Emerging Microbes and Infections (Dec 2024)

Dysfunctional host cellular immune responses are associated with mortality in melioidosis

  • Shelton W. Wright,
  • Peeraya Ekchariyawat,
  • Sineenart Sengyee,
  • Rungnapa Phunpang,
  • Adul Dulsuk,
  • Natnaree Saiprom,
  • Ekkachai Thiansukhon,
  • Kovit Pattanapanyasat,
  • Sunee Korbsrisate,
  • T. Eoin West,
  • Narisara Chantratita

DOI
https://doi.org/10.1080/22221751.2024.2380822
Journal volume & issue
Vol. 13, no. 1

Abstract

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Melioidosis is a tropical infection caused by the intracellular pathogen Burkholderia pseudomallei, an underreported and emerging global threat. As melioidosis-associated mortality is frequently high despite antibiotics, novel management strategies are critically needed. Therefore, we sought to determine whether functional changes in the host innate and adaptive immune responses are induced during acute melioidosis and are associated with outcome. Using a unique whole blood stimulation assay developed for use in resource-limited settings, we examined induced cellular functional and phenotypic changes in a cohort of patients with bacteremic melioidosis prospectively enrolled within 24 h of positive blood culture and followed for 28 days. Compared to healthy controls, melioidosis survivors generated an IL-17 response mediated by Th17 cells and terminally-differentiated effector memory CD8+ T cells (P < .05, both), persisting to 28 days after enrolment. Furthermore, melioidosis survivors developed polyfunctional cytokine production in CD8+ T cells (P < .01). Conversely, a reduction in CCR6+ CD4+ T cells was associated with higher mortality, even after adjustments for severity of illness (P = 0.004). Acute melioidosis was also associated with a profound acute impairment in monocyte function as stimulated cytokine responses were reduced in classical, intermediate and non-classical monocytes. Impaired monocyte cytokine function improved by 28-days after enrolment. These data suggest that IL-17 mediated cellular responses may be contributors to host defense during acute melioidosis, and that innate immune function may be impaired. These insights could provide novel targets for the development of therapies and vaccine targets in this frequently lethal disease.

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