Widdrol activates DNA damage checkpoint through the signaling Chk2–p53–Cdc25A–p21–MCM4 pathway in HT29 cells

Widdrol is an odorant compound isolated from Juniperus chinensis. We previously reported that widdrol induces Gap 1 (G1) phase cell cycle arrest and leads to apoptosis in human colon adenocarcinoma HT29 cells. It was also reported that this cell cycle arrest is associated with the induction of checkpoint kinase 2 (Chk2), p53 phosphorylation and cyclin dependent kinase (Cdk) inhibitor p21 expression. In this paper, we investigated the molecular mechanisms of widdrol on the activation of G1 DNA damage checkpoint at early phase when DNA damages occurred in HT29 cells. First of all, we examined that widdrol breaks DNA directly or not. As the results of DNA electrophoresis and formation of phosphorylated histone H2AX (γH2AX) foci in HT29 cells, widdrol generates DNA double-strand breaks directly within 0.5?h both in vitro and in vivo. Based on this result, the change of proteins related in checkpoint pathway was examined over a time course of 0.5-24?h. Treatment of HT29 cells with widdrol elicits the following: (1) phosphorylation of Chk2 and p53, (2) reduction of cell division cycle 25A (Cdc25A) expression, (3) increase of Cdk inhibitor p21 expression, and (4) decrease of the levels of Cdk2 and cyclin E expression in a time-dependent manner. Moreover, only the expression level of mini-chromosome maintenance 4 (MCM4) protein, a subunit of the eukaryotic DNA replicative helicase, is rapidly down-regulated in HT29 cells treated with widdrol over the same time course, but those of the other MCM proteins are unchanged. Overall, our results indicated that widdrol breaks DNA directly in HT29 cells, and this DNA damage results in checkpoint activation via Chk2-p53-Cdc25A-p21-MCM4 pathway and finally cells go to G1-phase cell cycle arrest and apoptosis.     

The proteins (12 and 15 kDa) isolated from heat‐killed Lactobacillus plantarum L67 induces apoptosis in HT‐29 cells

A number of scientific studies have revealed that Lactobacillus strains have beneficial bioactivities in the gastrointestinal tract. In this study, the production of intracellular reactive oxygen species (ROS) and the amounts of intracellular calcium, protein kinase C activity, cytochrome c, Bid, Bcl‐2, Bax and the apoptosis‐mediated proteins [caspase‐8, caspase‐3 and poly ADP ribose polymerase (PARP)] were evaluated to understand the induction of programmed cell death in HT‐29 cells by Lactobacillus plantarum L67. The results obtained from this study indicated that the relative intensities of the apoptotic‐related factors (intracellular ROS and intracellular calcium) and of apoptotic signals (Bax and t‐Bid) increased with increasing concentrations of the membrane proteins isolated from heat‐killed L. plantarum L67, whereas the relative intensities of cytochrome c, Bcl‐2, caspase‐8, caspase‐3 and PARP decreased. This study determines whether proteins (12 and 15 kDa) isolated from heat‐killed L. plantarum L67 induce programmed cell death in HT‐29 cells. Proteins isolated from L. plantarum L67 can stimulate the apoptotic signals and then consequently induce programmed cell death in HT‐29 cells. The results in this study suggest that the proteins isolated from L. plantarum L67 could be used as an antitumoural agent in probiotics and as a component of supplements or health foods. Copyright © 2015 John Wiley & Sons, Ltd.     

