UMLS:C0027651 - FACTA Search

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Query: UMLS:C0027651 (tumor)
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In the Syrian hamster, neonatal diethylstilbestrol (DES) treatment and then postpubertal estrogen stimulation induces hyperplasia plus apoptosis (preneoplastic responses) and ultimately neoplasia in the endometrial epithelial cell compartment. As part of a project to investigate the molecular and cellular mechanisms responsible for this phenomenon, expression of several proto-oncogenes (c-jun, c-fos, c-myc, bax, bcl-2 and bcl-x) was compared in estrogen-stimulated uteri from control versus neonatally DES-treated hamsters. According to Northern blot analysis of total uterine RNA, levels of the 3.2-kb c-jun and 2.4-kb c-myc transcripts were not altered by neonatal DES treatment. However, the 1.0 kb bax and 2.7 kb bcl-x transcript levels were significantly increased in the neonatally DES-exposed uteri. According to immunohistochemical analysis of paraformaldehyde-fixed and paraffin-embedded tissue sections, levels of c-Jun, c-Fos, c-Myc, Bax, and Bcl-x proteins were enhanced dramatically in both the luminal and glandular epithelial cells of neonatally DES-exposed uteri. In contrast, the immunostaining signal for Bcl-2 protein was decreased consistently in the epithelial cells of neonatally DES-exposed uteri. In conclusion, neonatal DES treatment induced persistent and epithelial cell-specific imbalances in the estrogen-regulated uterine expression of c-jun, c-fos, c-myc, bax, bcl-2, and bcl-x proto-oncogenes. These imbalances likely play a role in the molecular mechanism by which neonatal DES treatment induces altered estrogen responsiveness including hyperplasia, apoptosis, and ultimately neoplasia in the epithelial compartment of the hamster uterus.
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PMID:Neonatal diethylstilbestrol treatment alters the estrogen-regulated expression of both cell proliferation and apoptosis-related proto-oncogenes (c-jun, c-fos, c-myc, bax, bcl-2, and bcl-x) in the hamster uterus. 910 Oct 88

The expression of glutathione S-transferase (GST)-pi and four oncogene products, c-Jun, c-Fos, c-H-Ras, and c-Myc, in human squamous cell carcinomas of the head and neck was investigated immunohistochemically before and after radiation therapy, to examine whether these oncogene products might be involved in GST-pi expression, and also to examine the relationship between their expression and therapeutic response. Clinical response to radiation was evaluated in terms of both tumor regression and relapse over two-year follow-up periods. The overall positive rates in 83 carcinoma specimens before therapy were 60.2% for GST-pi and 28.9-51.8% for the individual oncogene products, the positive rates for the oncogene products being higher in GST-pi-positive than in GST-pi-negative cancers. c-Jun was most highly correlated with GST-pi expression. Following radiation, the expression of GST-pi and the oncogene products was altered in about a half of 30 patients. Eleven of the 18 patients who exhibited prior positivity for GST-pi showed negative conversion, while 4 of the 12 patients with prior negativity demonstrated positive conversion. In most cases, changes in c-Jun staining coincided with those in GST-pi. Regarding clinical response to radiation therapy, the positive rates for GST-pi and c-Jun before radiation were higher in the residual cancer or relapse cases than in the group showing complete response without relapse. Examination of 26 patients with laryngeal cancer revealed that relapse occurred more frequently in cases exhibiting positive reactions for GST-pi, c-Jun, or c-H-Ras. These results suggest a direct link between c-Jun and GST-pi in head and neck cancers before and after radiation. Although GST-pi and the oncogene products can be influenced by radiation, GST-pi and c-H-Ras expression may be a risk factor for relapse of laryngeal cancer.
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PMID:Correlated expression of glutathione S-transferase-pi and c-Jun or other oncogene products in human squamous cell carcinomas of the head and neck: relevance to relapse after radiation therapy. 911 42

