Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0001486 (Adenovirus)
3,125 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In cultured cells, mutants of the Adenovirus E1a oncoprotein which bind to a reduced set of cellular proteins, including p105-Rb, p107, and p60-cyclin A, are transformation defective but can still interfere with exogenous growth inhibitory and differentiating signals, such as those triggered by TGF-beta. We have tested the ability of one such mutant, NTdl646, to interfere with keratinocyte growth and differentiation in vivo, in the skin of transgenic mice. Keratinocyte-specific expression of the transgene was achieved by using a keratin 5 promoter. Two independent lines of transgenic mice were obtained which expressed E1a specifically in their skin and exhibited an aberrant hair coat phenotype with striking regional variations. Affected hair shafts were short and crooked and hair follicles exhibited a dystrophic or absent inner root sheath. Interfollicular epidermis was normal, but its hyperplastic response to acute treatment with TPA (12-O-tetradecanoylphorbol-13-acetate) was significantly reduced. Primary keratinocytes derived from these animals were partially resistant to the effects of TPA and TGF-beta. The rate of spontaneous or chemically induced skin tumors in the transgenic mice was not increased. Thus, expression of a transgene which interferes with known negative growth regulatory proteins causes profound disturbances of keratinocyte maturation into a highly organized structure such as the hair follicle but does not lead to increased and/or neoplastic proliferation.
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PMID:Skin-specific expression of a truncated E1a oncoprotein binding to p105-Rb leads to abnormal hair follicle maturation without increased epidermal proliferation. 768 38

Adenovirus early region 1A (E1A) products induce DNA synthesis, transform primary rodent cells, and activate transcription factor E2F through complex formation with an array of cellular proteins via the E1A amino terminus and conserved regions 1 and 2 (CR1 and CR2). Interactions with the retinoblastoma tumor suppressor, pRb, and related proteins p107 and p130 rely somewhat on CR1 but largely on CR2, which contains a core binding sequence Leu-122-X-Cys-X-Glu. We introduced point mutations in CR2 to define such interactions more precisely. In human cells, alteration of any of the conserved residues within the binding core eliminated complex formation with pRb. Conversion of nonconserved Thr-123 to Pro (but not to either Ala or Ser) disrupted binding of pRb, presumably because of conformational changes in the binding core. No single E1A point mutant was completely defective in binding p107, suggesting that molecular interactions between E1A proteins and p107 clearly differ from those with pRb and p130. In general, the patterns of complex formation by E1A mutants in rat, monkey, and human cells were quite similar. All mutants which failed to bind significant amounts of pRb also failed to transform primary rat cells. Several mutants demonstrated selective binding to pRb, p107, and p130, but transforming activity corresponded largely with complex formation with pRb, regardless of the levels of interactions with p107 and p130. Mutants defective for binding of both pRb and p107 failed to induce the activity of transcription factor E2F; however, quite high levels were activated by E1A mutants that interacted with p107 alone. These results suggested that both pRb and p107 are important regulators of E2F activity but that complex formation with and activation of E2F by p107 are insufficient for cell transformation.
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PMID:Functional importance of complex formation between the retinoblastoma tumor suppressor family and adenovirus E1A proteins as determined by mutational analysis of E1A conserved region 2. 808 2

The major transforming protein of HPV-16 is encoded by the E7 gene. This has been shown to cooperate with EJ-ras in the immortalisation of primary rodent cells and with the viral E6 gene in the immortalisation of primary human keratinocytes. HPV-16 E7 protein has been shown to bind to a number of cellular proteins involved in the control of cell growth; including pRB, p107 and cyclin A. Loss of pRb or p107 binding results in the loss of transforming activity. In this paper we demonstrate that HPV-16 E7 can also complex with the core component of TFIID, the TATA Box Binding Protein (TBP). This interaction is partly dependent upon phosphorylation of the E7 protein by cellular casein kinase II (CKII), since phosphorylation of E7 by CKII increases the affinity with which E7 binds TBP. Similar results are also obtained with the Adenovirus Ela protein, indicating a conservation of function between these two viral oncoproteins. Mutation of the CKII site to two acidic amino acids significantly increases the affinity of E7 for TBP, indicating that the incorporation of two negative charges at this region of E7 is important in regulating the interaction with TBP.
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PMID:HPV-16 E7 and adenovirus E1a complex formation with TATA box binding protein is enhanced by casein kinase II phosphorylation. 864 72

