Use and comparison of different internal ribosomal entry sites (IRES) in tricistronic retroviral vectors.

Background: Polycistronic retroviral vectors that contain several therapeutic genes linked via internal ribosome entry sites (IRES), provide new and effective tools for the co-expression of exogenous cDNAs in clinical gene therapy protocols. For example, tricistronic retroviral vectors could be used to genetically modify antigen presenting cells, enabling them to express different co-stimulatory molecules known to enhance tumor cell immunogenicity.

Results: We have constructed and compared different retroviral vectors containing two co-stimulatory molecules (CD70, CD80) and selectable marker genes linked to different IRES sequences (IRES from EMCV, c-myc, FGF-2 and HTLV-1).

Pharmacological-based translational induction of transgene expression in mammalian cells.

In the quest for the development of pharmacological switches that control gene expression, no system has been reported that regulates at the translational level. To permit small-molecule control of transgene translation, we have constructed a farnesyl transferase inhibitor-responsive translation initiation factor. This artificial protein is a three-component chimaera consisting of the ribosome recruitment core of the eIF4G1 eukaryotic translation initiation factor, the RNA-binding domain of the R17 bacteriophage coat protein and the plasma membrane localization CAAX motif of farnesylated H-Ras.

Molecular characterization of the microsomal tamoxifen binding site.

Tamoxifen is a selective estrogen receptor modulator widely used for the prophylactic treatment of breast cancer. In addition to the estrogen receptor (ER), tamoxifen binds with high affinity to the microsomal antiestrogen binding site (AEBS), which is involved in ER-independent effects of tamoxifen. In the present study, we investigate the modulation of the biosynthesis of cholesterol in tumor cell lines by AEBS ligands.

Induction of T-cell antitumor immunity and protection against tumor growth by secretion of soluble human CD70 molecules.

One of the strategies to promote an antitumor response is the genetic modification of tumor cells to induce expression of costimulatory molecules. We have tested the capacity of a soluble form of CD70 molecule (sCD70). After construction of a vector carrying the sCD70, we obtained stable sCD70-secreting TS/A tumor cells and allogenic MC57 fibroblasts.

Loss of RhoB expression in human lung cancer progression.

Purpose: RhoB is a low molecular weight GTPase belonging to the Ras protein superfamily. Whereas most Rho proteins have been shown to have a positive role in proliferation and malignant transformation, the specific role of RhoB appears more divergent. We reported previously that RhoB inhibits cell proliferation in various human cancer cells.

Perspectives on farnesyl transferase inhibitors in cancer therapy.

The discovery that the transforming activity of oncogenic Ras depends upon its post-translational farnesylation has led to the development of farnesyl transferase inhibitors (FTIs). FTIs inhibit the growth of ras-transformed cells in vitro and induce tumor regression in Ras-dependent tumors. Currently, FTIs are undergoing clinical trials in various solid or hematological malignancies.

Treatment of murine hepatocellular carcinoma using genetically modified cells to express interleukin-12.

Background And Aim: The majority of patients cannot benefit from the conventional curative treatments that are currently used for hepatocellular carcinoma (HCC), which remains a world health problem. Interleukin (IL)-12 is one of the most potent anti-tumor cytokines. The aim of the present study was to examine the anti-tumor effect and toxicity of intrahepatic delivery of IL-12 using an ex vivo gene therapy approach in a murine model of HCC.

[Radicular syndrome and synovial cyst of the zygapophyseal joints: two case-reports].

Introduction: Multiradicular nerve root compression, and long lasting radicular syndrome occur very often. They happen particularly on degenerative spine. Huge synovial cyst of the zygapophyseal joints may account for it, expand in the epidural area and cause radicular syndrome.

The farnesyltransferase inhibitor R115777 reduces hypoxia and matrix metalloproteinase 2 expression in human glioma xenograft.

Purpose: The high-grade primary brain tumors, glioblastoma, of extremely bad prognosis contain large regions of hypoxia known to be involved in the chemo- and radioresistance. We demonstrated previously that radioresistant human wild-type Ras U87 glioblastoma can be radiosensitized in vitro by the specific farnesyltransferase inhibitor R115777. The aim of this study was to analyze the effect of this compound on the hypoxic status and the vascularization of this tumor.

