UMLS:C0178874 - FACTA Search

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Query: UMLS:C0178874 (tumor progression)
40,807 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have investigated the involvement of tumor suppressor genes (p53 and RB1) and dominantly acting oncogenes (Ras family genes) in BCR/ABL positive and negative chronic myeloproliferative disorders (CMPD) at different stages of the disease, including 26 cases of BCR/ABL+ chronic myeloid leukemia (CML) blast crisis, 9 myelosclerosis with myeloid metaplasia, 4 polycythemia vera, 10 essential thrombocythemia, 1 juvenile CML, and 8 BCR/ABL- CML. The presence of mutations in p53 exons 5 through 9, as well as in RB1 exons 10-27 and in N-, K-, H-Ras exons 1 and 2 was tested by the PCR-Single Strand Conformation Polymorphism technique and by PCR-Direct Sequencing. In addition, Southern blot analysis was used to investigate the occurrence of gross rearrangements in the p53 gene as well as loss of heterozygosity at 17p13, the site of p53. Acute phase BCR/ABL-CMPD cases displayed a high frequency of p53 (2/7) and Ras (3/7) lesions, whereas BCR/ABL- CMPD in chronic phase displayed only germline p53 and Ras sequences. Conversely, p53 inactivation was restricted to only 1/26 cases of BCR/ABL+ CML blast crisis. No alterations in the RB1 gene were detected in any of the cases analyzed. These data indicate that p53 inactivation and/or Ras activation might play a role in acute transformation of BCR/ABL- CMPD and that the molecular mechanisms of tumor progression may be different in BCR/ABL+ versus BCR/ABL-CMPD.
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PMID:Molecular mechanisms of tumor progression in chronic myeloproliferative disorders. 815

This study reports a case of papillary carcinoma with vesicular components showing multiclonal aberrations of chromosome 22 as revealed by RHG-banding cytogenetics and by fluorescence in situ hybridization (FISH; whole chromosome 22 and BCR-ABL-specific locus probes, multi-FISH). Four clones with chromosome 22 changes as the sole abnormality were seen. The main abnormal clone lacked the whole chromosome 22. A del(22)(q11) was observed in a second group of cells. The third clone had an idic(22). Finally, FISH revealed a fourth abnormal cell population with a der(17)t(?17;22). Some of these chromosome 22 alterations have been described in other solid tumors such as meningiomas and neurinomas, suggesting a common genetic pathway of tumor progression occurring in a multistep process. Chromosome 22 changes do not seem to be involved in pure papillary thyroid tumors and therefore could be related to the maintenance of a follicular-type histological pattern.
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PMID:Structural and numerical aberrations of chromosome 22 in a case of follicular variant of papillary thyroid carcinoma revealed by conventional and molecular cytogenetics. 1095 38

SOCS-1 is an inducible SH2-containing inhibitor of Jak kinases and as such can potently suppress cytokine signaling. SOCS-1 deficient mice die within the first three weeks of life from a myeloproliferative disorder driven by excessive interferon signaling. We report here that SOCS-1 inhibits proliferation signals induced by a variety of oncogenes active within the hematopoietic system. Ectopic expression of SOCS-1 abolished proliferation mediated by a constitutively active form of the KIT receptor, TEL-JAK2, and v-ABL, and reduced metastasis from BCR-ABL transformed cells. SOCS-1, however, did not interfere with v-SRC or RASV12 mediated cellular transformation. A mutant form of SOCS-1 unable to bind through its SH2 domain to tyrosine phosphorylated proteins could still inhibit KIT, but not TEL-JAK2, indicating multiple mechanisms for SOCS-1-mediated tumor suppression. We show that the steady state levels of TEL-JAK2 and to a greater extent v-ABL are diminished in the presence of SOCS-1. Lastly, we show that SOCS-1 -/- fibroblasts are more sensitive than wild type fibroblasts to either spontaneous or oncogene-induced transformation. These data suggest that loss-of-function of SOCS-1 may collaborate with a variety of hematopoietic oncogenes to facilitate tumor progression.
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PMID:The tumor suppressor activity of SOCS-1. 1208 Apr 66

