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Query: UMLS:C0598934 (tumor growth)
 58,965 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Oligonucleotides have shown an ability to target specific oncogene transcripts and inhibit their expression in cells, but the degree to which sustained treatment can suppress the levels of an oncogenic protein enough to benefit a patient remains to be determined. This question has been studied in several ways. First, the relationship of antisense DNA inhibition to the predicted secondary structure of human H-RAS oncogene mRNA was examined in transformed mouse cells that form solid tumors. Inhibition of H-Ras expression was sequence-specific, dose-dependent, and correlated with inhibition of focus formation. The efficacy of the first intron antisense sequence in reducing H-Ras expression was greater than that of the initiation codon target. Second, H-RAS transformed solid tumor cells were pretreated in vitro with normal oligonucleotides, after which tumor growth from the treated cells was tested in nude mice. The three days of treatment with the first intron antisense DNA reduced H-Ras cellular levels by more than 90% whereas a nonspecific control DNA reduced H-Ras levels by approx 20%. Tumor growth of cells treated with H-RAS antisense oligonucleotide was significantly reduced for up to 14 d following the end of treatment and implantation into the mice, whereas the nonspecific control DNA had no significant effect. Third, H-RAS transformed bladder cancer cells were implanted into nude mice, after which the mice were treated for 31 d with oligonucleotide phosphorothioates. Tumor growth in mice treated with H-RAS 12th codon antisense oligonucleotide was reduced by about 80% throughout the treatment period, reiterating the sustained effect seen in pretreated tumor cells. However, the scrambled phosphorothioate control inhibited tumor growth by about 60%, illustrating some nonspecific inhibition. Fourth, K-RAS transformed pancreatic cancer cells were treated in culture and in nude mice. Inhibition of K-Ras expression with a phosphorothioate oligonucleotide directed against a 5'-UTR sequence was sequence-specific and dose-dependent. K-RAS transformed pancreatic cancer cells were implanted into nude mice, after which the mice were treated for 14 d with oligonucleotide phosphorothioates. Tumor growth in mice treated with K-RAS 5'-UTR antisense oligonucleotide was reduced by about 50% throughout the treatment period, reiterating the sustained effect seen with H-RAS transformed cells. In this case, the sense phosphorothioate control did not inhibit tumor growth, demonstrating that nonspecific inhibition is not a characteristic of all phosphorothioate sequences. The next logical steps include testing oligonucleotide efficacy against other tumor types, toxicological testing in higher species, and clinical trials in human subjects.
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PMID:Oligonucleotide treatment of ras-induced tumors in nude mice. 1143 98

Peptide nucleic acid (PNA) sequences are synthetic versions of naturally occurring oligonucleotides which display improved binding properties to DNA and RNA, but are still poorly internalized across cell membranes. In an effort to employ the rapid binding/internalization properties of somatostatin agonist analogs and the over-expression of somatostatin receptors on many types of tumor cells, PNAs complementary to target sites throughout 5'-UTR, translation start site and coding region of the n-myc oncogene were conjugated to a somatostatin analog (SSA) with retention of high somatostatin biological potency. IMR32 cells, which over-express somatostatin receptor type 2 (SSTR2) and contain the n-myc oncogene, were treated with these PNA-SSA conjugates. The results show that PNA conjugates targeted to the 5'-UTR terminus and to regions at or close to the translation start site could effectively inhibit n-myc gene expression and cell growth, whereas the non-conjugate PNAs were without effect at similar doses. The most potent inhibition of cell growth was achieved with PNAs binding to the translation start site, but those complementary to the middle coding region or middle upstream site between 5'-UTR and translation start site displayed no inhibition of gene expression. These observations were extended to four other cell lines: GH3 cells which express SSTRs with the n-myc gene, SKNSH cells containing a silent n-myc gene without SSTR2, HT-29 cells carrying the c-myc but no n-myc gene, and CHO-K1 cells lacking SSTR2 with n-myc gene. The results show that there was almost no effect on these four cell lines. Our study indicates that PNAs conjugated to SSA exhibited improved inhibition of gene expression possibly due to facilitated cellular uptake of the PNAs. These conjugates were mRNA sequence- and SSTR2-specific suggesting that many other genes associated with tumor growth could be targeted using this approach and that SSA could be a novel and effective transportation vector for the PNA antisense strategy.
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PMID:Antisense peptide nucleic acids conjugated to somatostatin analogs and targeted at the n-myc oncogene display enhanced cytotoxity to human neuroblastoma IMR32 cells expressing somatostatin receptors. 1221 15