Methylprednisolone (MP) and related corticosteroids are a fundamental part of regimens used to treat lymphoma and leukemia. In many of these malignancies, oncogenic activation of C-MYC and BCL2 is seen. Abnormalities of the tumor suppressor p53, which exerts growth-suppressing and apoptosis-enhancing functions through the transcriptional regulation of downstream genes including CDKN1, GADD45, and BCL2, are also often found. The goal was to determine the modulation of expression of the oncogenes (C-MYC and BCL2), the p53 pathway described above, and the apoptosis marker TGF-beta 1 in the human Raji lymphoma following MP treatment. Raji xenografts were grown in nude mice and growth curves characterized by sequential measurement. Mice were treated daily for 8 days with MP. Tumors were harvested untreated, or at 1 or 8 days after cessation of MP treatment, and the RNA was extracted. RT-PCR was used to determine the level of mRNA expression of the genes. Tumor growth was greatly reduced in the MP-treated mice. Gene expression levels for C-MYC and BCL2 were reduced at 1 day following MP and approached control levels 8 days after MP treatment. Expression levels of p53, CDKN1, and GADD45 were moderately and coordinately decreased at 1 day after cessation of MP treatment and remained repressed a week later. TGF-beta 1 exhibited no change in expression levels. These results suggest that decreased expression of C-MYC and BCL2 may play a role in the molecular events that initiate and are responsible for the growth inhibition of Raji lymphoma xenografts by MP.
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PMID:Decreased C-MYC and BCL2 expression correlates with methylprednisolone-mediated inhibition of Raji lymphoma growth. 916 90

It has become increasingly clear that deregulation of programmed cell death is a critical component in multistep tumorigenesis. Previous studies have demonstrated a high frequency of Bcl-2 expression in tumors arising from cells derived from the neural crest and in tumor cell lines of neural origin. The present investigation was undertaken to determine whether similar molecular events occur in human pheochromocytoma. With the aim of determining the potential role of apoptosis in the pathogenesis of this tumor, we assessed proto-oncogene Bcl-2 and c-myc protein products as well as Bcl-2 messenger RNA levels in a collection of such tumors. Western blot analysis revealed that such tumors expressed the 26 kDa Bcl-2 (5 of 8 cases) and the 64 kDa c-Myc (7 of 8 cases) proteins. Northern blot analysis detected the Bcl-2 transcripts in 6 of 8 tumors. Immunoperoxidase staining, using a monoclonal anti-Bcl-2 antibody, was positive in 18 (82%), including 5 malignant tumors, of the 22 specimens examined. This Bcl-2 immunoreactivity was seen in 14 of 18 (78%) sporadic tumors, including 2 that were extra-adrenal, and all familial tumors. Of the 22 tumor samples examined for c-Myc protein, 20 (91%) tumors were positive. Our results suggest that deregulation of programmed cell death may be a critical component in the multistep tumorigenesis of human pheochromocytoma. The genetic complementation of simultaneously deregulated Bcl-2 and c-myc may be implicated in this process.
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PMID:Expression of the apoptosis-suppressing gene BCL-2 in pheochromocytoma is associated with the expression of C-MYC. 917 12

Cytogenetic analyses has revealed deletions and/or rearrangments at several chromosomal positions in approximately half of uterine leiomyomas. The most frequent genetic alteration, deletion of 7q22, was found in approximately 35% of studied cases with cytogenetic abnormalities (128/366=35%). The same chromosomal band was also found to be deleted in a fraction of acute myeloid leukemias and myelodysplastic syndromes. The frequent deletion of 7q22 in some tumors suggest that a tumor suppressor gene may be located in this region. The human Cut-like homeobox gene, CUTL1, is one of the genes localized to 7q22 and it was shown previously to encode a transcriptional repressor that down-modulates the expression of c-Myc. Activation of the c-Myc oncogenic potential has been shown in many cancers to result from alterations in one or the other of its several mechanisms of regulation. These observations led us to hypothesize that CUTL1 could act as a tumor suppressor gene. In the present study, we have identified polymorphic markers within and directly adjacent to CUTL1 at 7q22 and demonstrated that these markers are present in a commonly deleted region in seven out of 50 uterine leiomyomas samples examined. Furthermore, Northern blot analysis revealed that CUTL1 mRNA levels were reduced in eight tumors out of 13. These results suggest that CUTL1 may act as a tumor suppressor gene whose inactivation could be of pathological importance in the etiology of uterine leiomyomas.
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PMID:Loss of heterozygosity and reduced expression of the CUTL1 gene in uterine leiomyomas. 917 12

