Lung-residing myeloid-derived suppressors display dual functionality in murine pulmonary tuberculosis
JK Knaul, S Jörg, D Oberbeck-Mueller… - American journal of …, 2014 - atsjournals.org
JK Knaul, S Jörg, D Oberbeck-Mueller, E Heinemann, L Scheuermann, V Brinkmann…
American journal of respiratory and critical care medicine, 2014•atsjournals.orgRationale: Myeloid cells encompass distinct populations with unique functions during
homeostasis and disease. Recently, a novel subset of innate cells, myeloid-derived
suppressor cells (MDSCs), has been described in cancer, which suppresses T-cell
responses and fosters disease progression. The role of MDSCs in infection is insufficiently
addressed. Objectives: To examine the presence and function of MDSCs during
experimental pulmonary tuberculosis (TB) and further understand the immunologic …
homeostasis and disease. Recently, a novel subset of innate cells, myeloid-derived
suppressor cells (MDSCs), has been described in cancer, which suppresses T-cell
responses and fosters disease progression. The role of MDSCs in infection is insufficiently
addressed. Objectives: To examine the presence and function of MDSCs during
experimental pulmonary tuberculosis (TB) and further understand the immunologic …
Rationale: Myeloid cells encompass distinct populations with unique functions during homeostasis and disease. Recently, a novel subset of innate cells, myeloid-derived suppressor cells (MDSCs), has been described in cancer, which suppresses T-cell responses and fosters disease progression. The role of MDSCs in infection is insufficiently addressed.
Objectives: To examine the presence and function of MDSCs during experimental pulmonary tuberculosis (TB) and further understand the immunologic consequences of direct interactions between MDSCs and lung bacterial pathogens.
Methods: Using cell-based approaches and experimental mouse models for pulmonary TB we characterized MDSCs as novel myeloid populations directly interacting with Mycobacterium tuberculosis (Mtb).
Measurements and Main Results: MDSCs readily phagocytosed Mtb, and released proinflammatory (IL-6, IL-1α) and immunomodulatory (IL-10) cytokines while retaining their suppressive capacity. MDSCs were identified at the site of infection in the lung in disease-resistant and -susceptible mice during pulmonary TB. Excessive MDSC accumulation in lungs correlated with elevated surface expression of IL-4Rα and heightened TB lethality, whereas targeted depletion of MDSCs ameliorated disease.
Conclusions: Our data reveal that MDSCs provide a niche for pathogen survival and tailor immunity in TB. These findings suggest MDSCs as amenable targets for host-directed therapies and emphasize them as cellular-immune regulators during chronic inflammatory conditions, including chronic infections and microbial complications of neoplastic disorders.
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