To form metastases, tumors must break from the primary tumor site, invade surrounding tissues, enter and survive within the circulation and ultimately colonize a distal tissue. Each of these steps requires the cooperative function of numerous proteins--proteins that facilitate angiogenesis (e.g., VEGF), cell survival (e.g., Bcl-2), invasion (e.g., MMPs), and autocrine growth stimulation (e.g., c-myc, cyclin D1). Although expression of these proteins is regulated at many levels by disparate stimuli, translation of these key malignancy-related proteins is regulated primarily by the activity of the mRNA cap-binding protein eIF-4E, the rate-limiting member of the eIF-4F translation initiation complex. By binding the cap structure at the 5' terminus of cellular mRNAs, eIF-4E recruits mRNAs to the eIF-4F complex, which then scans from the 5' cap through the untranslated region (5'UTR), unwinding secondary structure to reveal the translation initiation codon and to enable ribosome loading. Messenger RNAs with short unstructured 5' UTRs are more easily translated than mRNAs harboring lengthy, highly structured 5' UTRs, as these prohibit efficient scanning and start codon recognition. As such, the translation of these mRNAs, which typically encode proteins involved in angiogenesis (e.g., VEGF), tumor growth (cyclin D1) and survival (Bcl-2), is suppressed except when eIF-4E is engaged with the eIF-4F complex--a common event in many human and experimental cancers. This review focuses on the hypothesis that enhanced eIF-4E function contributes to metastatic progression by selectively upregulating the translation of key malignancy-related proteins that together conspire to drive the metastatic process.
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PMID:Translational control and metastatic progression: enhanced activity of the mRNA cap-binding protein eIF-4E selectively enhances translation of metastasis-related mRNAs. 1274 84

Prohibitin is a candidate tumor suppressor gene located on human chromosome 17q21, a region of frequent loss of heterozygosity in breast cancers. We showed previously that microinjection of RNA encoded by the prohibitin gene 3'untranslated region (3'UTR) blocks the G(1)-S transition causing cell cycle arrest in several human cancer cell lines, including MCF7. Two allelic forms (C versus T) of the prohibitin 3'UTR exist, and carriers of the less common variant (Tallele) with a family history of breast cancer exhibited an increased risk of breast cancer. In the present study, we examined the tumor suppressor activity of the prohibitin 3'UTR in human breast cancer cells. Stable clones of MCF7 cells expressing either the C allele or the T allele RNA under the control of the cytomegalovirus promoter were isolated and compared with empty vector clones. Clones expressing the C allele RNA (UTR/C) exhibited significant suppression of growth in cell proliferation assays, inhibition of colony formation in soft agar assays, and suppression of xenograft tumor growth when implanted on nude mice, compared with either T allele expressing or empty vector clones. Immunohistochemical analyses with Ki67 staining confirmed a significant reduction in proliferation of UTR/C tumors. Thus, the C allele of prohibitin 3'UTR produces a functional RNA, whereas a single nucleotide polymorphism creates a null allele (T allele) of which the RNA product has lost activity. Our data demonstrate for the first time that an RNA molecule functions as a tumor suppressor in human breast cancer.
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PMID:Tumor suppression by the prohibitin gene 3'untranslated region RNA in human breast cancer. 1450 Mar 55

