Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.7.7 (DNA polymerase)
 17,007 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The most direct approach to elucidating the roles of herpes simplex virus (HSV) proteins in the viral replicative cycle has been to isolate temperature-sensitive, cytolysis-resistant, and drug-resistant mutants that exhibit alterations in the synthesis or activity of these proteins. The development of procedures for the introduction of temperature-sensitive mutations into physically defined regions of the viral genome and for fine mapping of these mutations has proven especially valuable. Thus, (1) hydroxylamine mutagenesis of the HSV-1 BglII I fragment (coordinates 0.312-0.415) has facilitated the genetic and functional characterization of the gene for the major viral DNA-binding protein of 130 K molecular weight; (2) the selection of a mutant conditionally able to render infected cells resistant to immune cytolysis has led to identification of an HSV gene involved in the processing of viral glycoproteins; and (3) the combined use of temperature-sensitive and drug-resistant mutants has led to a better definition of the physical limits and functional domains of the gene for HSV DNA polymerase.
J Invest Dermatol 1984 Jul
PMID:Genetics of herpes simplex virus. 633 Feb 20

The dopamine analog 3,4-dihydroxybenzylamine (3,4-DHBA), a novel antitumor agent, was shown to inhibit directly DNA polymerase in cells of the deeply pigmented murine melanoma, S-91A, permeabilized to nucleotides by lysolecithin. In contrast, levodopa and dopamine did not inhibit DNA polymerase in permeabilized cells in the absence of exogenous tyrosinase. Analysis using isolated DNA polymerase showed that the inhibitory activity of the ortho dihydroxy compounds was totally dependent upon enzymatic activation. The enzymatic activation of the ortho derivative 3,4-DHBA by tyrosinase results in two reactive species: a semiquinone intermediate and a less reactive quinone. Inhibition of DNA polymerase by activated 3,4-DHBA was shown by dialysis and kinetic studies to involve an irreversible reaction which occurs at two inhibitor interaction sites as determined by a Hill plot analysis. Double-stranded DNA protected the enzyme from inhibition by 3,4-DHBA, suggesting that the inhibitory sites are at or near the template-initiator binding site.
J Invest Dermatol 1983 Feb
PMID:3,4-Dihydroxybenzylamine: an improved dopamine analog cytotoxic for melanoma cells in part through oxidation products inhibitory to dna polymerase. 640 86

L-glutamic acid, gamma-(p-hydroxyanilide), is a naturally occurring metabolic inhibitor found in mushrooms and shown to be active against B-16 melanoma in vivo. We have prepared and evaluated 2 analogs, the 3,4- and 2,5-dihydroxy derivatives, since these might represent more immediate precursors to the putative biologically active quinone. Both dihydroxy derivatives were more toxic than the parent phenol. The 2,5-dihydroxy derivative was significantly more cytotoxic with a 5-fold decrease in IC50 for both human and B-16 melanoma cells in vitro. In the presence of mushroom tyrosinase, both derivatives were potent inhibitors of isolated DNA polymerase with essentially complete inhibition occurring at concentrations of 10(-5) M. The 3,4-dihydroxy derivative exerted inhibitory effects primarily upon thymidine incorporation into melanoma cells in vitro while the 2,5-dihydroxy derivative also inhibited uridine and leucine incorporation. There was no significant antitumor activity observed in the B-16 system, a fact which might be attributed to the increased toxicity of the compounds.
J Invest Dermatol 1980 Feb
PMID:Antitumor effects of L-glutamic acid dihydroxyanilides against experimental melanoma. 676 71

Human epidermis uncontaminated by fibroblasts was isolated by a suction blister method. DNA synthesis in short-time organ cultures of isolated epidermis was strongly inhibited by aphidicolin, suggesting that DNA polymerase alpha is involved in DNA replication in human epidermis. On the basis of their responses to inhibitors, primer-template requirements, and chromatographic properties, DNA polymerases alpha, beta, and gamma were all identified in epidermal extracts.
Arch Dermatol Res 1982
PMID:DNA replication in short-time organ cultures of human epidermis. Inhibition by aphidicolin, and detection of DNA polymerases alpha, beta, and gamma. 682 Sep 27

