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

Recipients of allogeneic stem cell transplants (SCT) often show active Epstein-Barr virus (EBV) infection, which may progress to EBV-associated lymphoproliferative disorders. It is not known whether these EBV infections are true reactivations of the endogenous EBV strain or re-infections with an exogenous EBV strain. Fifty-three recipients of matched related or matched unrelated donor grafts were studied. EBV monitoring was based on a realtime TaqMan EBV DNA polymerase chain reaction (PCR) assay in plasma. In 17 patients, EBV DNA PCR monitoring was performed in peripheral blood mononuclear cells (PBMCs) as well. Mouth washings (MWs) were collected pre-transplant from all patients and family donors. Both pre-transplant EBV DNA from MWs and post-transplant EBV DNA from plasma or PBMCs were successfully obtained in 6 patients. A nested PCR targeting the EBV latent membrane protein-1 C-terminus gene was used to determine sequence variations enabling EBV strain typing. In 3 of 6 patients, the post-transplant EBV sequence pattern differed from the pre-transplant pattern, indicating a re-infection post-transplant with an exogenous strain instead of a reactivation of the original endogenous EBV strain. In the other 3 patients, the endogenous strain was identified. Active EBV infection resulting from re-infection was more severe compared with active EBV infection because of reactivation. In conclusion, active EBV infections after allogeneic SCT frequently result from re-infection with an exogenous EBV strain instead of a true reactivation of the endogenous strain and are potentially more severe.
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PMID:Active Epstein-Barr virus infection after allogeneic stem cell transplantation: re-infection or reactivation? 1598 42

Kaposi's sarcoma-associated herpesvirus (KSHV) is the causative agent of Kaposi's sarcoma and certain lymphoproliferative disorders. The role of KSHV lytic replication has been implicated in the tumor pathogenesis. A highly specific molecular complex formed by the KSHV DNA polymerase (POL8) and processivity factor (PF8) is indispensable for lytic viral DNA synthesis and may serve as an excellent molecular anti-KSHV target. The majority of conventional nucleoside-based anti-herpetic DNA synthesis inhibitors require intracellular phosphorylation/activation before they can exert inhibitory activity as competitive substrates for viral DNA polymerases. Novel and more potent inhibitors of KSHV DNA synthesis may be discovered through POL8/PF8-targeted high throughput screening (HTS) of small molecule chemical libraries. We developed a microplate-based KSHV POL8/PF8-mediated DNA synthesis inhibition assay suitable for HTS and screened the NCI Diversity Set that comprised 1992 synthetic compounds. Twenty-eight compounds exhibited greater than 50% inhibition. The inhibitory activity was confirmed for 25 of the 26 hit compounds available for further testing, with the 50% inhibitory concentrations ranging from 0.12+/-0.07 microM (mean+/-S.D.) to 10.83+/-4.19 microM. Eighteen of the confirmed active compounds efficiently blocked KSHV processive DNA synthesis in vitro. One of the hit compounds, NSC 373989, a pyrimidoquinoline analog, was shown to dose-dependently reduce the levels of KSHV virion production and KSHV DNA in lytically induced KSHV-infected BCBL-1 cells, suggesting that the compound blocked lytic KSHV DNA synthesis. HTS for KSHV POL8/PF8 inhibitors is feasible and may lead to discovery of novel non-nucleoside KSHV DNA synthesis inhibitors.
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PMID:Chemical library screen for novel inhibitors of Kaposi's sarcoma-associated herpesvirus processive DNA synthesis. 1633 84