Aberrant methylation of tumor-suppressor gene promoter regions may play a causal role in the pre-neoplastic stage of cancer progression. In chronic myeloid leukemia, changes in the methylation status of the CpG-rich islands at several sites in the proximal ABL1 promoter (Pa) on the Philadelphia (Ph)-chromosome have been observed. It remains unclear if the Pa methylation precedes the translocation event (t9;22) that generates the Ph-chromosome or if Pa methylation is a stochastic event in a progenitor cell which will later acquire other mutations, namely t9;22. The present study was conducted to answer two questions: What is the methylation status of Pa in patients with Ph-negative myeloproliferative disorders (MPD)? Can the study of methylation in patients with Ph-negative MPD shed light on the initial events associated with the translocation? To probe CpG methylation, we used two methodologies; site-methylation-sensitive restriction enzyme assay and methylation-specific PCR analysis following modification of genomic DNA by bisulfite. Results showed that 22 of the 97 patients with Ph-negative MPD expressed BCR-ABL transcripts. Seven of the 97 patients possessed methylated Pa, but only 2 of them expressed BCR-ABL transcripts. In some of the patients, Pa methylation was a dynamic event. In conclusion, aberrant methylation in Ph-negative MPD could be an initial event triggering the occurrence of the t9;22 translocation and its clinical expression. These findings may shed light on the pathogenesis and progression of MPD.
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PMID:Detection of methylated ABL1 promoter in philadelphia-negative myeloproliferative disorders. 1266 92

Small molecule inhibitors belonging to the pyrido[2,3-d]pyrimidine class of compounds were developed as antagonists of protein tyrosine kinases implicated in cancer progression. Derivatives from this compound class are effective against most of the imatinib mesylate-resistant BCR-ABL mutants isolated from advanced chronic myeloid leukemia patients. Here, we established an efficient proteomics method employing an immobilized pyrido[2,3-d]pyrimidine ligand as an affinity probe and identified more than 30 human protein kinases affected by this class of compounds. Remarkably, in vitro kinase assays revealed that the serine/threonine kinases Rip-like interacting caspase-like apoptosis-regulatory protein kinase (RICK) and p38alpha were among the most potently inhibited kinase targets. Thus, pyrido[2,3-d]pyrimidines did not discriminate between tyrosine and serine/threonine kinases. Instead, we found that these inhibitors are quite selective for protein kinases possessing a conserved small amino acid residue such as threonine at a critical site of the ATP binding pocket. We further demonstrated inhibition of both p38 and RICK kinase activities in intact cells upon pyrido[2,3-d]pyrimidine inhibitor treatment. Moreover, the established functions of these two kinases as signal transducers of inflammatory responses could be correlated with a potent in vivo inhibition of cytokine production by a pyrido[2,3-d]pyrimidine compound. Thus, our data demonstrate the utility of proteomic methods employing immobilized kinase inhibitors for identifying new targets linked to previously unrecognized therapeutic applications.
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PMID:Chemical proteomic analysis reveals alternative modes of action for pyrido[2,3-d]pyrimidine kinase inhibitors. 1547 68

Targeted molecular therapeutics are tailored toward the genetic abnormalities that cause tumor progression. Modulation of certain signaling pathways that are aberrant in cancer cells has the potential to provide an effective, nontoxic approach to therapy in a broad range of cancers. Agents targeting BCR-ABL (imatinib mesylate [formerly known as STI-571], Gleevec; Novartis Pharmaceuticals Corp, East Hanover, NJ), retinoid receptor fusion proteins (all-trans retinoic acid), ErbB-2 or HER2/neu (trastuzumab, Herceptin; Genentech, Inc, South San Francisco, CA), epidermal growth factor receptor (IMC-C225 and ZD1839), and the phosphatidylinositol 3-kinase pathway (CCI-779) have all induced remarkable, nontoxic responses in a subset of patients with cancer and abnormalities in the corresponding signal transduction cascades. To achieve successful individualized therapy, the specific components within the aberrant signaling pathways that are driving the pathophysiology of the tumors must be identified in each patient. Molecular diagnostics can identify patients in whom the target is aberrant; linking molecular diagnostics with effective molecular therapeutics will be necessary to translate these concepts into approaches that will alter the outcome for patients with cancer. In addition, intermediary markers and/or molecular imaging techniques must be used to identify the biologically relevant dose that is sufficient to inhibit the target of interest. This review focuses on the P13K pathway, and novel molecules targeting this pathway, to illustrate the questions and challenges underlying the implementation of molecular therapeutics in breast and ovarian cancer.
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PMID:Mammalian target of rapamycin. 1579 39