Cancer cells are able to overproduce lactic acid aerobically, whereas normal cells undergo anaerobic glycolysis only when deprived of oxygen. Tumor aerobic glycolysis was recognized about seven decades ago; however, its molecular basis has remained elusive. The lactate dehydrogenase-A gene (LDH-A), whose product participates in normal anaerobic glycolysis and is frequently increased in human cancers, was identified as a c-Myc-responsive gene. Stably transfected Rat1a fibroblasts that overexpress LDH-A alone or those transformed by c-Myc overproduce lactic acid. LDH-A overexpression is required for c-Myc-mediated transformation because lowering its level through antisense LDH-A expression reduces soft agar clonogenicity of c-Myc-transformed Rat1a fibroblasts, c-Myc-transformed human lymphoblastoid cells, and Burkitt lymphoma cells. Although antisense expression of LDH-A did not affect the growth of c-Myc-transformed fibroblasts adherent to culture dishes under normoxic conditions, the growth of these adherent cells in hypoxia was reduced. These observations suggest that an increased LDH-A level is required for the growth of a transformed spheroid cell mass, which has a hypoxic internal microenvironment. Our studies have linked c-Myc to the induction of LDH-A, whose expression increases lactate production and is necessary for c-Myc-mediated transformation.
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PMID:c-Myc transactivation of LDH-A: implications for tumor metabolism and growth. 919 21

Phorbol ester tumor promoters, such as phorbol 12-myristate 13-acetate (PMA), are potent activators of extracellular signal-regulated kinase 2 (ERK2), stress-activated protein kinase (SAPK), and p38 mitogen-activated protein kinase (MAPK) in U937 human leukemic cells. These kinases are regulated by the reversible dual phosphorylation of conserved threonine and tyrosine residues. The dual specificity protein phosphatase MAPK phosphatase-1 (MKP-1) has been shown to dephosphorylate and inactivate ERK2, SAPK, and p38 MAPK in transient transfection studies. Here we demonstrate that PMA treatment induces MKP-1 protein expression in U937 cells, which is detectable within 30 min with maximal levels attained after 4 h. This time course coincides with the rapid inactivation of PMA-induced SAPK activity, but not ERK2 phosphorylation, which remains elevated for up to 6 h. To examine directly the role of MKP-1 in the regulation of these protein kinases in vivo, we established a U937 cell line that conditionally expresses MKP-1 from the human metallothionein IIa promoter. Conditional expression of MKP-1 inhibited PMA-induced ERK2, SAPK, and p38 MAPK activity. By titrating the levels of MKP-1 expression from the human metallothionein IIa promoter, however, it was found that p38 MAPK and SAPK were much more sensitive to inhibition by MKP-1 than ERK2. This differential substrate specificity of MKP-1 can be functionally extended to nuclear transcriptional events in that PMA-induced c-Jun transcriptional activity was more sensitive to inhibition by MKP-1 than either Elk-1 or c-Myc. Conditional expression of MKP-1 also abolished the induction of endogenous MKP-1 protein expression in response to PMA treatment. This negative feedback regulatory mechanism is likely due to MKP-1-mediated inhibition of ERK2, as studies utilizing the MEK1/2 inhibitor PD98059 suggest that ERK2 activation is required for PMA-induced MKP-1 expression. These findings suggest that ERK2-mediated induction of MKP-1 may play an important role in preferentially attenuating signaling through the p38 MAPK and SAPK signal transduction pathways.
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PMID:Conditional expression of the mitogen-activated protein kinase (MAPK) phosphatase MKP-1 preferentially inhibits p38 MAPK and stress-activated protein kinase in U937 cells. 920 1

