LoVo colon cancer cells resistant to oxaliplatin overexpress c-MET and VEGFR-1 and respond to VEGF with dephosphorylation of c-MET.

Oxaliplatin-resistant LoVo colon cancer cells overexpressing c-MET and VEGFR-1 were selected to study several signaling pathways involved in chemoresistance, as well as the effect of increasing amounts of VEGF in the regulation of c-MET. In comparison with chemosensitive LoVo colon cancer cells, oxaliplatin-resistant cells (LoVoR) overexpress and phosphorylate c-MET, upregulate the expression of transmembrane and soluble VEGFR-1 and, unexpectedly, downregulate VEGF. In addition, LoVoR cells activate other transduction pathways involved in chemoresistance such as Akt, ß-catenin-TCF4 and E-cadherin. While c-MET is phosphorylated in LoVoR cells expressing low levels of VEGF, c-MET phosphorylation decreases when recombinant VEGF is added into the culture medium. Inhibition of c-MET by VEGF is mediated by VEGFR-1, since phosphorylation of c-MET in the presence of VEGF is restored after silencing VEGFR-1. Dephosphorylation of c-MET by VEGF suggests that tumors coexpressing VEGFR-1 and c-MET may activate c-MET as a result of anti-VEGF therapy.

Unlocking Doors without Keys: Activation of Src by Truncated C-terminal Intracellular Receptor Tyrosine Kinases Lacking Tyrosine Kinase Activity.

One of the best examples of the renaissance of Src as an open door to cancer has been the demonstration that just five min of Src activation is sufficient for transformation and also for induction and maintenance of cancer stem cells [1]. Many tyrosine kinase receptors, through the binding of their ligands, become the keys that unlock the structure of Src and activate its oncogenic transduction pathways. Furthermore, intracellular isoforms of these receptors, devoid of any tyrosine kinase activity, still retain the ability to unlock Src. This has been shown with a truncated isoform of KIT (tr-KIT) and a truncated isoform of VEGFR-1 (i21-VEGFR-1), which are intracellular and require no ligand binding, but are nonetheless able to activate Src and induce cell migration and invasion of cancer cells. Expression of the i21-VEGFR-1 is upregulated by the Notch signaling pathway and repressed by miR-200c and retinoic acid in breast cancer cells. Both Notch inhibitors and retinoic acid have been proposed as potential therapies for invasive breast cancer.

A truncated-Flt1 isoform of breast cancer cells is upregulated by Notch and downregulated by retinoic acid.

We have previously reported that the major isoform of Flt1/VEGFR-1 expressed in MDA-MB-231 breast cancer cells was a truncated intracellular isoform transcribed from intron 21 (i21 Flt1). This isoform upregulated the active form of Src and increased breast cancer cell invasiveness. Since expression of the transmembrane and soluble Flt1 isoforms of HUVEC is activated by Notch signaling, we wondered whether the expression of the intracellular isoform i21 Flt1 was also dependent on Notch activation. We report here that the expression of i21 Flt1 in HUVEC and MDA-MB-231 cells is downregulated by the γ-secretase inhibitor DAPT. In addition, treatment of MDA-MB-231 cells with siRNA specific for Notch-1 and Notch-3 downregulates the expression of i21 Flt1. In agreement with these findings, HUVEC and MDA-MB-231 breast cancer cells, cultured on dishes coated with recombinant human Dll4 extracellular domain, express higher levels of i21 Flt1. In cancer cells, Flt1 is a target of the micro RNA family miR-200. In MDA-MB-231 breast cancer cells, the truncated intracellular isoform i21 Flt1 is also negatively regulated by miR-200c. Retinoic acid interferes i21 Flt1 expression by downregulating Notch-3 and upregulating miR-200 expression. Treatment of MDA-MB-231 breast cancer cells with both a γ-secretase inhibitor and retinoic acid suppresses the expression of i21 Flt1, providing a new mechanism to explain the effectiveness of this therapeutic approach.

In vivo diabetogenic action of CD4+ T lymphocytes requires Fas expression and is independent of IL-1 and IL-18.

