The Journal of Korean Society of Virology (대한바이러스학회지)
- Volume 30 Issue 1
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- Pages.83-99
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- 2000
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- 1225-2344(pISSN)
Pseudo type HIV-1 Particles Carrying CD4
- Park, Seung-Won (Department of Microbiology, College of Medicine, The Catholic University of Korea) ;
- Kim, Tai-Gyu (Department of Microbiology, College of Medicine, The Catholic University of Korea) ;
- You, Ji-Chang (Department of Pathology, College of Medicine, The Catholic University of Korea) ;
- Schubert, Manfred (LMMN, NINDS, National Institutes of Health) ;
- Paik, Soon-Young (Department of Microbiology, College of Medicine, The Catholic University of Korea)
- Published : 2000.03.30
Abstract
A defective HIV-1 helper virus DNA, pHyPC, was assembled by deleting the RNA packaging signal, env, nef and the 3'LTR sequences. HIV-1 like virus particles that carry the HIV-1 receptor, CD4 were generated by co expression of pHyPC and plasmid DNAs encoding different chimeric CD4 proteins. The CD4 particles, sharing the CD4 ectodomain, precisely fused to different membrane anchors. CD4(+) particles specifically bound to HIV-1 Env expressing cells, but any signs of infection into these cells were not detected. Binding was only partially blocked by either polyclonal anti-CD4 antibodies or by high concentrations of soluble CD4. Surprisingly, CD4(+) particles also adsorbed to HeLa, CHO, NIH3T3 and COS-7 cells in the absence of HIV-1 Env expression. Adsorption was comparable in strength and speed to the highly specific CD4-Env interaction. CD4(-) particles exhibited only background levels of binding. Cell binding was CD4. dependent, but it was independent of the cell type from which the CD4(+) particles originated. Interestingly, CD4-dependent/Env-independent binding was only found when CD4 was present on virus particles. This suggests that the micro-environment of CD4 on virus particles uniquely expose this new cell binding activity. Its high affinity could explain in part why infection of Env(+) cells by CD4(+) particles was not detected. Further experiments will be required to evaluate whether this strong membrane interaction could represent one step in the multiple-step viral entry process.