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Printable Handouts
Navigable Slide Index
- Introduction
- Eight herpesvirus infections in man
- Common diseases caused by alphaherpesvirus
- Common diseases caused by HSV
- Common diseases caused by VZV
- Herpes infections in immunocompromised hosts
- Herpesvirus - latency and reactivation
- Herpesvirus - infection, latency and reactivation
- Electron micrograph of HSV particle
- Morphology of herpesvirus virion
- Productive replication cycle of herpesvirus
- The herpesvirus genome
- HSV and VZV antiviral therapy
- Efficacy of antiviral agents for HSV
- Nucleoside analogue therapy
- Nucleoside analogues in historical prospective
- Current herpes antivirals
- Genes coding for proteins targeted by antivirals
- Antiviral compounds inhibitors of DNA synthesis
- Nucleoside analogues are not fully effective in vivo
- Antiviral treatment fails to prevent recurrence
- A new target - HSV helicase-primase complex
- Genes coding for proteins targeted by antivirals (2)
- HSV DNA replication inhibitors site of action
- Helicase primase inhibitors (HPI)
- Three highly active helicase-primase inhibitors
- Clinical potential of HPIs
- Antiviral activity: HPI compared with nucleoside
- Studying HPI in vivo
- Progress of lesions following neck inoculation
- Neck skin and ear pinna sensory nerves
- The cranial nerve roots and ganglia
- Zosteriform infection model parameters
- Parameters for assessing antiviral efficacy
- BAY 57-1293 vs. famciclovir
- BAY 57-1293 vs. famciclovir - weight change
- BAY 57-1293 vs. famciclovir - survival
- BAY 57-1293 vs. famciclovir - ear swelling
- BAY 57-1293 vs. famciclovir - virus growth in skin
- BAY 57-1293 vs. famciclovir - virus growth in ear
- BAY 57-1293 vs. famciclovir - virus growth in CNS
- BAY 57-1293 vs. famciclovir - conclusions
- The effective dose of BAY 57-1293
- Dose response to BAY 57-1293
- BAY 57-1293 effective dose - conclusions
- Effects of BAY 57-1293 on HSV-1
- Effects of BAY 57-1293 on HSV-1: weight change
- Effects of BAY 57-1293 on HSV-1: virus titres
- HPIs are effective in vivo
- The effects of HPI on HSV latency
- The development of HPI antiviral drug resistance
- Sensitivity of HSV clinical isolates to BAY 57-1293
- Sensitivity of clinical isolates to HPI - conclusions
- Selection of HPI resistant mutants
- HSV-1 strains for study
- Isolation of HPI resistant mutants
- HPI resistant mutants
- HPI resistant mutants - cross resistancy
- HPI resistant mutants - sensitivity to nucleoside
- HPI resistance mutants - DNA sequencing
- Conserved helicase motifs
- BAY 57-1293 resistant mutations in UL5 (1)
- BAY-57-1293 resistant mutations in UL5 (2)
- BAY-57-1293 resistant mutations in UL5 (3)
- Predicted binding of BAY 57-1293 to helicase
- BAY 57-1293 resistance originated in UL52
- HSV UL52 (primase) protein
- Mutant growth and pathogenicity
- BAY r1/BAY r2 growth in tissue culture
- UL5 protein: schematic representation
- BAY 57 resistance mutations characteristics
- Drug resistance in clinical practice
- Will antiviral drug-resistance be a problem for HPI?
- HPI resistance selection claimed so far
- HPI resistance selection - dynamics
- HPI resistance selection - clinical isolates
- General conclusions of HPI resistance
- The good news
- Acknowledgements
Topics Covered
- Herpesvirus infections in man
- Diseases caused by alphaherpesvirus, HSV and VZV
- Immunocompromised hosts
- Infection, latency and reactivation
- Morphology of herpesvirus virion
- Productive replication cycle
- The herpesvirus genome
- HSV and VZV antiviral therapy
- Nucleoside analogue therapy
- Historical prospective
- Genes coding for proteins targeted by antivirals
- Inhibitors of DNA synthesis
- A new target
- HSV helicase-primase complex
- Clinical potential of Helicase primase inhibitors (HPIs)
- Studying HPI in vivo
- Antiviral efficacy
- Dose response
- The effects of HPI on HSV latency
- The development of HPI antiviral drug resistance
- HPI resistant mutants growth and pathogenicity
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Talk Citation
Field, H.J. (2011, August 30). Herpes simplex virus and varicella-zoster virus helicase-primase inhibitors [Video file]. In The Biomedical & Life Sciences Collection, Henry Stewart Talks. Retrieved December 27, 2024, from https://doi.org/10.69645/EJUO5115.Export Citation (RIS)
Publication History
Financial Disclosures
- Dr. Hugh J. Field has not informed HSTalks of any commercial/financial relationship that it is appropriate to disclose.
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