CD4(+) T lymphocytes are required to induce spontaneous autoimmune diabetes in the NOD mouse. Since pancreatic ß cells upregulate Fas expression upon exposure to pro-inflammatory cytokines, we studied whether the diabetogenic action of CD4(+) T lymphocytes depends on Fas expression on target cells. We assayed the diabetogenic capacity of NOD spleen CD4(+) T lymphocytes when adoptively transferred into a NOD mouse model combining: (i) Fas-deficiency, (ii) FasL-deficiency, and (iii) SCID mutation. We found that CD4(+) T lymphocytes require Fas expression in the recipients' target cells to induce diabetes. IL-1ß has been described as a key cytokine involved in Fas upregulation on mouse ß cells. We addressed whether CD4(+) T cells require IL-1ß to induce diabetes. We also studied spontaneous diabetes onset in NOD/IL-1 converting enzyme-deficient mice, in NOD/IL-1ß-deficient mice, and CD4(+) T-cell adoptively transferred diabetes into NOD/SCID IL-1ß-deficient mice. Neither IL-1ß nor IL-18 are required for either spontaneous or CD4(+) T-cell adoptively transferred diabetes. We conclude that CD4(+) T-cell-mediated ß-cell damage in autoimmune diabetes depends on Fas expression, but not on IL-1ß unveiling the existing redundancy regarding the cytokines involved in Fas upregulation on NOD ß cells in vivo.

A novel intracellular isoform of VEGFR-1 activates Src and promotes cell invasion in MDA-MB-231 breast cancer cells.

Two types of VEGFR-1 receptors have been characterized: a full-length transmembrane receptor and a truncated extracellular soluble isoform (sVEGFR-1). We report here the characterization, in normal and cancer cells, of a new family of intracellular isoforms of VEGFR-1 resulting from alternative initiation of transcription in intronic sequences of the gene. While the classical isoforms of VEGFR-1 were barely detectable in MDA-MB-231 breast cancer cells, one of the intracellular isoforms transcribed from intron 21 (i(21)VEGFR-1) was the main isoform expressed in these cells. The new transcript encodes for a protein that contains only the phosphotransferase domain and the carboxyterminal tail of VEGFR-1. Treatment of MDA-MB-231 cells with siRNA specific for the tyrosine domain of VEGFR-1 suppressed the expression of i(21)VEGFR-1, downregulated phosphorylation of Src at tyrosine 418, and reduced markedly the invasion capacity of these cells in vitro. Accordingly, overexpression of transfected i(21)VEGFR-1 in MDA-MB-231 cells upregulated the active form of Src and increased invasiveness of MDA-MB-231 cells. The expression of i(21)VEGFR-1 in MDA-MB-231 cells was inhibited by retinoic acid. Both, activation of Src and downregulation by retinoic acid, have been reported in other intracellular members of the Fms/Kit/PDGFR family of tyrosine kinases, particularly in the intracellular isoform of c-kit, analogous structurally to i(21)VEGFR-1 and frequently expressed in cancer cells.

Inhibition of the canonical IKK/NF kappa B pathway sensitizes human cancer cells to doxorubicin.

The NF kappa B family is composed by five subunits (p65/RelA, c-Rel, RelB, p105-p50/NF kappa B(1), p100-p52/NF kappa B(2)) and controls the expression of many genes that participate in cell cycle, apoptosis, and other key cellular processes. In a canonical pathway, NF kappa B activation depends on the IKK complex activity, which is formed by three subunits (IKKalpha and IKKbeta and IKKgamma/NEMO). There is an alternative NF kappa B activation pathway that does not require IKKbeta or IKKgamma/NEMO, in which RelB is a major player. We report in a panel of human breast cancer cells that the IKK/NF kappa B system is generally overexpressed in breast cancer cells and there is heterogeneity in expression levels of individual members between different cell lines. Doxorubicin, an anticancer agent used in patients with breast cancer, activated NF kappa B and appeared to be less effective in cells expressing predominantly members of the canonical IKK/NF kappa B. Two NF kappa B inhibitors, bortezomib and NEMO-Binding Domain Inhibitory Peptide, prevented doxorubicin-induced NF kappa B activation and increased doxorubicin antitumor effects in BT-474 cells. Transient down-regulation of members of the canonical pathway (p65, p52, c-Rel and IKKgamma/NEMO) by siRNA in HeLa cells increased doxorubicin cytotoxicity. In contrast, silencing of RelB, a key subunit of the alternative pathway, had no evident effects on doxorubicin cytotoxicity. To conclude, NF kappa B inhibition sensitized cells to doxorubicin, implying directly p65, p52, c-Rel and IKKgamma/NEMO subunits in chemoresistance, but not RelB. These findings suggest that selective inhibition of the canonical NF kappa B pathway is sufficient to improve doxorubicin antitumor effects.