Overexpression of the translation initiation factor eIF4E results in transformation of normal fibroblasts as a single-hit oncogene. This implies that eIF4E must affect several pathways leading to transformation. The oncogenic potential of eIF4E is probably realized by elevating the translational efficiency of some oncogene and growth-promotion transcripts that are normally repressed by their 5'UTR (untranslated region). To address this possibility, we have cloned mRNAs whose polysomal representation increases upon overexpression of eIF4E. Among these mRNAs, we now report the isolation of a clone corresponding to the src-like kinase yes. The yes mRNA contains a long 5'UTR with characteristic features of a typical translationally repressed transcript. This was confirmed by analysis of the distribution of yes mRNA after sedimentation in sucrose gradients. Increased utilization of yes mRNA resulted in elevated expression of the protein product in cells transformed with eIF4E, and suggested that overexpression of Yes could contribute to eIF4E-mediated transformation. To test this, we monitored the malignant properties of MM3MG-4E cells after treatment with PP2, a specific inhibitor of src kinases. Growth in soft agar and saturation densities were significantly reduced after treatment with PP2, but treatment of mice harboring MM3MG-4E tumors with PP2 did not affect tumor growth. However, transformation of yes-null fibroblasts by eIF4E was significantly impaired.
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PMID:Translational upregulation of yes accompanies eIF4E-mediated oncogenic transformation. 1461 45

One attractive approach to anticancer therapy is repression of expression of vascular endothelial growth factor (VEGF) gene, which is a potent target for prevention of tumor growth. To achieve this, artificial transcription factors (ATF) designed for VEGF gene regulation were fused to cell-penetrating peptides (CPPs). We demonstrated ATFs fused to CPPs, designated CPP-ATFs or designed regulatory proteins (DRPs), could penetrate into mammalian cells and transiently repress expression of a reporter gene, which was under control of the VEGF promoter/5'-UTR. We discuss gene-regulatory properties of CPP-ATFs in detail.
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PMID:Regulation of cancer-related growth factor expression by artificial zinc-finger proteins. 1715 Sep 32

Common genetic variation could alter the risk for developing bladder cancer. We conducted a large-scale evaluation of single nucleotide polymorphisms (SNPs) in candidate genes for cancer to identify common variants that influence bladder cancer risk. An Illumina GoldenGate assay was used to genotype 1,433 SNPs within or near 386 genes in 1,086 cases and 1,033 controls in Spain. The most significant finding was in the 5' UTR of VEGF (rs25648, p for likelihood ratio test, 2 degrees of freedom = 1 x 10(-5)). To further investigate the region, we analyzed 29 additional SNPs in VEGF, selected to saturate the promoter and 5' UTR and to tag common genetic variation in this gene. Three additional SNPs in the promoter region (rs833052, rs1109324, and rs1547651) were associated with increased risk for bladder cancer: odds ratio (95% confidence interval): 2.52 (1.06-5.97), 2.74 (1.26-5.98), and 3.02 (1.36-6.63), respectively; and a polymorphism in intron 2 (rs3024994) was associated with reduced risk: 0.65 (0.46-0.91). Two of the promoter SNPs and the intron 2 SNP showed linkage disequilibrium with rs25648. Haplotype analyses revealed three blocks of linkage disequilibrium with significant associations for two blocks including the promoter and 5' UTR (global p = 0.02 and 0.009, respectively). These findings are biologically plausible since VEGF is critical in angiogenesis, which is important for tumor growth, its elevated expression in bladder tumors correlates with tumor progression, and specific 5' UTR haplotypes have been shown to influence promoter activity. Associations between bladder cancer risk and other genes in this report were not robust based on false discovery rate calculations. In conclusion, this large-scale evaluation of candidate cancer genes has identified common genetic variants in the regulatory regions of VEGF that could be associated with bladder cancer risk.
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PMID:Large-scale evaluation of candidate genes identifies associations between VEGF polymorphisms and bladder cancer risk. 1731 47

