Nature Communications (Jun 2023)

Immune resilience despite inflammatory stress promotes longevity and favorable health outcomes including resistance to infection

  • Sunil K. Ahuja,
  • Muthu Saravanan Manoharan,
  • Grace C. Lee,
  • Lyle R. McKinnon,
  • Justin A. Meunier,
  • Maristella Steri,
  • Nathan Harper,
  • Edoardo Fiorillo,
  • Alisha M. Smith,
  • Marcos I. Restrepo,
  • Anne P. Branum,
  • Matthew J. Bottomley,
  • Valeria Orrù,
  • Fabio Jimenez,
  • Andrew Carrillo,
  • Lavanya Pandranki,
  • Caitlyn A. Winter,
  • Lauryn A. Winter,
  • Alvaro A. Gaitan,
  • Alvaro G. Moreira,
  • Elizabeth A. Walter,
  • Guido Silvestri,
  • Christopher L. King,
  • Yong-Tang Zheng,
  • Hong-Yi Zheng,
  • Joshua Kimani,
  • T. Blake Ball,
  • Francis A. Plummer,
  • Keith R. Fowke,
  • Paul N. Harden,
  • Kathryn J. Wood,
  • Martin T. Ferris,
  • Jennifer M. Lund,
  • Mark T. Heise,
  • Nigel Garrett,
  • Kristen R. Canady,
  • Salim S. Abdool Karim,
  • Susan J. Little,
  • Sara Gianella,
  • Davey M. Smith,
  • Scott Letendre,
  • Douglas D. Richman,
  • Francesco Cucca,
  • Hanh Trinh,
  • Sandra Sanchez-Reilly,
  • Joan M. Hecht,
  • Jose A. Cadena Zuluaga,
  • Antonio Anzueto,
  • Jacqueline A. Pugh,
  • South Texas Veterans Health Care System COVID-19 team,
  • Brian K. Agan,
  • Robert Root-Bernstein,
  • Robert A. Clark,
  • Jason F. Okulicz,
  • Weijing He

DOI
https://doi.org/10.1038/s41467-023-38238-6
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 31

Abstract

Read online

Abstract Some people remain healthier throughout life than others but the underlying reasons are poorly understood. Here we hypothesize this advantage is attributable in part to optimal immune resilience (IR), defined as the capacity to preserve and/or rapidly restore immune functions that promote disease resistance (immunocompetence) and control inflammation in infectious diseases as well as other causes of inflammatory stress. We gauge IR levels with two distinct peripheral blood metrics that quantify the balance between (i) CD8+ and CD4+ T-cell levels and (ii) gene expression signatures tracking longevity-associated immunocompetence and mortality-associated inflammation. Profiles of IR metrics in ~48,500 individuals collectively indicate that some persons resist degradation of IR both during aging and when challenged with varied inflammatory stressors. With this resistance, preservation of optimal IR tracked (i) a lower risk of HIV acquisition, AIDS development, symptomatic influenza infection, and recurrent skin cancer; (ii) survival during COVID-19 and sepsis; and (iii) longevity. IR degradation is potentially reversible by decreasing inflammatory stress. Overall, we show that optimal IR is a trait observed across the age spectrum, more common in females, and aligned with a specific immunocompetence-inflammation balance linked to favorable immunity-dependent health outcomes. IR metrics and mechanisms have utility both as biomarkers for measuring immune health and for improving health outcomes.