The clinical and pathologic findings of Kikuchi's histiocytic necrotizing lymphadenitis may mimic those of malignant lymphoma. We describe a 6-year-old boy with generalized lymphadenopathy, spiking fever, chills, myalgias, malaise, and erythematous, crusted papules. Although cutaneous manifestations have been noted in 16% to 40% of patients with histiocytic necrotizing lymphadenitis, only three publications described skin lesions. The skin lesions and affected lymph nodes revealed histiocytic aggregates, atypical lymphoid cells, karyorrhectic debris, and patchy necrosis. Spontaneous resolution occurred in 2 months. Results of serologic studies, Epstein-Barr virus (EBV) latent membrane protein immunoperoxidase staining, EBER-1 RNA in-situ hybridization, and EBV EBNA-1 DNA polymerase chain reaction implicate EBV as the causative agent.
J Am Acad Dermatol 1997 Feb
PMID:EBV-associated Kikuchi's histiocytic necrotizing lymphadenitis with cutaneous manifestations. 903 15

Psoriasis is a chronic inflammatory disorder characterized by epidermal hyperproliferation. Although recent evidence suggests that T cell activation is a primary trigger for psoriasis lesions, there may be alterations in the keratinocyte growth regulatory pathways which induce epidermal hyperproliferation in psoriatic patients. To test this hypothesis, we investigated the proliferative activity of epidermal keratinocytes 48 h after tape stripping, one of the standard mechanical ways to stimulate the epidermis, in 20 psoriasis patients and in 18 controls. Epidermal cell kinetics were assessed with DNA flow cytometry, the mitotic index, bromodeoxyuridine incorporation, Ki-67 antigen expression and DNA polymerase alpha expression. The expression of TGF-alpha and EGF receptors, critical mediators of keratinocyte proliferation, were also investigated immunohistochemically. The results of multiparameter assays showed that the baseline proliferative activity in uninvolved skin was the same in psoriasis patients and normal controls. After tape stripping, although both psoriasis patients and the normal controls showed significant increases in epidermal cell proliferation, the values of all the parameters investigated were significantly greater in the psoriasis patients than in the normal controls. EGF receptors were overexpressed in basal and suprabasal keratinocytes after tape stripping in both the psoriasis patients and the normal controls. In contrast, overexpression of TGF-alpha was only observed in the patients with psoriasis, which may explain their increased proliferative response to trauma.
J Dermatol Sci 1997 Feb
PMID:Tape stripping induces marked epidermal proliferation and altered TGF-alpha expression in non-lesional psoriatic skin. 903 79

Skin from acute and healed herpes simplex virus or herpes simplex virus-associated erythema multiforme (HAEM) lesions was examined by polymerase chain reaction with primers for DNA polymerase, ICP8, thymidine kinase (5' end of herpes simplex virus genome), and ICP27 (3' end of herpes simplex virus genome). The primers were herpes simplex virus specific and equally sensitive. The four herpes simplex virus genes were seen in acute herpes simplex virus lesions, but except for one patient, only polymerase (or polymerase and ICP8) were seen in 7-d healed lesional skin. Herpes simplex virus DNA was not seen 1-1.5 mo after healing. HAEM skins from 18 of 24 patients (75%) were positive for polymerase DNA and four of 24 (17%) were also positive for ICP8 or thymidine kinase DNA. Only one tissue (4%) was positive for polymerase, ICP8, and ICP27 DNA. Skin from healed HAEM lesions was still polymerase DNA positive 1-3 mo after lesion resolution. The polymerase DNA signal was in the basal and spinous cell layers of the epidermis and in the outer root sheath of the hair follicle. Polymerase RNA was identified by reverse transcriptase polymerase chain reaction in skin from acute, but not healed polymerase DNA positive HAEM lesions, suggesting that polymerase expression is associated with HAEM lesion development.
J Invest Dermatol 1997 Oct
PMID:Expression of herpes simplex virus DNA fragments located in epidermal keratinocytes and germinative cells is associated with the development of erythema multiforme lesions. 932 89