Deregulated overexpression of c-Myc (Myc) confers susceptibility to apoptosis in several cell types, but the molecular regulation of these processes has not been well established. Here we have characterized several molecular changes that may modulate Myc-dependent apoptosis. Ectopic overexpression of Myc in both Rat1 fibroblasts and human osteosarcoma cells causes a dramatic increase of cellular p53 mRNA and protein, and this induction of p53 correlates with apoptosis triggered by withdrawal of serum. Stable transfection of a wild-type human p53 gene into Myc-transformed cells further potentiates apoptosis. Anticancer agents vinblastine and nocodazole also induce apoptosis in Myc-transformed Rat1 fibroblasts but are cytostatic to the same cells without Myc overexpression. We demonstrate that induction of Myc-dependent apoptosis in these cells is specifically associated with an activation of p46 c-Jun N-terminal kinase/stress-activated protein kinase (JNK/SAPK) activity, whereas this JNK/SAPK activation is absent in stress-treated cells without Myc overexpression. Moreover, overexpression of the Mdm-2 gene in Rat1-myc cells significantly inhibits apoptosis induced by low serum but has little effect on apoptosis triggered by chemotherapeutic drugs. Interestingly, differential inhibition by Mdm-2 paralleled differential activation of p46 JNK/SAPK. Thus, our data support a functional involvement of p53 in Myc-dependent apoptosis and implicate potential regulatory roles for JNK/SAPK and Mdm-2 pathways in the regulation of apoptosis in Myc-transformed tumor cells.
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PMID:Regulation of Myc-dependent apoptosis by p53, c-Jun N-terminal kinases/stress-activated protein kinases, and Mdm-2. 921 67

The proliferative capacity of T cells infiltrating human tumors is known to be impaired, possibly through their interaction with tumor. Here we demonstrate that soluble products derived from renal cell carcinoma (RCC-S) explants but not normal kidney can inhibit an IL-2-dependent signaling pathway that is critical to T cell proliferation. A major target of the immunosuppression was the IL-2R-associated protein tyrosine kinase, Janus kinase 3 (Jak3). RCC-S suppressed basal expression of Jak3 and its increase following stimulation with anti-CD3/IL-2. Jak3 was most sensitive to suppression by RCC-S; however, reduction in expression of p56(lck), p59(fyn), and ZAP-70 was observed in some experiments. Expression of other signaling elements linked to the IL-2R (Jak1) and the TCR (TCR-zeta, CD3-epsilon, and phospholipase C-gamma) were minimally affected. In naive T cells, RCC-S also partially blocked induction of IL-2R alpha-, beta- and gamma-chain expression when stimulating via the TCR/CD3 complex with anti-CD3 Ab. To determine whether RCC-S suppressed IL-2-dependent signaling, primed T cells were employed since RCC-S had no effect on IL-2R expression but did down-regulate Jak3 expression and, to a lesser degree, p56(lck) and p59(fyn). Reduction in Jak3 correlated with impaired IL-2-dependent proliferation and signal transduction. This included loss of Jak1 kinase tyrosine phosphorylation and no induction of the proto-oncogene, c-Myc. These findings suggest that soluble products from tumors may suppress T cell proliferation through a mechanism that involves down-regulation of Jak3 expression and inhibition of IL-2-dependent signaling pathways.
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PMID:Tumor-induced suppression of T lymphocyte proliferation coincides with inhibition of Jak3 expression and IL-2 receptor signaling: role of soluble products from human renal cell carcinomas. 930 Jul 31

The dihydrofolate reductase (DHFR) gene is a target of c-Myc in genomic instability. The induced overexpression of c-Myc in cell lines is followed by the amplification and rearrangement of the DHFR gene. Furthermore, the constitutive upregulation of c-Myc protein coincides with genomic instability of the DHFR gene in lymphoid, non-lymphoid and in tumor lines. The amplification of the DHFR gene is locus-specific and independent of species origins. We have now addressed the question whether inducible deregulation of c-Myc is followed by DHFR gene amplification in vivo. We show that the DHFR gene is a target of c-Myc-dependent neoplasia in vivo and propose a role for genomic instability during the initiation of neoplastic transformation.
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PMID:c-Myc dependent initiation of genomic instability during neoplastic transformation. 930 43

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