Nature Communications (Feb 2024)

Coordinated inflammatory responses dictate Marburg virus control by reservoir bats

  • Jonathan C. Guito,
  • Shannon G. M. Kirejczyk,
  • Amy J. Schuh,
  • Brian R. Amman,
  • Tara K. Sealy,
  • James Graziano,
  • Jessica R. Spengler,
  • Jessica R. Harmon,
  • David M. Wozniak,
  • Joseph B. Prescott,
  • Jonathan S. Towner

DOI
https://doi.org/10.1038/s41467-024-46226-7
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 15

Abstract

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Abstract Bats are increasingly recognized as reservoirs of emerging zoonotic pathogens. Egyptian rousette bats (ERBs) are the known reservoir of Marburg virus (MARV), a filovirus that causes deadly Marburg virus disease (MVD) in humans. However, ERBs harbor MARV asymptomatically, likely due to a coadapted and specific host immunity-pathogen relationship. Recently, we measured transcriptional responses in MARV-infected ERB whole tissues, showing that these bats possess a disease tolerant strategy that limits pro-inflammatory gene induction, presumably averting MVD-linked immunopathology. However, the host resistant strategy by which ERBs actively limit MARV burden remains elusive, which we hypothesize requires localized inflammatory responses unresolvable at bulk-tissue scale. Here, we use dexamethasone to attenuate ERB pro-inflammatory responses and assess MARV replication, shedding and disease. We show that MARV-infected ERBs naturally mount coordinated pro-inflammatory responses at liver foci of infection, comprised of recruited mononuclear phagocytes and T cells, the latter of which proliferate with likely MARV-specificity. When pro-inflammatory responses are diminished, ERBs display heightened MARV replication, oral/rectal shedding and severe MVD-like liver pathology, demonstrating that ERBs balance immunoprotective tolerance with discreet MARV-resistant pro-inflammatory responses. These data further suggest that natural ERB immunomodulatory stressors like food scarcity and habitat disruption may potentiate viral shedding, transmission and therefore outbreak risk.