A common form of erythema multiforme, herpes-associated erythema multiforme (HAEM), occurs following infection with herpes simplex virus (HSV). Here we report that HSV gene expression and the qualitative nature of the virus-specific T-cell responses are related to HAEM lesion development. Skin from HAEM lesions and 1-3 months healed HAEM lesional skin were positive for the viral DNA polymerase gene (Pol) by polymerase chain reaction. However, gene expression as determined by immunohistochemistry with Pol-specific antibody was seen only in HAEM lesions, suggesting that lesion development is associated with Pol gene expression. Similar HSV-specific T-cell lymphoproliferative responses were seen in peripheral blood mononuclear cells (PBMCs) from patients with acute or healed HAEM lesions or HSV lesions and from HSV-seropositive patients with unrelated inflammatory diseases. However, the T-cell receptor variable (V beta) chain repertoire of HSV-stimulated PBMCs obtained from HAEM lesions was altered; the prevalence of some families of variable chain (namely V beta 16 and V beta 19) was reduced, whereas the prevalence of others was increased (namely V beta 2 and V beta 7). V beta 2 cells were found in HAEM lesional skin positive for Pol antigen, suggesting that these cells home to viral antigen-positive skin.
Br J Dermatol 1998 Jun
PMID:Erythema multiforme lesions are associated with expression of a herpes simplex virus (HSV) gene and qualitative alterations in the HSV-specific T-cell response. 974 55

Immunohistochemical staining of proliferating cell nuclear antigen (PCNA) was performed in skin from patients with various malignant and nonmalignant skin diseases using anti-PCNA monoclonal antibodies. The malignant diseases included squamous cell carcinoma (SCC), adult T lymphotrophic leukemia (ATL), mycosis fungoides, malignant melanoma and malignant lymphoma, and the nonmalignant diseases included severe treatment-resistant atopic dermatitis (AD), psoriasis vulgaris, verruca vulgaris, and others. The percentage of PCNA-positive cells (the labeling index, LI) was highest for the malignant diseases (56.5+/-7.1%). The LIs for severe treatment-resistant AD, psoriasis, and verruca vulgaris were also significantly higher than those for the normal control or nonlesional skin of the patients. The PCNA LIs were, however, not significantly elevated in eczema and contact dermatitis. The high PCNA LIs in severe AD and psoriasis vulgaris were considerably lower in the skin improved by treatment. Labeling with Ki67, a nuclear protein expressed in cycling cells, was also performed in skin from subsets of each patient group. The results were very similar to those found with PCNA labeling. PCNA-positive cells were found throughout the dermis as well as the basal layer in the malignant diseases, whereas they were found only in the basal layer in the nonmalignant diseases. The results suggest that in human skin diseases, the extent of staining for PCNA, which is a cofactor of DNA polymerase-delta and is essential for cell proliferation, correlates with the extent to which the disease is treatment-resistant. In addition, our findings suggest that the PCNA LI and distribution of PCNA-positive cells in the skin may be helpful in the early diagnosis of skin malignancies.
Arch Dermatol Res
PMID:Immunohistochemical staining of proliferating cell nuclear antigen (PCNA) in malignant and nonmalignant skin diseases. 1048 11

Cells that have been irradiated with ultraviolet light (UV) suffer damage to their DNA, primarily in the form of covalent linkage between adjacent pyrimidines. Such photoproducts represent blocks to RNA and DNA polymerases and are potentially mutagenic. Blockage of RNA polymerase II by a photoproduct in the transcribed strand of an active gene leads to induction of the p53 protein, which induces pleiotropic responses that may include apoptotic cell death. If a cell survives, the blocked polymerase targets the nucleotide excision repair machinery to the site of the lesion, which is repaired in an error-free manner. Repair coupled to transcription in this manner strongly influences the mutation spectrum induced by UV, reducing the proportion of base substitutions that arise from photoproducts on the transcribed strand. If the damage persists when the DNA is replicated in S-phase, either because the cell is unable to repair the damage or because there is insufficient time between the induction of damage and the onset of S-phase. To do so, the replicative DNA polymerase complex may be blocked. In this situation, lesion bypass can be accomplished using an error-free mechanism, or using an error-prone mechanism that involves the newly described, non-processive DNA polymerase zeta encoded by the human homolog of the yeast REV3 gene.
J Investig Dermatol Symp Proc 1999 Sep
PMID:DNA repair, DNA replication, and UV mutagenesis. 1053 99


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