N-acetyl-cysteine (NAC) has been reported to have anticancer properties such as counteractions against mutagens and prevention of tumor progression by scavenging reactive oxygen species (ROS). However, here we report that NAC can enhance the anchorage-independent growth of cells transformed by activated ABL tyrosine kinases or Ras. This effect was not dependent on loss of focal adhesion kinase activation. NAC rescued cell growth that was suppressed by heat shock protein (Hsp) 90 inhibitors possibly by chemical modification of their quinone moiety. NAC rendered Rat1/BCR-ABL cells resistance to a Ras inhibitor manumycin in soft agar colony formation. In the absence of Hsp90 inhibitors, NAC stimulated the activation of MAP kinase in BCR-ABL-transformed but not in the parental Rat1 cells. We propose that NAC should be used carefully in cancer treatment.
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PMID:N-acetyl-cysteine enhances growth in BCR-ABL-transformed cells. 1581 23

CD4(+)CD25(+) regulatory T cells have been characterized as a critical population of immunosuppressive cells. They play a crucial role in cancer progression by inhibiting the effector function of CD4(+) or CD8(+) T lymphocytes. However, whether regulatory T lymphocytes that expand during tumor progression can modulate dendritic cell function is unclear. To address this issue, we have evaluated the inhibitory potential of CD4(+)CD25(+) regulatory T cells from mice bearing a BCR-ABL(+) leukemia on bone marrow-derived dendritic cells. We present data demonstrating that CD4(+)CD25(+)FoxP3(+) regulatory T cells from tumor-bearing animals impede dendritic cell function by down-regulating the activation of the transcription factor NF-kappaB. The expression of the co-stimulatory molecules CD80, CD86 and CD40, the production of TNF-alpha, IL-12, and CCL5/RANTES by the suppressed DC is strongly down-regulated. The suppression mechanism requires TGF-beta and IL-10 and is associated with induction of the Smad signaling pathway and activation of the STAT3 transcription factor.
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PMID:Tumor-derived CD4(+)CD25(+) regulatory T cell suppression of dendritic cell function involves TGF-beta and IL-10. 1661 96

Identification of the key roles of protein kinases in signaling pathways leading to development of cancer has caused pharmacological interest to concentrate extensively on targeted therapies as a more specific and effective way for blockade of cancer progression. This review will mainly focus on inhibitors targeting these key components of cellular signaling by employing a technology-based point of view with respect to ATP- and non-ATP-competitive small molecule inhibitors and monoclonal antibodies of selected protein kinases, particularly, mammalian target of rapamycin (mTOR), BCR-ABL, MEK, p38 MAPK, EGFR PDGFR, VEGFR, HER2 and Raf. Inhibitors of the heat shock protein Hsp90 are also included in a separate section, as this protein plays an essential role for the maturation/proper activation of cancer-related protein kinases. In the following review, the molecular details of the mode of action of these inhibitors as well as the emergence of drug resistance encountered in several cases are discussed in light of the structural, molecular and clinical studies conducted so far.
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PMID:Protein kinases as drug targets in cancer. 1710 May 68

Targeted therapies by means of compounds that inhibit a specific target molecule represent a new perspective in the treatment of cancer. In contrast to conventional chemotherapy which acts on all dividing cells generating toxic effects and damage of normal tissues, targeted drugs allow to hit, in a more specific manner, subpopulations of cells directly involved in tumor progression. Molecules controlling cell proliferation and death, such as Tyrosine Kinase Receptors (RTKs) for growth factors, are among the best targets for this type of therapeutic approach. Two classes of compounds targeting RTKs are currently used in clinical practice: monoclonal antibodies and tyrosine kinase inhibitors. The era of targeted therapy began with the approval of Trastuzumab, a monoclonal antibody against HER2, for treatment of metastatic breast cancer, and Imatinib, a small tyrosine kinase inhibitor targeting BCR-Abl, in Chronic Myeloid Leukemia. Despite the initial enthusiasm for the efficacy of these treatments, clinicians had to face soon the problem of relapse, as almost invariably cancer patients developed drug resistance, often due to the activation of alternative RTKs pathways. In this view, the rationale at the basis of targeting drugs is radically shifting. In the past, the main effort was aimed at developing highly specific inhibitors acting on single RTKs. Now, there is a general agreement that molecules interfering simultaneously with multiple RTKs might be more effective than single target agents. With the recent approval by FDA of Sorafenib and Sunitinib--targeting VEGFR, PDGFR, FLT-3 and c-Kit--a different scenario has been emerging, where a new generation of anti-cancer drugs, able to inhibit more than one pathway, would probably play a major role.
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PMID:From single- to multi-target drugs in cancer therapy: when aspecificity becomes an advantage. 1828 97

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