<Emphasis Type="Italic">Clostridium difficile</Emphasis> toxin A-induced apoptosis is p53-independent but depends on glucosylation of Rho GTPases

Clostridium difficile toxin A (TcdA) is one of two homologous glucosyltransferases that mono-glucosylate Rho GTPases. HT29 cells were challenged with wild-type and mutant TcdA to investigate the mechanism by which apoptosis is induced. The TcdA-induced re-organization of the actin cytoskeleton led to an increased number of cells within the G2/M phase. Depolymerization of the actin filaments with subsequent G2/M arrest, however, was not causative for apoptosis, as shown in a comparative study using latrunculin B. The activation of caspase-3, -8, and -9 strictly depended on the glucosylation of Rho GTPases. Apoptosis measured by flow cytometry was completely abolished by a pan-caspase inhibitor (z-VAD-fmk). Interestingly, cleavage of procaspase-3 and Bid was not inhibited by z-VAD-fmk, but was inhibited by the calpain/cathepsin inhibitor ALLM. Cleavage of procaspase-8 was susceptible to inhibition by z-VAD-fmk and to the caspase-3 inhibitor Ac-DMQD-CHO, indicating a contribution to the activation of caspase-3 in an amplifying manner. Although TcdA induced mitochondrial damage and cytochrome c release, p53 was not activated or up-regulated. A p53-independent apoptotic effect was also checked by treatment of HCT 116 p53^−/− cells. In summary, TcdA-induced apoptosis in HT29 cells depends on glucosylation of Rho GTPases leading to activation of cathepsins and caspase-3.     

6‐O‐(3″, 4″‐di‐O‐trans‐cinnamoyl)‐α‐l‐rhamnopyranosylcatalpol and verbascoside: Cytotoxicity,cell cycle kinetics,apoptosis, and ROS production evaluation in tumor cells

The aim of this study was to evaluate the impact that 6‐O‐(3″, 4″‐di‐O‐trans‐cinnamoyl)‐α‐ l ‐rhamnopyranosylcatalpol (Dicinn) and verbascoside (Verb), two compounds simultaneously reported in Verbascum ovalifolium, have on tumor cell viability, apoptosis, cell cycle kinetics, and intracellular reactive oxygen species (ROS) level. At 100 µg/mL and 48 hours incubation time, Dicinn and Verb produced good cytotoxic effects in A549, HT‐29, and MCF‐7 cells. Dicinn induced cell‐cycle arrest at the G₀/G₁ phase and apoptosis, whereas Verb increased the population of subG₁ cells and cell apoptosis rates. Furthermore, the two compounds exhibited time‐dependent ROS generating effects in tumor cells (1‐24 hours). Importantly, no cytotoxic effects were induced in nontumor MCF‐10A cells by the two compounds up to 100 µg/mL. Overall, the effects exhibited by Verb in tumor cells were more potent, which can be correlated with its structural features, such as the presence of phenolic hydroxyl groups.     

Autophagy mediates cytotoxicity of human colorectal cancer cells treated with garcinielliptone FC

The tautomeric pair of garcinielliptone FC (GFC) is a novel tautomeric pair of polyprenyl benzophenonoid isolated from the pericarps of Garcinia subelliptica Merr. (G. subelliptica, Clusiaceae), a tree with abundant sources of polyphenols. Our previous report demonstrated that GFC induced apoptosis on various types of human cancer cell lines including chemoresistant human colorectal cancer HT‐29 cells. In the present study, we observed that many autophagy‐related genes in GFC‐treated HT‐29 cells were up‐ and down‐regulated using a cDNA microarray containing oncogenes and kinase genes. GFC‐induced autophagy of HT‐29 cells was confirmed by observing the formation of acidic vesicular organelles, LC3 puncta, and double‐membrane autophagic vesicles using flow cytometry, confocal microscopy, and transmission electron microscopy, respectively. Inhibition of AKT/mTOR/P70S6K signaling as well as formation of Atg5‐Atg12 and PI3K/Beclin‐1 complexes were observed using Western blot. Administration of autophagy inhibitor (3‐methyladenine and shRNA Atg5) and apoptosis inhibitor Z‐VAD showed that the GFC‐induced autophagy was cytotoxic form and GFC‐induced apoptosis enhanced GFC‐induced autophagy. Our data suggest the involvement of autophagy and apoptosis in GFC‐induced anticancer mechanisms of human colorectal cancer.     

