Neutrophils Exhibit Senescence-Like Behavior in Older Individuals
An increasing number of cells in aged tissues enter a senescent state, ceasing replication and generating pro-inflammatory signals that are disruptive to tissue structure and function. In the case of innate immune cells, however, there is some question as to whether they are in fact senescent or just adopting features of senescence, and that leads to debate over whether these cells are in fact harmful. Neutrophils, also known as polymorphonuclear leukocytes, are an important cell type in the innate immune system. Here, researchers show that neutrophils in aged individuals exhibit features of cellular senescence, but stop short of calling them senescent cells. They also show that this behavior is harmful, as it impedes the immune response to infection.
Aging drives increased susceptibility to respiratory infections by Streptococcus pneumoniae (pneumococci). Polymorphonuclear leukocytes (PMNs) are among the first responders in the lung following pneumococcal infection and are required for bacterial clearance. However, PMN antimicrobial function declines with age. To identify mechanisms underlying this decline, we performed RNA sequencing on PMNs in the lungs of young and old mice following pulmonary infection with S. pneumoniae. We observed significant transcriptomic differences across host age.
Transcriptional analysis followed by functional validation revealed that in infected mice, PMNs from aged hosts failed to upregulate several effector activities including glycolysis and subsequent mitochondrial reactive oxygen species (ROS) production, which are necessary for bacterial killing by PMNs. Conversely, PMNs in aged mice displayed a higher senescence-associated secretory phenotype (SASP) score and upregulated pathways involved in cellular senescence. Follow-up functional characterization found that in uninfected hosts, PMNs in aged mice expressed higher levels of SASP factors IL-10, TNFα, and ROS, had a lower incidence of apoptosis, and had a higher proportion of cells positive for senescence-associated β-galactosidase, features of a senescent-like phenotype.
Importantly, blocking TNFα, one of the SASP factors, altered the senescent-like phenotype and boosted the antibacterial activity of PMNs from aged hosts and increased host resistance to S. pneumoniae pulmonary infection. In conclusion, host aging is associated with altered PMN phenotype, including a shift toward senescent-like energy-deficient cells, which contribute to impaired host defense and represent potential targets for improved interventions against infection in older adults.