MicroRNAs are small noncoding RNA molecules that control expression of target genes. Our previous studies show that mir-21 is overexpressed in tumor tissues compared with the matched normal tissues. Moreover, suppression of mir-21 by antisense oligonucleotides inhibits tumor cell growth both in vitro and in vivo. However, it remains largely unclear as to how mir-21 affects tumor growth, because our understanding of mir-21 targets is limited. In this study, we performed two-dimensional differentiation in-gel electrophoresis of tumors treated with anti-mir-21 and identified the tumor suppressor tropomyosin 1 (TPM1) as a potential mir-21 target. In agreement with this, there is a putative mir-21 binding site at the 3'-untranslated region (3'-UTR) of TPM1 variants V1 and V5. Thus, we cloned the 3'-UTR of TPM1 into a luciferase reporter and found that although mir-21 down-regulated the luciferase activity, anti-mir-21 up-regulated it. Moreover, deletion of the mir-21 binding site abolished the effect of mir-21 on the luciferase activity, suggesting that this mir-21 binding site is critical. Western blot with the cloned TPM1-V1 plus the 3'-UTR indicated that TPM1 protein level was also regulated by mir-21, whereas real-time quantitative reverse transcription-PCR revealed no difference at the mRNA level, suggesting translational regulation. Finally, overexpression of TPM1 in breast cancer MCF-7 cells suppressed anchorage-independent growth. Thus, down-regulation of TPM1 by mir-21 may explain, at least in part, why suppression of mir-21 can inhibit tumor growth, further supporting the notion that mir-21 functions as an oncogene.
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PMID:MicroRNA-21 targets the tumor suppressor gene tropomyosin 1 (TPM1). 1736 72

Normal function of insulin-like growth factor II receptor (IGF2R) gene has been associated with negative control of tumor growth in vivo and in vitro. Rare alleles at a 3' UTR short tandem repeat polymorphism of IGF2R are known to decrease transcript stability. One such allele (A2/B2) increases significantly the risk of oral squamous cell carcinoma and non-small cell lung carcinoma (NSCLC) in Caucasians. To determine potential association(s) between A2/B2 presence and development and/or progression of disease, we examined in 103 NSCLC patients, free of IGF2R allelic imbalance aberrations, the 3' UTR allelic status in relation to tumor kinetic parameters (proliferation index-PI and apoptotic index-AI) and clinicopathological data. PCR and automated sequence analyses were employed to genotype the IGF2R 3' UTR polymorphism. Given that, oncogenic mitogens, which escape degradation by IGF2R, can also activate p53 through a DNA damage response, the patterns between p53 status and IGF2R genetic constitution were also evaluated in relation to the above parameters. The A2/B2 variant was significantly more common (p=0.005, chi2-test) in lung cancer patients (25% vs 15%). Its presence was accompanied by high cellular proliferation (p=0.028, t-test) along with increased tumor cell growth (GI=PI/AI) (p=0.022, t-test) and it was significantly found in advanced stages. Also, patients carrying the A2/B2 in their genetic constitution that exhibit aberrant p53 expression have faster growing tumors and progress more rapidly to advanced stages. In conclusion, the IGF2R-A2/B2 variant probably provides a selective advantage for NSCLC progression through increased tumor growth.
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PMID:The 3' UTR IGF2R-A2/B2 variant is associated with increased tumor growth and advanced stages in non-small cell lung cancer. 1803 32

MicroRNAs are single-stranded RNA of 18-24 nt expressed endogenously that play important roles in cancer development. Here, we show that expression of miR-378 enhances cell survival, reduces caspase-3 activity, and promotes tumor growth and angiogenesis. Proteomic analysis indicates reduced expression of suppressor of fused (Sufu), a potential target of miR-378, which was confirmed in vitro and in vivo. Expression of a luciferase construct containing the target site in Sufu was repressed when cotransfected with miR-378. Transfection of a Sufu construct reversed the effect of miR-378, suggesting an important role for miR-378 in tumor cell survival. We also discovered that miR-378 targets Fus-1. Expression of luciferase constructs harboring the target sites in Fus-1 was repressed by miR-378. Fus-1 constructs with or without its 3' UTR were also generated. Cotransfection experiments showed that the presence of miR-378 repressed Fus-1 expression. Suppression of Fus-1 expression by siRNA against Fus-1 enhanced cell survival. Transfection of the Fus-1 construct reversed the function of miR-378 in cell survival. Our results suggest that miR-378 transfection enhanced cell survival, tumor growth, and angiogenesis through repression of the expression of two tumor suppressors, Sufu and Fus-1.
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PMID:MicroRNA-378 promotes cell survival, tumor growth, and angiogenesis by targeting SuFu and Fus-1 expression. 1807 75


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