Inhibition of Rho pathways induces radiosensitization and oxygenation in human glioblastoma xenografts.

We previously demonstrated in vitro that inhibiting the biological pathways of the small GTPase Rho radiosensitizes the human glioma U87 cell line. The aim of this study was to determine if Rho might be involved in the control of in vivo radiosensitivity altogether by controlling cellular radioresistance and by modifying tumor microenvironment. We demonstrate here that the in vivo induction of the dominant negative of Rho, RhoBN19, in U87 xenografts induces a significant decrease of tumor cell survival after irradiation more important than the one we previously observed in vitro.

Tamoxifen is a potent inhibitor of cholesterol esterification and prevents the formation of foam cells.

Tamoxifen is a selective estrogen receptor modulator (SERM) used for the treatment and prevention of breast cancer. Tamoxifen has been reported to protect against the progression of coronary artery diseases in human and different atherosclerosis animal models by blocking the appearance of the atheromatous plaque. However, the molecular mechanism of this effect remains unknown.

Differences between graft product and donor side effects following bone marrow or stem cell donation.

We report graft product stem cell yields and donor safety results of a randomized multicenter study comparing allogeneic peripheral blood stem cell (PBSC) PBSC transplantation with BM transplantation. Matched HLA-identical sibling donors (n=329) were randomized to filgrastim-mobilized PBSC or bone marrow (BM) donation groups. Median yields per kg recipient weight of CD34(+) cells, T cells, and natural killer (NK) cells, respectively, were approximately two-fold, eight-fold, and greater than eight-fold in the PBSC group than in the BM group (CD34(+) cells, 5.

Additive effects of tamoxifen and the farnesyl transferase inhibitor FTI-277 on inhibition of MCF-7 breast cancer cell-cycle progression.

The efficacy of tamoxifen in the hormonal therapy of breast cancer is well established, but therapeutic resistance is inevitable. FTIs are a new class of anticancer drugs that are in phase III clinical evaluation. Since the mechanisms of action of these 2 classes of drugs are different, we tested the combination of tamoxifen and FTI-277 on inhibiting proliferation of hormone-dependent MCF-7 human breast cancer cells.

Haematogenous brain abscess complicating a case of Austrian syndrome.

Austrian syndrome includes pneumococcal endocarditis, meningitis and rupture of the aortic valve. This study reports a case with a haematogenous brain abscess. Physicians should be aware of the risk factors and dramatic evolution of this rare disease, to avoid delays in diagnosis, and to prevent embolic complications and rupture of the aortic valve.

[Farnesyl transferase inhibitors: one target may be found in another].

The fact that proteins such as Ras require farnesylation to induce malignant transformation prompted many investigators to design farnesyl transferase inhibitors (FTI) as novel anticancer drugs. FTIs inhibit the growth of ras transformed cells in vitro and induce tumor regression in ras dependent tumor in vivo. Moreover, FTIs inhibit tumor progression in human tumor xenograft models.

Cloning of the human RHOB gene promoter: characterization of a VNTR sequence that affects transcriptional activity.

The RHOB gene is an immediate-early gene implicated in cell growth control, cytoskeletal organization, and neoplastic transformation. Although the mouse RHOB gene (Arhb) promoter has been described, the human promoter is unknown. We cloned the human RHOB gene (ARHB) 5'-flanking region from the human genome and characterized its promoter region.

Involvement of CD70 and CD80 intracytoplasmic domains in the co-stimulatory signal required to provide an antitumor immune response.

CD70 and CD80 are co-stimulatory molecules which belong to the tumor necrosis factor family and the B7 family respectively. When they are co-expressed by gene-modified TS/A tumor cells, they provide an efficient protective and long-lasting T-dependent antitumor response. We first showed that when CD70 and CD80 were delivered in the tumor environment by gene-modified fibroblasts, but were not expressed by the tumor cells themselves, no antitumor response was observed.

Contrasting effects of prenyltransferase inhibitors on estrogen-dependent cell cycle progression and estrogen receptor-mediated transcriptional activity in MCF-7 cells.