Lactobacillus plantarum CS24.2 prevents Escherichia coli adhesion to HT‐29 cells and also down‐regulates enteropathogen‐induced tumor necrosis factor‐α and interleukin‐8 expression

The aim of the present study was to evaluate the potential of Lactobacillus plantarum CS24.2 to antagonize Escherichia coli adhesion and modulate expression of the responses by HT‐29 cells of inflammatory molecules to E. coli adhesion. Experiments were performed under different adhesion conditions and findings compared with the responses of Lactobacillus rhamnosus GG. Tests of competitive adhesion, adhesion inhibition and displacement assays were performed for lactobacilli (L. rhamnosus GG and L. plantarum CS24.2) and E. coli O26:H11 to HT‐29 cells. Both the lactobacilli significantly reduced E. coli adhesion to HT‐29 cells (P < 0.05). The ability of lactobacilli to modulate tumor necrosis factor‐α and interleukin‐8 expression was analyzed in HT‐29 cells stimulated with E. coli using qRT‐PCR. L. plantarum CS24.2 significantly down regulated expression of both the genes induced by E. coli in HT‐29 cells at 6 hr as well as 24 hr, which was more significant than the corresponding findings for L. rhamnosus GG. The present findings suggest that L. plantarum CS24.2 inhibits pathogen adhesion to a similar extent as does the established probiotic strain L. rhamnosus GG. It may also attenuate tumor necrosis factor‐α and interleukin‐8 expression in HT‐29 cells stimulated with E. coli.     

Polycystin‐1 affects cancer cell behaviour and interacts with mTOR and Jak signalling pathways in cancer cell lines

Polycystic Kidney Disease (PKD), which is attributable to mutations in the PKD1 and PKD2 genes encoding polycystin‐1 (PC1) and polycystin‐2 (PC2) respectively, shares common cellular defects with cancer, such as uncontrolled cell proliferation, abnormal differentiation and increased apoptosis. Interestingly, PC1 regulates many signalling pathways including Jak/STAT, mTOR, Wnt, AP‐1 and calcineurin‐NFAT which are also used by cancer cells for sending signals that will allow them to acquire and maintain malignant phenotypes. Nevertheless, the molecular relationship between polycystins and cancer is unknown. In this study, we investigated the role of PC1 in cancer biology using glioblastoma (GOS3), prostate (PC3), breast (MCF7), lung (A549) and colorectal (HT29) cancer cell lines. Our in vitro results propose that PC1 promotes cell migration in GOS3 cells and suppresses cell migration in A549 cells. In addition, PC1 enhances cell proliferation in GOS3 cells but inhibits it in MCF7, A549 and HT29 cells. We also found that PC1 up‐regulates mTOR signalling and down‐regulates Jak signalling in GOS3 cells, while it up‐regulates mTOR signalling in PC3 and HT29 cells. Together, our study suggests that PC1 modulates cell proliferation and migration and interacts with mTOR and Jak signalling pathways in different cancer cell lines. Understanding the molecular details of how polycystins are associated with cancer may lead to the identification of new players in this devastating disease.     

