Abstract
The yearly, cyclic impact of viruses like influenza on human health and the economy is due to the high rates of mutation of traditional antibody targets, which negate any preexisting humoral immunity. However, the seasonality of influenza infections can equally be attributed to an absent or defective memory CD8 T cell response since the epitopes recognized by these cells are derived from essential virus proteins that mutate infrequently. Experiments in mouse models show that protection from heterologous influenza infection is temporally limited and conferred by a population of tissue-resident memory (TRM) cells residing in the lung and lung airways. TRM are elicited by a diverse set of pathogens penetrating mucosal barriers and broadly identified by extravascular staining and expression of the activation and adhesion molecules CD69 and CD103. Interestingly, lung TRM fail to express these molecules, which could limit tissue retention, resulting in airway expulsion or death with concomitant loss of heterologous protection. Here, we make the case that respiratory infections uniquely evoke a form of natural immunosuppression whereby specific cytokines and cell–cell interactions negatively impact memory cell programming and differentiation. Respiratory memory is not only short-lived but most of the memory cells in the lung parenchyma may not be bona fide TRM. Given the quantity of microbes humans inhale over a lifetime, limiting cellular residence could be a mechanism employed by the respiratory tract to preserve organismal vitality. Therefore, successful efforts to improve respiratory immunity must carefully and selectively breach these inherent tissue barriers.
Highlights
Respiratory infections continue to be one of the leading causes of morbidity and mortality worldwide [1]
Four million annual outpatient visits are associated with viral respiratory infections, including influenza and respiratory syncytial virus (RSV) [2, 3]
In the case of influenza infection, CD8 T cells recognize epitopes derived from internal viral proteins that are conserved across 80–100% of circulating influenza strains [4,5,6,7,8], indicating that elicitation of CD8 T cell immunity could offer a broad range of protection against heterologous influenza infection
Summary
Respiratory infections continue to be one of the leading causes of morbidity and mortality worldwide [1]. The attrition of influenza-specific cells is restricted to the lung, as splenic memory cell numbers do not decline, indicating this is likely loss of the TEM or TRM pools. The majority of the memory cells within the lung parenchyma 35 days after respiratory infection with either influenza, VSV, or Listeria monocytogenes are part of the circulating TEM pool, with only 10–20% of the cells in the lung parenchyma truly within the tissue [52] (Figure 1).
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