Activation of estrogen receptors (ERs) by estrogens triggers both ER nuclear transcriptional activity and Src/Ras/Erks pathway-dependent mitogenic activity. The present study implicates prenylated proteins in both estrogenic actions. The farnesyltransferase and geranylgeranyltransferase I inhibitors (FTI-277 and GGTI-298, respectively) antagonize estradiol-stimulated cell cycle progression, progesterone receptor, cyclin D1, and c-Myc expression.

Farnesylated RhoB prevents cell cycle arrest and actin cytoskeleton disruption caused by the geranylgeranyltransferase I inhibitor GGTI-298.

Here we demonstrate that the geranylgeranyltransferase-I inhibitor GGTI-298 inhibits the RhoB pathway and disrupts stress fiber and focal adhesion formation in NIH-3T3 cells. Farnesylated (V14)RhoB-CAIM (resistant to GGTI-298), but not geranylgeranylated (V14)RhoB (-CLLL), prevented inhibition of actin stress fiber and focal adhesion formation, underlining the critical role of RhoB. In contrast, farnesylated, (V14)RhoA (-CVLS) was unable to prevent effects of GGTI 298 on cytoskeleton organization.

The radioprotective effect of the 24 kDa FGF-2 isoform in HeLa cells is related to an increased expression and activity of the DNA dependent protein kinase (DNA-PK) catalytic subunit.

We previously reported that overexpression of the 24 kDa basic fibroblast factor (or FGF-2) isoform provides protection from the cytotoxic effect of ionizing radiation (IR). DNA double-strand breaks (DSB), the IR-induced lethal lesions, are mainly repaired in human cells by non-homologous end joining system (NHEJ). NHEJ reaction is dependent on the DNA-PK holoenzyme (composed of a regulatory sub-unit, Ku, and a catalytic sub-unit, DNA-PKcs) that assembles at sites of DNA damage.

Increased expression of a COOH-truncated nucleophosmin resulting from alternative splicing is associated with cellular resistance to ionizing radiation in HeLa cells.

We previously demonstrated that transfecting HeLa cells with the 24 kDa basic fibroblast growth factor-2 (FGF-2) isoform dramatically increased cell survival after irradiation. To investigate genes implicated in this radioresistance acquisition, we compared mRNA expression between radioresistant 24 kDa FGF-2-expressing cells (HeLa 3A) and radiosensitive control HeLa PINA cells using the differential display technique. Of the 32 differentially expressed mRNAs, 1 presented a significant homology with a known gene.

High stem cell dose will not compensate for T cell depletion in allogeneic non-myeloablative stem cell transplantation.

The best strategies for non-myeloablative stem cell transplants (NST) are not known. We hypothesized that a high stem cell dose and post-transplant donor lymphocyte infusions (DLI) in a T cell-depleted NST setting may result in stable engraftment without severe GvHD. We used conditioning with 200 mg/kg cyclophosphamide, and ATG, a high peripheral stem cell dose of >10 x 10(6) CD34(+) cells/kg, T cell-depleted to <1 x 10(5) CD3(+) cells/kg followed by incremental DLI.

RhoB controls the 24 kDa FGF-2-induced radioresistance in HeLa cells by preventing post-mitotic cell death.

Farnesylated Ras oncoprotein induces a cellular resistance to ionizing radiation that can be reversed by farnesyltransferase inhibitors (FTI). We previously demonstrated that, expression of the 24 kDa FGF2 isoform in wild type ras bearing HeLa cells, induced radioresistance which was also reversed by FTI. We tested the hypothesis that wild type Ras or RhoB, which has been proposed as a potential FTI target, could control the FGF-2-induced radioresistance mechanisms.

Farnesyltransferase inhibitor, R115777, reverses the resistance of human glioma cell lines to ionizing radiation.

We investigated for the first time the ability of farnesyltransferase inhibitors (FTI) to radiosensitize human glioma. For this, human glioma cell lines were treated with the specific FTI, R115777, 48 hr prior to a 2Gy irradiation. The treatment with R115777 decreased by 45% the SF2 value of the more radioresistant glioma cell lines (SF763 and U87) without any significant effect on the radioresistance of the radiosensitive ones (SF767 and U251-MG).