A heterogeneous human immunodeficiency virus-like particle (VLP) formulation produced by a novel vector system

First identified as the etiological agent behind Acquired Immunodeficiency Syndrome (AIDS) in the early 1980s, HIV-1 has continued to spread into a global pandemic and major public health concern. Despite the success of antiretroviral therapy at reducing HIV-1 viremia and preventing the dramatic CD4+ T-cell collapse, infected individuals remain HIV positive for life. Unfortunately, it is increasingly clear that natural immunity is not, and may never be, protective against this pathogen. Therefore, efficacious vaccine interventions, which can either prevent infection or eradicate the latent viral reservoir and effect cure, are a major medical priority. Here we describe the development of a safe vaccine platform, currently being utilized in on-going prophylactic and therapeutic preclinical studies and consisting of highly heterogeneous virus-like particle formulations that represent the virus diversity within infected individuals. These VLPs contain no 5′LTR, no functional integrase, and have a severely mutated stem loop 1—thereby preventing any potential reverse transcription, integration, and RNA packaging. Furthermore, we demonstrate that these VLPs are morphologically identical to wild-type virus with polyvalent Env in a functional form. Finally, we show that the VLPs are antigenic and capable of generating strong immune recall responses. A system has been developed that allows the generation of HIV-mimicking particles which provoke an immune response from human cells. As HIV-1 remains pandemic, vaccination represents a current global research priority for prophylaxis, and could even offer a cure. Jamie Mann, of the University of Western Ontario, Canada, and an international research group have successfully created HIV-1 virus-like particles (VLPs) designed to prime immune systems against a diverse range of viral envelope protein conformations. The VLPs produced are morphologically near-identical to the virulent ‘wild-type’ HIV, and successfully stimulated the production of IFN-γ and Granzyme B from CD4+ and CD8+ T immune cells in vitro, in cell cultures taken from HIV-infected volunteers. The VLPs appeared safe in vitro; however, further investigation will confirm their safety profile in humans. The authors are currently investigating different forms of these VLPs as potential anti-HIV therapeutics.

• Publication year

  2018

• Venue

  npj Vaccines

• Publication date

  2018-01-19

• Fields of study

  Biology, Medicine

• Identifiers
  DOI 10.1038/s41541-017-0040-6PMID 29367885PMCID 5775397
• External record

  Open on Semantic Scholar

• Source metadata

  Semantic Scholar, PubMed

• No claims are published for this paper.

• No concepts are published for this paper.

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