FLI‐1 mediates tumor suppressor function via Klotho signaling in regulating CRC

Colorectal cancer (CRC) is an aggressive malignancy with a high incidence and mortality rate. Although a targeting therapy has been developed, the 5‐year survival rate is still very low in CRC patients with distant metastasis. Thus, the identification of new targets is still significant for improving CRC treatment. Klotho is a tumor suppressor, and its expression is aberrant in CRC. In this study, the roles of the FLI‐1 gene in regulating Klotho gene expression and Klotho‐associated signaling, as well as the effects of FLI‐1 on colony formation, invasion, and apoptosis were investigated in CRC cell lines. The methylation of the FLI‐1 gene was analyzed using a commercial methylation kit. Results showed that FLI‐1 messenger RNA and protein expression were downregulated in six CRC cell lines when compared with the normal colon mucosal epithelial cell line, which negatively correlated with the level of DNA methylation. Silencing of FLI‐1 gene expression decreased Klotho protein expression and phosphorylation of β‐catenin protein at Thr⁴¹/Ser⁴⁵, but increased Wnt3a and β‐catenin protein expression and IGF‐1R phosphorylation in HT29 cells. In contrast to silencing FLI‐1, overexpressing FLI‐1 significantly increased Klotho protein expression and phosphorylation of β‐catenin protein at Thr⁴¹/Ser⁴⁵, but decreased Wnt3a and β‐catenin protein expression and IGF‐1R phosphorylation in Caco‐2 cells. Silencing of FLI‐1 gene expression significantly increased colony formation and invasion, but decreased apoptosis in HT29 cells. In contrast, overexpressing the FLI‐1 gene significantly decreased colony formation and invasion, but increased apoptosis in Caco‐2 cells. These findings suggest that FLI‐1 functions as a tumor suppressor in CRC cells and positively regulates Klotho signaling. Hypermethylation may be one of the causes of the loss of FLI‐1 gene expression in CRC cells.     

Apoptotic cell death in suspension cultures of Taxus chinensis var. mairei

Apoptotic cell death was observed in suspension cultures of Taxus chinensis var. mairei under normal cultivation conditions by using microscopy, total DNA agarose gel electrophoresis and in situ end-labeling of fragmented DNA. The morphological and biochemical changes of cells occurred mainly in the non-dividing cell clusters, indicating that the T. chinensis cells died mainly by apoptosis. There exists a close relationship between cell apoptosis and Taxol formation. Taxol concentration increased with the increase in content of apoptotic cells and reached a maximum (14.2 mg l^–1) after 23 days of culture, corresponding to a maximum ratio of apoptotic to total cells of about 13%.     

RasV12 induces Survivin/AuroraB pathway conferring tumor cell apoptosis resistance

Several cancers are treated by interferons α and γ in association with conventional chemotherapy due to the resistance observed with interferon treatment alone. The frequency of un-sensitive cancer depends on tumor origin and oncogenic genes. Preclinical studies have highlighted interferon resistance in many cancers such as colon carcinoma due to oncogenic Ras. However, the resistance mechanism remains elusive. Apoptosis and proliferation of Ras^wt and mutated Ras^V12 transformed colon carcinoma cells treated with several recombinant interferon combinations were analyzed by flow cytometer and immunoblot. Apoptotic pathways of resistant Ras^V12 cells were investigated using siRNA strategy to determine key proteins involved in this process. We show that interferons α and γ synergized to induce human Ras^wt colon carcinoma cell (HT29) apoptosis by caspases and PARP-1 cleavages in contrast to Ras^V12 mutated colon carcinoma cells (SW480, HT29 clone). However, Ras^V12 siRNA restored interferon sensitivity of Ras^V12-HT29 clone to apoptosis. Survivin siRNA increased interferon apoptosis in Ras^wt cells demonstrating the key role of this protein in cell survival. Ras^V12 mutation in HT29 clone neutralized the interferon effect on Survivin suppression and maintained high level of phospho-Aurora-B/Histone H3, which protected cells from apoptosis. SiRNA strategy against both Aurora-B and Survivin in Ras^V12 cells synergized to restore interferon -induced apoptosis. Ras^V12 cells are less sensitive than Ras^wt cells to interferon induced cell apoptosis due to a Survivin/Aurora-B survival alternative pathway. Taken together, these results may provide interest in siRNA-therapeutic strategy and diagnostic relevance for therapy.     

