Identification and phenotypic characterization of a subpopulation of T84 human colon cancer cells, after selection on activated endothelial cells.

The extravasation of metastatic cells is regulated by molecular events involving the initial adhesion of tumor cells to the endothelium and subsequently the migration of the cells in the host connective tissue. The differences in metastatic ability could be attributed to properties intrinsic of the various primary tumor types. Thus, the clonal selection of neoplastic cells during cancer progression results in cells better equipped for survival and formation of colonies in secondary sites. A cell line (T84SF) exhibiting an altered phenotypic appearance was selected from a colon cancer cell line (T84) by repetitive plating on TNFalpha-activated human endothelial cells and subsequent selection for adherent cells. Cell growth, motility, chemoinvasive abilities, tyrosine phosphorylation signaling, and the metastasis formation in nude mice of the two cell lines was compared. T84SF cells displayed in vitro an higher proliferation rate and a more invasive behavior compared to the parental cells while formed in vivo a greater number of metastatic colonies in nude mice. As concerns the signaling underlying the phenotypes of the selected cells, we examined the general tyrosine phosphorylation levels in both cell lines. Our results indicate that T84SF have an increased basal tyrosine phosphorylation of several proteins among which src kinase was identified. Treatment of cells with a specific inhibitor of src activity caused a greater in vitro inhibition of proliferation and invasive properties of T84 parental cells with respect to T84SF cells and diminished metastasis formation in vivo. Altogether, these data provide evidences that this new cell line may be valuable for identifying molecular mechanisms involved in the metastatic progression of colon cancer.

Different phenotypes of colon carcinoma cells interacting with endothelial cells: role of E-selectin and ultrastructural data.

Adhesion molecules are intimately involved in the process of tumour progression. Among them, E-selectin is an inducible endothelial cell adhesion molecule that plays a role in the interactions of neoplastic cells with the endothelium. These interactions are required for the trans-endothelial migration of tumour cells that leads to the growth at the new sites. Since the detailed events in the early phase of metastasis still remain poorly defined, our study has undertaken an electron-microscopic analysis of the interactions of human colon carcinoma cells with endothelial cells as well as an analysis of the effect of recombinant purified E-selectin in the cell signalling involved in colon cancer cell malignant phenotype. Results revealed that SW480 and T84 colon cancer cell lines show different features, different adhesion kinetics, a different cytoskeletal organization, and a different tyrosine phosphorylation pattern when seeded on an endothelial cell monolayer or recombinant E-selectin. In particular T84 cancer cells adhere more efficiently to the E-selectin and this interaction is associated with pronounced morphological changes, actin redistribution and filopodial processes, and an increase in tyrosine phosphorylation of different proteins. These data support the hypothesis that E-selectin ligand is not only a cell-cell adhesion molecule but also initiates a signalling transduction pathway inside the cells.

Role of calcium in E-selectin induced phenotype of T84 colon carcinoma cells.

The adhesion of cancer cells to the endothelium during the metastatic process involves the interaction of specific cell-cell adhesion receptors on the cell surface. E-selectin on endothelial cells and sialyl Lewis X carbohydrate component on tumor cells are mainly implicated in the adhesion of colon carcinoma cells to the endothelium of target organ. In this paper we show that binding of E-selectin to T84 colon tumor cells causes approximately a twofold increase in intracellular calcium concentration. In particular, using two inhibitors of receptor operated calcium channels, CAI and SK&F 96365, we present evidences that the augmentation in cytoplasmic calcium originates from ionic influx from extracellular sources. Furthermore, we demonstrated that modulation of [Ca2+]i by engagement of E-selectin receptor starts signal transduction pathways that affect cell spreading, tyrosine phosphorylation signaling, and cancer cell motility.

Autosomal microsatellite and mtDNA genetic analysis in Sicily (Italy).

DNA samples from 465 blood donors living in 7 towns of Sicily, the largest island of Italy, have been collected according to well defined criteria, and their genetic heterogeneity tested on the basis of 9 autosomal microsatellite and mitochondrial DNA polymorphisms for a total of 85 microsatellite allele and 10 mtDNA haplogroup frequencies. A preliminary account of the results shows that: a) the samples are genetically heterogeneous; b) the first principal coordinates of the samples are correlated more with their longitude than with their latitude, and this result is even more remarkable when one outlier sample (Butera) is not considered; c) distances among samples calculated from allele and haplogroup frequencies and from the isonymy matrix are weakly correlated (r = 0.43, P = 0.06) but such correlation disappears (r = 0.16) if the mtDNA haplogroups alone are taken into account; d) mtDNA haplogroups and microsatellite distances suggest settlements of people occurred at different times: divergence times inferred from microsatellite data seem to describe a genetic composition of the town of Sciacca mainly derived from settlements after the Roman conquest of Sicily (First Punic war, 246 BC), while all other divergence times take root from the second to the first millennium BC, and therefore seem to backdate to the pre-Hellenistic period. A more reliable association of these diachronic genetic strata to different historical populations (e.g. Sicani, Elymi, Siculi), if possible, must be postponed to the analysis of more samples and hopefully more informative uniparental DNA markers such as the recently available DHPLC-SNP polymorphisms of the Y chromosome.