The major transforming protein of human papillomaviruses (HPVs) is encoded by the E7 gene. This protein cooperates with activated oncogenes to transform primary rodent cells and with the viral E6 gene to immortalize primary human keratinocytes. Numerous cellular targets of HPV E7 have now been identified including pRb, p107, cyclin A, TATA box binding protein (TBP), and members of the AP-1 transcription factor family. As with Adenovirus E1a, many of these interactions are important for the ability of E7 to transform cells. Recent studies have demonstrated that Adenovirus E1a can also inhibit the transcriptional activity of the cellular tumor suppressor protein, p53. We have performed a series of analyses to determine whether HPV E7 proteins share this characteristic. We show that HPV E7 proteins derived from both benign and tumor-associated HPV types are able to inhibit p53 transcriptional activity. Mutational analysis of the HPV-16 E7 protein reveals that a key domain involved in mediating this activity is the casein kinase II (CKII) recognition site, which has been shown to modulate E7 binding to TBP. We further show that E7 does not bind to p53 directly, but will do so in the presence of exogenously added TBP and that this binding is increased following CKII phosphorylation. These results suggest that the E7-TBP interaction may be responsible for inhibiting p53 transcriptional activity.
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PMID:Repression of p53 transcriptional activity by the HPV E7 proteins. 900 83

The Adenovirus 5 E1A 12S gene is responsible for the establishment of immortalization of primary cells by Adenovirus. We have identified two mutants of 12S (30K and NTdl814), which, when coexpressed with wild-type 12S in primary baby rat kidney cells, were capable of suppressing the immortalizing function of the wild-type 12S gene, even when the mutant proteins were expressed at levels lower than wild type. 30K and NTdl814 did not affect the ability of the coexpressed 12S to activate the cell cycle, but have a suppressive effect on 12S-induced DNA synthesis and proliferation at late times in the immortalization pathway. Both the dominant negative mutants have a deletion in conserved region (CR)1 in the first exon of E1A, which encompasses one of the pRb-family binding regions. However, the mutants did not effect the binding of cellular proteins to full-length 12S. A suppressive effect on wild-type 12S was not observed with mutants that have lost any other region or function. In addition, expression of 30K, which is equivalent to the protein encoded by the 10S mRNA of E1A, inhibited E1A function in lytic cycle. Thus, loss of the CR1 seems to be a prerequisite for a mutant to have a dominant negative effect on E1A functions.
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PMID:Mutations in CR1 of E1A 12S yield dominant negative suppressors of immortalization and the lytic cycle. 920 Dec 16

Adenovirus E1A oncoproteins inhibit muscle-specific gene expression and myogenic differentiation by suppressing the transcriptional activating functions of basic helix-loop-helix proteins. As one approach to identifying cardiac-specific gene regulatory proteins, we analyzed the functional regions of E1A proteins that are required for muscle gene repression in cardiac cells. Myocyte-specific promoters, including the alpha-actins and alpha-myosin heavy chain, were selectively and potently inhibited (>90%) by E1A, while the ubiquitously expressed beta-actin promoter was only partially ( approximately 30%) repressed; endogenous gene expression was also affected. Distinct E1A protein binding sites mediated repression of muscle-specific and ubiquitous actin promoters. E1A-mediated inhibition of beta-actin required both an intact binding site for the tumor repressor proteins pRb and p107 and a second E1A domain (residues 15-35). In contrast, cardiac-specific promoter repression required the E1A amino-terminal residues 2-36. The proximal skeletal actin promoter (3' to base pair -153) was a target for repression by E1A. Although E1A binding to p300 was not required for inhibition of either promoter, co-expression of p300 partially reversed E1A-mediated transcriptional repression. We conclude that cardiac-specific and general promoter inhibition by E1A occurs by distinct mechanisms and that cardiac-specific gene expression is modulated by cellular factors interacting with the E1A p300/CBP-binding domain.
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PMID:Adenovirus E1A inhibits cardiac myocyte-specific gene expression through its amino terminus. 925 73

The apolipoprotein AI (apoAI) promoter/enhancer contains multiple cis -acting elements on which a variety of hepatocyte-enriched and ubiquitous transcription factors function synergistically to regulate liver-specific transcription. Adenovirus E1A proteins repress tissue-specific gene expression and disrupt the differentiated state in a variety of cell types. In this study expression of E1A 12Sor 13S in hepatoblastoma HepG2 cells repressed apoAI enhancer activity 8-fold. Deletion mapping analysis showed that inhibition by E1A was mediated by the apoAI promoter site B. E1A selectively inhibited the ability of HNF3beta and HNF3alpha to transactivate reporter genes controlled by the apoAI site B and the HNF3 binding site from the transthyretin promoter. The E1A-mediated repression of HNF3 activity was not reversed by overexpression of HNF3beta nor did E1A alter nuclear HNF3beta protein levels or inhibit HNF3 binding to DNA in mobility shift assays. Overexpression of two cofactors known to interact with E1A, pRb and CBP failed to overcome inhibition of HNF3 activity. Similarly, mutations in E1A that disrupt its interaction with pRb or CBP did not compromise its ability to repress HNF3beta transcriptional activity. These data suggest that E1A inhibits HNF3 activity by inactivating a limiting cofactor(s) distinct from pRb or CBP.
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PMID:E1A represses apolipoprotein AI enhancer activity in liver cells through a pRb- and CBP-independent pathway. 951 50