The Blepharis persica seed hydroalcoholic extract synergistically enhances the apoptotic effect of doxorubicin in human colon cancer and gastric cancer cells

The goal of this survey is to evaluate the anti-proliferative effects of the hydroalcholic extract of Blepharis persica seeds and its synergic effect on doxorubicin (DOX) in human colon cancer (HT-29) and gastric cancer cell (AGS) lines. 70% Ethanol was used for extraction of B. persica seed. Aluminum–chloride colorimetric and Folin–Ciocalteu reagent methods were used to measure total flavonoid and total phenolic contents of the extract respectively. Gas chromatography-mass spectrometry (GC-MS) analysis of the B. persica extract was performed on GC-MS equipment after silylation. HT-29, AGS, and human fibroblast (SKM) cell lines were treated by different concentration of the B. persica extract, (DOX) and the combination of extraction and DOX. The cytotoxicity was measured using 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyl tetrazolium bromide (MTT) assay while the apoptosis induction was monitored using flowcytometry by annexin-V FITC/PI double-staining. The changes in expression levels of BAX and BCL-2 were determined using Real-Time RT-qPCR. GC-MS analysis of the hydroalcoholic extract from B. persica seeds revealed 24 major components. The MTT assay revealed the cytotoxicity against three cell lines and also it was shown that 125 ng/mL of DOX and 0.625 mg/mL of B. persica extract had synergistic behavior against HT29 cell line. These results showed B. persica extract induced apoptosis in AGS and HT29 cells and its extract caused dose-dependent increase in up-regulation of BAX level (p?<?0.05) and down-regulation of BCL₂ (p?<?0.05). B. persica showed the synergistic effect in combination with DOX on HT29 cell line. These findings demonstrated a basis for further studies on the characterization and mechanistic evaluation of the bioactive compounds of B. persica extract which had antiproliferative effects on cancer cell lines.

     

Cytostatic/Cytotoxic Effects of 5‐Fluorouridine Nucleolipids on Colon,Hepatocellular, and Renal Carcinoma Cells: in vitro Identification of a Potential Cytotoxic Multi‐Anticancer Drug

The insufficient penetration through the cell membranes is one of the major drawbacks of chemotherapeutics such as 5‐fluorouracil (5‐FU; 1 ). To improve the penetration, a useful strategy is the attachment of lipophilic moieties. Thus, we have synthesized a series of nucleolipid derivatives of 5‐fluorouridine (5‐FUrd; 2a ), carrying lipophilic moieties at N(3) and/or at the 2′,3′‐O position, i.e., 3a, 3b, 4 – 7 , and tested their cytostatic/cytotoxic activities towards three carcinoma cell lines (colon (HT‐29), hepatocellular (HepG2), and renal (RENCA)) in comparison with 5‐FU ( 1 ) and 5‐FUrd ( 2a ). After 48 h of incubation, four derivatives, 3a, 3b, 5 , and 7 , showed inhibitory effects on the survival of HT‐29, HepG2, and RENCA cells. Additionally, to differentiate between anticancer and side‐effects, we tested the cytotoxicity of the derivatives in human macrophages. Interestingly, the derivatives 4, 5 , and 6 did not exhibit any effects on survival of THP‐1 macrophages. Furthermore, we investigated the apoptosis induction of compound 1 and 2a , and the above‐mentioned derivatives in HT‐29 cells. Derivative 5 showed the highest significant (p<0.05; p<0.01) increase of the apoptosis at 80 μM after 2‐h or 4‐h treatment, as well as after 6‐h incubation at 40 μM (p<0.05). Real‐time PCR revealed that 40‐μM derivative 5 showed a 1.8‐fold increase of the pro‐apoptotic caspase‐3 gene and a twofold significant increase (p<0.01 and p<0.05 vs. control and 1 , resp.) of the tumor suppressor TP53 gene, whereas the other compounds did not show any effect. We demonstrated that some 5‐FUrd derivatives such as compound 5 are more effective than 5‐FU or 5‐FUrd concerning a cytotoxic (vs. cytostatic (5‐FU, 5‐FUrd)) effect on different cancer cell lines, but without cytotoxic side‐effects on differentiated macrophages. Thus, compound 5 is suggested as a novel potent cytotoxic multi‐anti‐cancer drug.     