E-selectin modulates the malignant properties of T84 colon carcinoma cells.

The extravasation of metastatic cells is regulated by molecular events involving the initial adhesion of tumor cells to the endothelium and subsequently the migration of cells in the host connective tissue. E-selectin on endothelial cells and sialyl Lewis X carbohydrate component on tumor cells are mainly involved in the adhesion of colon carcinoma cells to the endothelium of target organ. Interaction of T84 colon cancer cells to purified E-selectin in vitro caused an increase in the tyrosine phosphorylation of a number of proteins as well as the modulation of cellular properties correlated to the metastatic phenotype. Specifically, E-selectin-stimulated actin reorganization, increased collagenase secretion, and induced cell migration. Treatment of T84 cells with herbimycin A inhibited cell adhesion as well as selectin-induced increase of cell migration, and cytoskeleton assembly. Our data demonstrate that binding of cancer cells to E-selectin starts signal transduction pathways which may affect the tumor metastatic abilities.

MtDNA control region and RFLP data for Sicily and France.

The forensic application of mtDNA typing requires large databases which are regionally well defined. To further this aim, we have typed mtDNA in a sample of 111 French and 106 Sicilians. The French were typed for both hypervariable segments (HVR1 and HVR2) of the mtDNA control region, whereas the Sicilians were only typed for HVR1, but in addition for the coding region RFLP markers for mtDNA groups H, I, J, K, L, M, T, U, V and X. In both samples, the predominant sequence type by far was the Cambridge reference sequence. Comparing HVR1 sequences, we found that the French sample was twice as diverse as the Sicilian sample as measured by sequence matches. A further set of sequence match comparisons including the French, Sicilian, and the published British mtDNA samples, demonstrate that sequence matching probabilities within samples differ by less than a factor of 2 from the matching probabilities between samples.

The apoptotic signaling of TNF-alpha in multidrug resistant Friend leukemia cells.

Drug resistance, especially in its multiple forms (multidrug resistance, MDR), is a major and difficult problem to resolve in cancer therapy. Certain cytokines might be capable of bypassing this process and here we report on the in vitro effects of Tumor Necrosis Factor alpha, (TNF) on a MDR variant (FLC/DOX) of Friend leukemia. Drug resistance of FLC/DOX is associated with at least two mechanisms, i.e. overexpression of P-glycoprotein and increase in glutathione-related detoxifying activities. Nevertheless, TNF exerts more cytotoxicity in FLC/DOX than in its parental, drug-sensitive, counterpart and this effect is related to the induction of apoptosis. In contrast, Doxorubicin (DOX) never induces apoptosis in FLC/DOX, even when applied at high, fully cytotoxic, concentrations. We have tried to elucidate TNF signaling in FLC/DOX. The results have indicated that in this cell line TNF-triggered apoptosis exhibits some distinct features. It occurs mostly through type I (p55) TNF receptors, probably involves a calphostin-C sensitive protein kinase C activity and requires synthesis of proteins (it is inhibited by actinomycin D or cycloheximide) and of inducible nitric oxide (NO) synthase (it is inhibited by NG-methyl-L-arginine or aminoguanidine). Further, it is not influenced by agents which increase or decrease cell sulfhydryl groups, such as N-acetylcysteine or buthionine sulfoximine, respectively. These steps appeared to be either not or dissimilarly involved in the resistance to DOX of the same cells. In particular, DOX activity was stimulated by calphostin C and buthionine sulfoximine, and reduced by N-acetyl-cysteine. These findings illustrate that TNF may activate fresh cytotoxic pathways in tumor cells which are multidrug resistant, also owing to multifactorial causes.

Development and partial characterization of a human T-lymphoblastic leukemic (CCRF-CEM) cell line resistant to etoposide. Analysis of possible circumventing approaches.

