Dear Editor,


The pathophysiology of pneumonia caused by SARS-CoV-2 infection is related to defective antiviral immunity and protracted systemic and pulmonary inflammation. Severe coronavirus disease 2019 (COVID-19)-related pneumonia often requires prolonged mechanical ventilation, related to the primary pulmonary insult and to a particular susceptibility to secondary ventilator-associated pneumonia (VAP) [1, 2]. Monocyte deactivation, as assessed by decreased monocytic HLA-DR (mHLA-DR) expression, has been associated with increased risks of intensive care unit (ICU)-acquired infections in various conditions including bacterial sepsis, acute respiratory distress syndrome or trauma [3]. In patients with COVID-19-related pneumonia, decreased mHLA-DR expression is associated with the development of severe respiratory failure, and presumably may contribute to pronounced susceptibility to bacterial superinfections [4, 5].

In line with this hypothesis, we report six non-immunocompromised patients who sustained recurrent VAP despite adapted courses of antibiotics, thereby suggestive of defective anti-infective responses. Patients were assessed for mHLA-DR expression and were then administered interferon (IFN)-gamma to restore activated monocytes and thereby improve lung defense.

VAP was diagnosed in patients under invasive mechanical ventilation for at least 48 h fulfilling the following criteria: (i) clinical manifestations (purulent sputum, fever, deterioration of oxygenation and/or new-onset or worsening shock); (ii) radiographic infiltrates; (iii) positive cultures of endotracheal aspirates for pathogenic bacteria (≥ 105 colony-forming units/mL). mHLA-DR expression was assessed by flow cytometry and was reported as the proportion of HLA-DRhigh monocytes (supplementary figure 1). The significant decrease in mHLA-DR expression prompted a 5-day course of IFN-gamma (100 µg/day subcutaneous). mHLA-DR expression was monitored at days 3, 5, and 8 following IFN-gamma initiation.

All patients had experienced at least two prior episodes of VAP, caused by at least one of the same putative bacteria (supplementary table 1). The new VAP episode resulted in oxygenation impairment and acute circulatory failure requiring vasopressors in all patients. Antibiotic treatment was optimized based on antimicrobial susceptibility testing and antibiotic plasmatic concentration, and was prolonged (median 14 days, interquartile range [14–21]). Time courses of mHLA-DR expression and total lymphocyte counts are displayed in the Fig. 1. IFN-gamma treatment led to a fast increase in HLA-DRhigh monocytes in all but one patient with rapidly fatal septic shock (patient #3). Two additional patients died from bleeding complication (patient #5) and from late septic shock (patient #6) unrelated to VAP. The three remaining patients improved their respiratory condition without further recurrence of VAP (supplementary figure 3), and finally recovered to be discharged from the ICU. IFN-gamma was well tolerated without any attributable side effects.

Fig. 1
figure 1

Impact of interferon gamma treatment on immune parameters. a Representative example of the evolution of HLA-DRhigh monocytes after 5-day interferon gamma (IFN-gamma) treatment in patient #1. b Evolution of monocytic HLA-DR (mHLA-DR) expression (proportion of HLA-DRhigh monocytes) over time following IFN-gamma administration. c Time course of total lymphocyte counts following IFN-gamma administration

These results point toward a plausible efficacy of IFN-gamma in the treatment of recurrent VAP through restoration of monocyte activation. These results are exploratory but echo previous reports of IFN-gamma treatment efficacy in superinfections complicating bacterial sepsis [6]. IFN-gamma treatment was based on mHLA-DR expression, a reliable biomarker of post-aggressive immune suppression, thereby accounting for a good example of personalized medicine in critically ill patients.

Besides early anti-inflammatory approaches to treat severe COVID-19 pneumonia, our results raise the question of immunostimulant therapies to fight recurrent bacterial superinfections in critically ill patients later in the course of the disease.