Regulation of apoptosis by type III interferons

Abstract. Objective: Two types of interferons (IFNs), type I (IFN‐α/β) and type III (IFN‐λs), utilize distinct receptor complexes to induce similar signalling and biological activities, including recently demonstrated for IFN‐λs antitumour activity. However, ability of type III IFNs to regulate cell population growth remains largely uncharacterized.Materials and methods: Intact and modified human colorectal adenocarcinoma HT29 cells were used to study regulation of apoptosis by IFN‐λs. Results and Conclusions: We report that the IFN‐λR1 chain of the type III IFN receptor complex possesses an intrinsic ability to trigger apoptosis in cells. Signalling induced through the intracellular domain of IFN‐λR1 resulted in G₁/G₀ phase cell cycle arrest, phosphatidylserine surfacing and chromosomal DNA fragmentation. Caspase‐3, caspase‐8 and caspase‐9 were activated; however, pancaspase inhibitor Z‐VAD‐FMK did not prevent apoptosis. In addition, the extent of apoptosis correlated with the level of receptor expression and was associated with prolonged IFN‐λ signalling. We also demonstrated that the ability to trigger apoptosis is a unique intrinsic function of all IFN receptors. However, more robust apoptosis was induced by signalling through type III IFN receptor than through type I or type II (IFN‐γ) receptors, suggesting higher cytotoxic potential of type III IFNs. In addition, we observed that IFN‐γ treatment sensitized HT29 cells to IFN‐λ‐mediated apoptosis. These results provide evidence that type III IFNs, alone or in combination with other stimuli, have the potential to induce apoptosis.     

The integrin-linked kinase gene up-regulated by hypoxia plays its pro-survival role in colorectal cancer cells

Abstract

Context: Colorectal cancer (CRC) is a leading cause of cancer death in recent years. It is believed that there are hypoxic regions in both early and advanced stage of tumor and hypoxia is able to reinforce the aggressiveness of tumor cells and accelerate the progression of cancer. Objective: Until now the mechanisms by which hypoxia promotes the progression of CRC are far from well understood. Integrin-linked kinase (ILK) is a crucial mediator and over-expressed in CRC patients. But whether ILK is involved in the process that hypoxia promotes CRC cells growth and silencing the ILK gene results in CRC cells apoptosis is not clear. Materials and methods: Lentivirus transfection, invasion assay, TUNEL assay, Bromodeoxyuridine incorporation and mitochondrial function assay were applied to demonstrate our hypothesis. Results: In this study, we found that hypoxia induced the expression of ILK in a time-dependent manner, and after knocking down ILK expression with ILK shRNA, the cells proliferation promoted by hypoxia was inhibited in HT29 cell line. Moreover, blocking the ILK pathway led to caspase-3 and caspase-9 activations, the decrease of mitochondrial membrane potential, and cells apoptosis. And the inhibitory effects of hypoxia on cells apoptosis were mediated by the ILK pathway. In addition, hypoxia promoted HT29 cells metastasis and invasion through the ILK pathway. Conclusions: Therefore, we conclude that the CRC cells survival and invasion enhanced by hypoxia are mediated by ILK, and ILK may be an important potential therapeutic target for CRC.     

Synthesis and Antitumor Evaluation in Vitro of NO‐Donating Ursolic Acid‐Benzylidene Derivatives

Antitumor activity of triterpenoid and its derivatives has attracted great attention recently. Our previous efforts led to the discovery of a series of NO‐donor betulin derivatives with potent antitumor activity. Herein, we prepared eight compounds derived from ursolic acid (UA). All the compounds were evaluated for their in vitro cytotoxicity against four human cancer cell lines (HepG‐2, MCF‐7, HT‐29 and A549). Among the compounds tested, compound 4a was found to be most active against HT‐29 (IC₅₀=4.28 μm ). Further biological assays demonstrated that compound 4a could induce cell cycle arrest at G1 phase and apoptosis in a dose‐dependent manner. In addition, compound 4a was found to upregulate pro‐apoptotic Bax, p53 and downregulate anti‐apoptotic Bcl‐2. All these results suggested that compound 4a is a potential candidate drug for the therapy of colon cancer.     