We have selected an etoposide-resistant variant (CCRF-CEM/VP-16) of the human T-lymphoblastic CCRF-CEM leukemia for study. Resistance to the topoisomerase II (topo II) inhibitor was about 11-fold and stable. Other data revealed that the new cell line had acquired an atypical, non-P-glycoprotein overexpressing multidrug resistant (MDR) phenotype with cross-resistance to other topo II inhibitors (amsacrine, doxorubicin, and mitoxantrone) and to glucocorticoids, but not to novobiocin, ICRF-187, vincristine or cisplatin. In a first instance, we assumed that altered drug-topo II interactions, based on quantitative and/or qualitative modifications of the enzyme, are a cause of resistance in the cell line. We tried to modify the drug sensitivity of the cells by means of various agents and cytokines. Positive results were obtained with verapamil and, to a lesser extent, cyclosporin A, but they were not specific for the drug resistant variant and occurred in the parental CCRF-CEM as well. Other attempts with buthionine sulfoximine, novobiocin, pentoxifylline, interleukin-1, interferon-alpha, retinoic acid, TNF-alpha, bryostatin 1 or phorbol myristate acetate were substantially unsuccessful, thus confirming the difficulty of pharmacologically overcoming atypical MDR. More encouragingly, however, CCRF-CEM/VP-16 cells exhibited hypersensitivity to other agents, including actinomycin D and taxol.

TNF-induced apoptosis in multidrug resistant friend erythroleukemia is not influenced by the P-glycoprotein and glutathione status of the cell line.

The effects that TNF-alpha exerts on Friend erythroleukemia (FLC) and on one multidrug resistant variant (FLC-DXR) of the cell line were studied. Resistance to doxorubicin of FLC-DXR entails two mechanisms: overexpression of P-glycoprotein; and increased glutathione-related activities. Both these might also decrease the effects of the cytokine. Nonetheless, TNF caused even greater cytotoxicity and apoptosis, with no induction of differentiation markers, in FLC-DXR. In addition, TNF produced minor changes of the levels of reduced and oxidized glutathione in the cell lines, and its cytotoxic effects were not inluenced by agents that modify the cell glutathione content such as buthionine sulfoximine, ethacrynic acid, or N-acetyl cysteine. We can exclude that the mechanisms of drug resistance of FLC-DXR prevent the response to the cytokine.

Combined activity of interleukin-1 alpha or TNF-alpha and doxorubicin on multidrug resistant cell lines: evidence that TNF and DXR have synergistic antitumor and differentiation-inducing effects.

We report on the antiproliferative effects that interleukin-1 alpha (IL-1) or TNF-alpha (TNF) in combination with doxorubicin (DXR) exert on DXR-sensitive (B16 melanoma, Friend, K562 and CCRF/CEM leukemias) and -resistant (B16-DXR, FLC-DXR, K562-DXR) cell lines in vitro. Multidrug resistance (MDR) of the latter lines entails cross-resistance to vincristine and overexpression of P-glycoprotein. Il-1 showed only a very marginal growth inhibitory activity and the effects of its combination with DXR were essentially additive in all the cell lines, except in chemosensitive B16, where a slight synergism occurred. TNF demonstrated greater antiproliferative activity in the MDR B16 and Friend tumors than in their parent variants. The combination of TNF and DXR produced synergistic growth inhibition in B16, K562 and, particularly, also in the MDR sublines of these two tumors. In addition, TNF and DXR induced synergistically erythroid differentiation in K562 and multidirectional differentiation in K562-DXR. The synergism was critically schedule-dependent in that it was achieved only when DXR application preceded or was simultaneous with that of TNF. Finally, TNF did not modify drug accumulation and retention in the cells. Our present findings stress especially the fact that DXR and TNF may exert useful antitumor synergism even in MDR lines; however, it is not likely that their interaction will occur at the specific MDR process level.

Effect of buthionine sulfoximine on the sensitivity to doxorubicin of parent and MDR tumor cell lines.

We have studied the interaction of glutathione-depleting concentrations of buthionine sulfoximine (BSO) with the anti-proliferative activity of doxorubicin (DXR) in three tumor lines, the mouse B16 melanoma. Friend erythroleukemia and the human K562 leukemia, both as DXR-sensitive and-resistant (with typical multidrug resistance) variants. BSO significantly enhanced the DXR effects in the wild-type Friend and K562 leukemias, and especially in the drug-resistant subline of Friend leukemia. BSO did not modify DXR accumulation and retention in the latter clone. Moreover, neither BSO nor verapamil used alone completely reversed the resistance to DXR of this cell line; their combination was more efficient and increased its drug sensitivity to a level closer to that of the parental counterpart. These results seem to indicate that the status of glutathione and of the enzymes related to it contributes to the resistance of Friend leukemia to DXR. An interesting additional finding was that BSO significantly synergizes with the antiproliferative effects of vincristine in the drug-sensitive variants of Friend and K562 leukemias.

