiomyocyte apoptosis, remains unclear. We designed the present study to investigate the changes of the mitochondria in cardiomyocytes undergoing stress and its role in inducing apoptosis. Here we reported that stress changed the membrane fluidity of mitochondria and induced the lipid peroxidation of mitochondrial membrane in