Infraspecific variability ofJuniperus L. (Cupressaceae) based on monoterpenoid compositions

The compositions of leaf monoterpenoids from 11 species in the Juniperus section (Juniperus chinensis var. chinensis,J. virginiana, J. communis var. montana,J. rigida, J. chinensis var. globosa,J. chinensis var. sargentii,J. chinensis ‘Kaizuka Variegata’,J. squamata ‘Wilsonii’,J. x media ‘Shimpake’,J. x media ‘Plamosa Aurea’, andJ. squamata ‘Aloderi’) were comparatively analyzed by GC-MS. Of the 24 compounds identified, α-pinene, myrcene, limonene, terpinolene, and bornyl acetate were common to all, but particular combinations differed remarkably among taxa. The simplest composition (eight compounds) was found in.J, chinensis var. chinensis; the most complex (19 compounds), inJ. x media ‘Shimpake’. Cluster analysis generated four distinctive clades within the Juniperus section. The minimum spanning network revealed thatJ. squamata ‘Wilsonii’ andJ. x media ‘Shimpake’ were most similar in their chemical makeup.     

Adjuvant therapy with γ‐tocopherol‐induce apoptosis in HT‐29 colon cancer via cyclin‐dependent cell cycle arrest mechanism

Resistance to chemotherapy with 5‐fluorouracil (5‐FU) in patients with colorectal cancer (CRC) is the major obstacle to reach the maximum efficiency of CRC treatment. Combination therapy has emerged as a novel anticancer strategy. The present study evaluates the cotreatment of γ‐tocopherol and 5‐FU in enhancing the efficacy of chemotherapy against HT‐29 colon cancer cells. Cytotoxic effect of this combination was examined using the 3‐(4,5‐dimethylthiazol‐2‐yl)‐2,5‐diphenyltetrazolium bromide assay and a synergistic effect was evaluated by a combination index technique. Nuclear morphology was studied via 4′,6‐diamidino‐2‐phenylindole staining and flow cytometric assays were conducted to identify molecular mechanisms of apoptosis and cell cycle progression. We investigated the expression of Cyclin D1, Cyclin E, Bax, and Bcl‐2 by a quantitative real‐time polymerase chain reaction. The IC₅₀ values for 5‐FU and γ‐tocopherol were 21.8 ± 2.5 and 14.4 ± 2.6 μM, respectively, and also this combination therapeutic increased the percentage of apoptotic cells from 35% ± 2% to 40% ± 4% (P < .05). Furthermore, incubation HT‐29 colon cells with combined concentrations of two drugs caused significant accumulation of cells in the subGsubG1 phase. Our results presented the combination therapy with 5‐FU and γ‐tocopherol as a novel therapeutic approach, which can enhance the efficacy of chemotherapy.     

Rapid lateral diffusion of lectin-labelled glycoconjugates in the human colonic adenocarcinoma cell line HT29

The lateral diffusion of lectin-labelled glycoconjugates was studied in the human colon carcinoma cell line HT29 using fluorescence photobleaching techniques. HT29 cells were grown in either Dulbecco's modified Eagle's medium with glucose (25 mM; DMEM-Glu) or with galactose (25 mM; DMEM-Gal). Cell cultivation in the DMEM-Gal medium was assumed to promote a transformation of the cells to become small-intestinal-like with characteristic microvilli and associated enzymes. The diffusion of glycoconjugates labelled with fluoresceinated Triticum vulgaris agglutinin (Wheat germ agglutinin; WGA), Ricinus communis agglutinin-I (RCA-I), Concanavalia ensiformis agglutinin (ConA), Ulex europaeus agglutinin-I (UEA-I) and Arachis hypogaea agglutinin (PNA) was in all cases rapid, with a diffusion constant (D) ranging between 0.4 and 0.8×10^-8 cm² s^-1. As a comparison the diffusion of the fluorescent synthetic lipid analog diI-C₁₄ was characterized by D=0.8 – 1.0 × 10^–8 cm² s^-1. The diffusion of lectin-labelled surface components could not be related to the presence of microvilli on HT29 cells grown in DMEM-Gal, which ought to yield an apparently lower diffusion rate. The results indicate either that surface glycoconjugates in HT29 cells are dominated by glycolipid, or that the labelled glycoproteins are more or less free to diffuse in the plane of the membrane.     

