Abstract
BackgroundLipopolysaccharide (LPS) and interferon-γ (IFNγ) increase expression of tumour necrosis factor-α (TNFα) that characterizes the M1 activation state of macrophages. Whereas it is accepted that the immune system undergoes changes with age, there is inconsistency in the literature with respect to the impact of age on the response of macrophages to inflammatory stimuli. Here, we investigate the effect of age on the responsiveness of bone marrow-derived macrophages (BMDMs) to LPS and IFNγ. The context for addressing this question is that macrophages, which infiltrate the brain of aged animals, will encounter the neuroinflammatory environment that has been described with age.MethodsBrain tissue, prepared from young and aged rats, was assessed for expression of inflammatory markers by PCR and for evidence of infiltration of macrophages by flow cytometry. BMDMs were prepared from the long bones of young and aged rats, maintained in culture for 8 days and incubated in the presence or absence of LPS (100 ng/ml) or IFNγ (50 ng/ml). Cells were harvested and assessed for mRNA expression of markers of M1 activation including TNFα and NOS2, or for expression of IFNγR1 and TLR4 by western immunoblotting. To assess whether BMDMs induced glial activation, mixed glial cultures were incubated in the presence of conditioned media obtained from unstimulated BMDMs of young and aged rats and evaluated for expression of inflammatory markers.ResultsMarkers associated with M1 activation were expressed to a greater extent in BMDMs from aged rats in response to LPS and IFNγ, compared with cells from young rats. The increased responsiveness was associated with increases in IFNγ receptor (IFNγR) and Toll-like receptor 4 (TLR4). The data show that conditioned media from BMDMs of aged rats increased the expression of pro-inflammatory mediators in glial cells. Significantly, there was an age-related increase in macrophage infiltration into the brain, and this was combined with increased expression of IFNγ and the Toll-like receptor 4 agonist, high-mobility group protein B1 (HMGB1).ConclusionExposure of infiltrating macrophages to the inflammatory microenvironment that develops in the brain with age is likely to contribute to a damaging cascade that negatively impacts neuronal function.
Highlights
Macrophages are key cells in driving the innate immune response and form a heterogenous population that possesses tissue-specific roles
Conditioned media from bone marrow-derived macrophages (BMDMs) of aged rats increased the expression of pro-inflammatory mediators in glial cells; we propose that, in the CNS of aged animals, infiltration of macrophages propagates the existing inflammation
Blood brain barrier permeability is increased with age [30,31], and in amyloid precursor protein (APP)/presenilin 1 (PS1) mice at least, this is associated with infiltration of peripheral cells including macrophages [31]
Summary
Macrophages are key cells in driving the innate immune response and form a heterogenous population that possesses tissue-specific roles. These cells display remarkable plasticity with functions that include the initiation and resolution of changes that occur in response to inflammatory stimuli, phagocytosis, maintenance of tissue homeostasis and tissue remodelling and repair [1]. It has been suggested that macrophages from aged animals respond less well, in terms of inflammatory cytokine production, to stimuli like LPS [9], but there is evidence that age-related changes in macrophage function are tissue-specific. The context for addressing this question is that macrophages, which infiltrate the brain of aged animals, will encounter the neuroinflammatory environment that has been described with age
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