Environment International (Jun 2019)

Low-dose cadmium potentiates lung inflammatory response to 2009 pandemic H1N1 influenza virus in mice

  • Joshua D. Chandler,
  • Xin Hu,
  • Eun-Ju Ko,
  • Soojin Park,
  • Jolyn Fernandes,
  • Young-Tae Lee,
  • Michael L. Orr,
  • Li Hao,
  • M. Ryan Smith,
  • David C. Neujahr,
  • Karan Uppal,
  • Sang-Moo Kang,
  • Dean P. Jones,
  • Young-Mi Go

Journal volume & issue
Vol. 127
pp. 720 – 729

Abstract

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Cadmium (Cd) is a toxic, pro-inflammatory metal ubiquitous in the diet that accumulates in body organs due to inefficient elimination. Responses to influenza virus infection are variable, particularly severity of pneumonia. We used a murine model of chronic low-dose oral exposure to Cd to test if increased lung tissue Cd worsened inflammation in response to sub-lethal H1N1 infection. The results show that Cd-treated mice had increased lung tissue inflammatory cells, including neutrophils, monocytes, T lymphocytes and dendritic cells, following H1N1 infection. Lung genetic responses to infection (increasing TNF-α, interferon and complement, and decreasing myogenesis) were also exacerbated. To reveal the organization of a network structure, pinpointing molecules critical to Cd-altered lung function, global correlations were made for immune cell counts, leading edge gene transcripts and metabolites. This revealed that Cd increased correlation of myeloid immune cells with pro-inflammatory genes, particularly interferon-γ and metabolites. Together, the results show that Cd burden in mice increased inflammation in response to sub-lethal H1N1 challenge, which was coordinated by genetic and metabolic responses, and could provide new targets for intervention against lethal inflammatory pathology of clinical H1N1 infection. Keywords: Environmental safety, Exposome, Heavy metals, Influenza A virus, Public health