Cox-2 is needed but not sufficient for apoptosis induced by Cox-2 selective inhibitors in colon cancer cells

The role of Cox-2 in NSAID-induced apoptosis is debated. We studied the role of Cox-2 inhibition in apoptosis induced by a selective Cox-2 inhibitor, SC236 (a structural analogue of celecoxib) in two colon cancer cell lines, HT29 (expressing Cox-2 protein) and HCT116 (not expressing Cox-2 protein). Apoptosis was quantified by flow cytometry. SC236 0–75 M decreased cell numbers and induced apoptosis to identical levels in HT29 and HCT116 cells. However, SC236, concentrations >75 M reduced Cox-2 protein expression in HT29 cells and induced greater levels of apoptosis in HT29 than in HCT116 cells. In contrast, sulindac sulfide (SSD) (which inhibits Cox-1 and Cox-2) 0–200 M or sulindac sulfone (SSN) 0–500 M (without significant activity against Cox-1 or Cox-2) caused identical decreases in cell number and increases in apoptosis in HT29 and HCT116 cells. Neither SSD nor SSN altered the expression of Cox-2 in HT29 cells. To determine that the higher levels of apoptosis in HT29 cells with SC236 >75 M were related to decreased Cox-2 protein levels, we decreased Cox-2 protein expression in HT29 cells with curcumin (diferuloylmethane) and studied its effect on SC236-induced apoptosis. Curcumin augmented apoptosis induced by SC236 in HT29 cells but not in Cox-2 lacking HCT116 cells. In conclusion, selective Cox-2 inhibitors can induce apoptosis independent of Cox-2 expression. However they may selectively target cells that express Cox-2 by decreasing their Cox-2 protein expression.     

The Loss of a Sugar Chain at C(3) Position Enhances Stemucronatoside K‐Induced Apoptosis,Cell Cycle Arrest,and Hedgehog Pathway Inhibition in HT‐29 Cells

Stemucronatoside K (SMK) and its aglycone stephanthraniline A (STA) are the most representative of a series of novel C₂₁ steriodal compounds that we have previously isolated from Asclepiadaceae plants. The objectives of this study were to investigate the antitumor activity of SMK and STA, and clarify the effect of the sugar chain at the C(3) position. Our results showed that both SMK and STA decreased the growth of HT‐29 cells in a dose‐ and time‐dependent manner. Meanwhile, STA showed much stronger inhibitory effect than SMK. Treatment of HT‐29 cells with STA increased the apoptotic cell numbers and the protein expression of cleaved caspase 3 and cleaved‐PARP. G1 phase cell cycle arrest and decreased expression of cyclin D1 and cyclin‐dependent kinases 4 were also observed after STA treatment. Furthermore, STA reduced the mRNA levels of four Hedgehog pathway components (GLI1, GLI2, GLI3, and PTCH1) and suppressed Shh‐induced Hedgehog pathway activation in a concentration‐dependent manner. These results indicated that SMK and STA could inhibit the growth of HT‐29 cells by inducing apoptosis, cell cycle arrest, and hedgehog pathway inhibition. The loss of sugar chain at C(3) position could enhance SMK's activity. This study is beneficial to understand the use of natural C₂₁ steroids as antitumor lead compounds.