Frontiers in Immunology (Aug 2022)

Mice with humanized immune system as novel models to study HIV-associated pulmonary hypertension

  • Valerie J. Rodriguez-Irizarry,
  • Valerie J. Rodriguez-Irizarry,
  • Alina C. Schneider,
  • Daniel Ahle,
  • Justin M. Smith,
  • Edu B. Suarez-Martinez,
  • Ethan A. Salazar,
  • Brianyell McDaniel Mims,
  • Fahmida Rasha,
  • Hanna Moussa,
  • Naima Moustaïd-Moussa,
  • Kevin Pruitt,
  • Marcelo Fonseca,
  • Mauricio Henriquez,
  • Matthias A. Clauss,
  • Matthew B. Grisham,
  • Sharilyn Almodovar,
  • Sharilyn Almodovar

DOI
https://doi.org/10.3389/fimmu.2022.936164
Journal volume & issue
Vol. 13

Abstract

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People living with HIV and who receive antiretroviral therapy have a significantly improved lifespan, compared to the early days without therapy. Unfortunately, persisting viral replication in the lungs sustains chronic inflammation, which may cause pulmonary vascular dysfunction and ultimate life-threatening Pulmonary Hypertension (PH). The mechanisms involved in the progression of HIV and PH remain unclear. The study of HIV-PH is limited due to the lack of tractable animal models that recapitulate infection and pathobiological aspects of PH. On one hand, mice with humanized immune systems (hu-mice) are highly relevant to HIV research but their suitability for HIV-PH research deserves investigation. On another hand, the Hypoxia-Sugen is a well-established model for experimental PH that combines hypoxia with the VEGF antagonist SU5416. To test the suitability of hu-mice, we combined HIV with either SU5416 or hypoxia. Using right heart catheterization, we found that combining HIV+SU5416 exacerbated PH. HIV infection increases human pro-inflammatory cytokines in the lungs, compared to uninfected mice. Histopathological examinations showed pulmonary vascular inflammation with arterial muscularization in HIV-PH. We also found an increase in endothelial-monocyte activating polypeptide II (EMAP II) when combining HIV+SU5416. Therefore, combinations of HIV with SU5416 or hypoxia recapitulate PH in hu-mice, creating well-suited models for infectious mechanistic pulmonary vascular research in small animals.

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