NMDA-GABA interactions in an animal model of behaviour: a gating mechanism from motivation toward psychotic-like symptoms.

We studied the effects of desipramine, alprazolam, muscimol and dizocilpine (MK-801) (alone or associated with desipramine) in the forced swimming test in rats after long-lasting termination of chronic exposure to vehicle and pentylenetetrazol. Sensitisation with pentylenetetrazol was ineffective in changing immobility time in the forced swimming test compared to vehicle treatment; pentylenetetrazol enhanced the anti-immobility effect of desipramine, abolished the anti-immobility effect of alprazolam and did not affect the anti-immobility effect of muscimol. MK-801 at the dose that did not modify immobility time in vehicle-treated rats and in pentylenetetrazol-treated animals strongly potentiated the anti-immobility effect of desipramine in pentylenetetrazol-treated rats. MK-801 in association with desipramine induced a marked hyperlocomotion and hyperexcitability, with swaying movements and oral stereotypies in pentylenetetrazol-sensitised rats. Results are considered the experimental representation of a 'gating mechanism' toward psychotic-like symptoms.

Combinative growth-inhibitory effects of interferon-alpha and Doxorubicin on multidrug-resistant tumor-cell lines.

The antiproliferative effects of interferon-alpha (IFN-alpha) and of its combination with doxorubicin (DXR) were studied on three tumor cell lines, the mouse B16 melanoma and Friend erythroleukemia and the human K562 erythroleukemia, both as DXR-sensitive (B16, FLC, K562) and resistant (B16-DXR, FLC-DXR, K562-DXR) variants; the latter lines were endowed with typical multidrug resistance (MDR). Growth inhibition by IFN-alpha was greater in B16-DXR and FLC-DXR than in their chemosensitive counterparts and was superimposable in K562 and K562-DXR. On the other hand, the combination of IFN-alpha and DXR turned out to be merely additive in B16, B16-DXR, K562 and K562-DXR; it was synergistic in FLC and antagonistic in FLC-DXR. Our results and those of others seem to indicate that synergy between IFN-alpha and DXR may occur rarely in MDR cells.

Effects of desipramine and alprazolam in the forced swim test in rats after long-lasting termination of chronic exposure to picrotoxin and pentylenetetrazol.

Rats were treated for 5 weeks with three subconvulsant doses of picrotoxin (PTX) and pentylenetetrazol (PTZ) per week to induce a persistent reduction of the GABAA receptor function which results in chemical kindling. Fifteen days after termination of this treatment schedule, the effect of desipramine (DMI) and alprazolam (ALP) on immobility time in the forced swim test (FST) was evaluated. Chronic PTX and PTZ did not alter the immobility time. Acute PTX and PTZ reduced the immobility of rats chronically treated with vehicle but not of those exposed chronically to PTX and PTZ. Chronic PTX did not influence the anti-immobility effect of DMI, but blocked that of ALP. Chronic PTZ markedly potentiated the anti-immobility effect of DMI but blocked that of ALP. Concomitant administration of chlordiazepoxide prevented the effects of chronic PTX and PTZ. These findings suggest that a long-lasting reduction in GABAA receptor function, unlike acute reduction, does not play an important role in the mobility of rats in the FST and in the anti-immobility effect of DMI while it blocks that of ALP.

Antidepressant and anxiolytic effects of alprazolam versus the conventional antidepressant desipramine and the anxiolytic diazepam in the forced swim test in rats.

The antidepressant and anxiolytic effects of alprazolam were compared to those of desipramine, diazepam and buspirone in the forced swim test. Subchronic alprazolam induced a reduction in immobility similar to that of desipramine in 'non-pretested' and 'pretested' rats. In 'non-pretested' rats, the anti-immobility effect of desipramine was potentiated by diazepam and alprazolam, given before subchronic desipramine, while the anti-immobility effect of subchronic alprazolam was counteracted by diazepam. Diazepam, administered before the pretest session, counteracted, 24 h later, the anti-immobility effect of subchronic desipramine and alprazolam; alprazolam counteracted the anti-immobility effect of alprazolam but not of desipramine, buspirone at the highest doses tested potentiated the anti-immobility effect of subchronic desipramine but not of alprazolam. These data provide further support for the hypothesis that the GABA/benzodiazepine/Cl complex is directly implicated in the action of antidepressants and that systems other than the GABA system are involved in the antidepressant and anxiolytic effects of alprazolam.