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Rapid dissociation of HIV-1 from cultured cells severely limits infectivity assays, causes the inactivation ascribed to entry inhibitors, and masks the inherently high level of infectivity of virions. | LitMetric
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Rapid dissociation of HIV-1 from cultured cells severely limits infectivity assays, causes the inactivation ascribed to entry inhibitors, and masks the inherently high level of infectivity of virions.

Emily J Platt Susan L Kozak James P Durnin Thomas J Hope David Kabat

J Virol

Department of Biochemistry and Molecular Biology, Oregon Health and Science University, Portland, OR 97239-3098, USA.

Published: March 2010

AI Article Synopsis

  • Using immunofluorescence microscopy, researchers discovered that freshly made HIV-1 virions are highly infectious, contradicting earlier beliefs that most were defective.
  • Polycations significantly boost virus infection rates by 20-30 times by stabilizing the attachment of the virus to host cells and preventing a new rapid dissociation process.
  • This study suggests that virus infectivity depends on both how well viruses attach to cells and how quickly they can enter, revealing insights into why HIV-1 can adapt to overcome entry obstacles.

Article Abstract

By using immunofluorescence microscopy to observe and analyze freshly made HIV-1 virions adsorbed onto cells, we found that they are inherently highly infectious, rather than predominantly defective as previously suggested. Surprisingly, polycations enhance titers 20- to 30-fold by stabilizing adsorption and preventing a previously undescribed process of rapid dissociation, strongly implying that infectivity assays for many viruses are limited not only by inefficient virus diffusion onto cells but also by a postattachment race between entry and dissociation. This kinetic competition underlies inhibitory effects of CCR5 antagonists and explains why adaptive HIV-1 mutations overcome many cell entry limitations by accelerating entry.

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 Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2826045PMC
http://dx.doi.org/10.1128/JVI.01958-09DOI Listing

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