The conserved region 3 (CR3) of the E7 protein of human papillomaviruses contains two CXXC motifs involved in zinc binding and in the homodimerization of the molecule. Studies have suggested that the intact CXXC motifs in the CR3 of HPV16 and HPV18 E7 are required for the in vitro transforming activity of these proteins. CR3 also contains a low affinity pRb binding site and is involved in the disruption of the E2F/Rb1 complex. E7 is structurally and functionally related to Adenovirus E1A protein, which also has two CXXC motifs in CR3. However, the Ad E1A transforming activity appears to be independent of the presence of such domains. In fact, this viral protein exists in vivo as two different forms of 289 and 243 amino acids. The shorter Ad E1A form (Ad E1A243), where both CXXC motifs are deleted by internal splicing, retains its in vitro transforming activity. We have investigated if the HPV16 E7 CR3 can be functionally replaced by the Ad E1A243 CR3, which lacks both CXXC motifs. A chimeric protein (E7/E1A243) containing the CR1 and CR2 of HPV16 E7 fused to the CR3 of Ad E1A 243 was constructed. The E7/E1A243 while not able to homodimerize in the S. cerevisiae two-hybrid system retains several of the properties of the parental proteins, HPV16 E7 and Ad E1A. It associates with the 'pocket' proteins, induces growth in soft agar of NIH3T3 cells and immortalizes rat embryo fibroblasts. These data suggest that the CXXC motifs in CR3 of E7 do not play a direct role in the transforming properties of this viral protein but probably are important for maintaining the correct protein configuration.
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PMID:The CXXC Zn binding motifs of the human papillomavirus type 16 E7 oncoprotein are not required for its in vitro transforming activity in rodent cells. 951 82

Adenovirus 12 early region 1A (Ad12 E1A) was expressed in Escherichia coli. Protein was purified in good yield in the presence of 8 M urea and then renatured by dialysis against dilute NH4HCO3 buffer. The affinity of this protein for pRb, C-terminal binding protein (CtBP), TATA binding protein (TBP), and SUG1 was similar to, or greater than, that of Ad12 E1A prepared by immunoaffinity chromatography under nondenaturing conditions. While the binding of the 266- and 235-amino-acid (aa) E1A components to TBP showed similar characteristics the larger E1A protein had a higher affinity for CtBP, pRb, and SUG1. Using nuclear magnetic resonance (NMR) spectroscopy it was shown that structural perturbations occurred in the 266-aa protein in the presence of Zn2+ consistent with binding--no such changes were seen for the 235-aa protein. Limited proteolysis of the 266- and 235-aa E1A proteins gave rise to comparable polypeptide products, suggesting overall similarities in structure. However, the different affinities of the 266- and 235-aa proteins for the partner proteins and the differences seen in the NMR spectra from the two proteins suggested structural differences.
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PMID:Regeneration of the binding properties of adenovirus 12 early region 1A proteins after preparation under denaturing conditions. 958 94

Adenovirus E1A confers enhanced cell sensitivity to radiation and drug-induced DNA damage by a mechanism involving the binding to cellular proteins. Mutant analysis in E1A-transfected murine keratinocytes demonstrates that increased sensitivity to DNA damage requires at least E1A binding to the p300/CREB-binding protein (CBP) transcriptional coactivators and to pRb family members, indicating that this biological activity of E1A is the result of the concomitant perturbation of different cell pathways. Here we show that in the same cells E1A binding to members of the retinoblastoma protein family induces transcriptional down-regulation of the poly(ADP-ribose) polymerase (PARP) gene, coding for a NAD-dependent enzyme stimulated by DNA breaks. Inhibition of PARP expression is accompanied by a decrement of gamma-irradiation-induced apoptosis, which is overridden by reconstitution of wild type levels of PARP. Hence, E1A effects on PARP transcription are central determinant of the apoptotic sensitivity of E1A-expressing keratinocytes. Conversely, E1A binding to only p300/CBP results in an increase in PARP enzyme activity and consequently in cell death susceptibility to irradiation, which is effectively counteracted by the PARP chemical inhibitor 3-aminobenzamide. Therefore, our results identify in the E1A-mediated effects on PARP expression and activity a key molecular event involved in E1A-induced cell sensitization to genotoxic stress.
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PMID:Transcriptional down-regulation of poly(ADP-ribose) polymerase gene expression by E1A binding to pRb proteins protects murine keratinocytes from radiation-induced apoptosis. 1057 92


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