Diversification of CDK11 transcripts during chicken testis development and regression.

CDK11 (cyclin-dependent kinase 11, formerly known as PITSLRE) is a serine/threonine kinase that associates with the cyclin L2 regulatory partner. CDK11 catalytic activity has been associated with apoptosis, transcription, and RNA processing. Here, we identify novel chicken testis CDK11 transcripts that differ in their 5'UTR, 3'UTR, splicing of the exon 6, and polyadenylation. We have also characterized the differential expression of CDK11 in somatic tissues, during testis development and upon testicular regression by diethylstilbestrol (DES) treatment. The heterogeneity of CDK11 transcripts presented in this study suggests new possibilities for post-transcriptional regulation.

Antiangiogenic effects of anti-tumor necrosis factor alpha therapy with infliximab in psoriatic arthritis.

OBJECTIVE: Neovascularization, with an increased number of synovial vessels with a characteristic morphology, seems to contribute to the progression of psoriatic arthritis (PsA). Accordingly, angiogenesis may be an important therapeutic target in PsA. The aim of this study was to analyze the effects of infliximab on angiogenesis in the synovial membrane of patients with PsA who responded to this therapy. METHODS: The study group comprised 9 patients with PsA who were selected for the presence of active polyarthritis (including knee synovitis) despite methotrexate therapy. Clinical and biologic evaluations were performed at each visit. Arthroscopy and synovial biopsies were performed at week 0, before infliximab therapy was initiated, and at week 8, after administration of 3 intravenous infusions of infliximab (5 mg/kg). We used immunohistochemistry to identify changes in infiltrating cells and in the angiogenesis modulators alphavbeta3 integrin, vascular endothelial growth factor (VEGF), angiopoietin 2 (Ang-2), flt-1 (VEGF receptor 1 [VEGFR-1]), kinase insert domain receptor [KDR]/flk-1 (VEGFR-2), and stromal cell-derived factor 1 (SDF-1). Neovascularization was assessed by automated histomorphometry of CD31+ vessels and by measuring alphavbeta3 expression. RESULTS: Rapid and significant clinical and biological improvement were observed after treatment in all patients. In the synovium, infliximab therapy induced a significant reduction in macrophages, the CD31+ vascular area, alphavbeta3+ neovessels/Ulex europaeus agglutinin+ vessels, VEGF and its receptor KDR/flk-1 (VEGFR-2), and SDF-1+ vessels. Expression of flt-1 (VEGFR-1), and SDF-1 in lining cells showed a nonsignificant reduction, whereas expression of Ang-2 increased. In 3 patients, reverse transcription-polymerase chain reaction confirmed the changes in some of these markers at the messenger RNA level. CONCLUSION: These results show consistent changes in several factors involved in angiogenesis regulation, in parallel with the clinical response to infliximab in patients with PsA. The pattern of reduced VEGF with increased Ang-2 suggests vascular regression as a potential mechanism underlying the antiangiogenic effect of infliximab.

D1S80 polymorphism, including a new variant, in a population sample from Barcelona (Spain) using polymerase chain reaction.

Allele and genotype frequencies for the D1S80 (MCT118) locus have been determined in a population sample from Barcelona (Spain) using the polymerase chain reaction (PCR) amplification and nonradioactive detection. In a total of 216 unrelated individuals, 24 alleles (23 common and 1 rare variant) and 67 genotypes (64 common and 3 variants) were observed. The 216 individuals came from 162 blood samples taken for paternity studies, 16 bloodstains from forensic cases, and 38 root hairs from normal individuals. The D1S80 locus demonstrated a heterozygosity of 0.7916, and a power of discrimination of 0.9731. The distribution of genotypes is in agreement with expected values according to the Hardy-Weinberg equilibrium. Additionally, the population from Barcelona differs, significantly, from the Finnish population and also, but with lower differences, from a U.S.A. Caucasian population. © 1993 Wiley-Liss, Inc.