TY - JOUR
T1 - Cottontail rabbit papillomavirus (CRPV) model system to test antiviral and immunotherapeutic strategies
AU - Christensen, Neil D.
PY - 2005
Y1 - 2005
N2 - The cottontail rabbit papillomavirus (CRPV)/rabbit model has proven to be the most versatile preclinical model to test antiviral, immunopotentiating and immunotherapeutic strategies for papilloma-virus infections. We have utilized this model for many years and have recently observed significant improvements in the utility of the model. Improvements have included various techniques to infect rabbit skin sites with strains of wild-type and mutant CRPV DNA prepared using standard molecular biological procedures. A better understanding of the virus life cycle in vivo has been gained also from these studies such that we now have several defined strains of CRPV including i) antigenically diverse strains of CRPV, ii) mutant strains of CRPV with reduced growth rates, and iii) mutant strains of CRPV that demonstrate accelerated malignant progression rates. Collectively, these mutant genomes provide laboratories with a powerful pre-clinical model to assess a variety of antiviral therapies. Many of the treatments already tested in the CRPV/rabbit model have shown parallel efficacy against HPV infections in a clinical setting. Some of our recent experiences with the CRPV/rabbit model are outlined in this brief overview.
AB - The cottontail rabbit papillomavirus (CRPV)/rabbit model has proven to be the most versatile preclinical model to test antiviral, immunopotentiating and immunotherapeutic strategies for papilloma-virus infections. We have utilized this model for many years and have recently observed significant improvements in the utility of the model. Improvements have included various techniques to infect rabbit skin sites with strains of wild-type and mutant CRPV DNA prepared using standard molecular biological procedures. A better understanding of the virus life cycle in vivo has been gained also from these studies such that we now have several defined strains of CRPV including i) antigenically diverse strains of CRPV, ii) mutant strains of CRPV with reduced growth rates, and iii) mutant strains of CRPV that demonstrate accelerated malignant progression rates. Collectively, these mutant genomes provide laboratories with a powerful pre-clinical model to assess a variety of antiviral therapies. Many of the treatments already tested in the CRPV/rabbit model have shown parallel efficacy against HPV infections in a clinical setting. Some of our recent experiences with the CRPV/rabbit model are outlined in this brief overview.
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U2 - 10.1177/095632020501600602
DO - 10.1177/095632020501600602
M3 - Review article
C2 - 16331841
AN - SCOPUS:28544448601
SN - 0956-3202
VL - 16
SP - 355
EP - 362
JO - Antiviral Chemistry and Chemotherapy
JF - Antiviral Chemistry and Chemotherapy
IS - 6
ER -