PI3Kγ inhibition circumvents inflammation and vascular leak in SARS-CoV-2 and other infections.
Ryan M ShepardAnghesom GhebremedhinIsaraphorn PratumchaiSally R RobinsonCourtney BettsJingjing HuRoman SasikKathleen M FischJaroslav ZakHui ChenMarc ParadiseJason RiveraMohammad AmjadSatoshi UchiyamaHideya SeoAlejandro D CamposDenise Ann DayaoSaul TziporiCesar Piedra-MoraSoumita DasFarnaz HastehHana RussoXin SunLe XuLaura E Crotty AlexanderJason M DuranMazen Faris OdishVictor G PretoriusNell C KirchbergerShao-Ming ChinTami Von SchalschaDavid A ChereshJohn D MorreyRossitza AlargovaBrenda O'ConnellTheodore A MartinotSandip P PatelVictor NizetAmanda J MartinotLisa M CoussensJohn R TeijaroJudith A VarnerPublished in: Science translational medicine (2024)
Virulent infectious agents such as severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) and methicillin-resistant Staphylococcus aureus (MRSA) induce tissue damage that recruits neutrophils, monocyte, and macrophages, leading to T cell exhaustion, fibrosis, vascular leak, epithelial cell depletion, and fatal organ damage. Neutrophils, monocytes, and macrophages recruited to pathogen-infected lungs, including SARS-CoV-2-infected lungs, express phosphatidylinositol 3-kinase gamma (PI3Kγ), a signaling protein that coordinates both granulocyte and monocyte trafficking to diseased tissues and immune-suppressive, profibrotic transcription in myeloid cells. PI3Kγ deletion and inhibition with the clinical PI3Kγ inhibitor eganelisib promoted survival in models of infectious diseases, including SARS-CoV-2 and MRSA, by suppressing inflammation, vascular leak, organ damage, and cytokine storm. These results demonstrate essential roles for PI3Kγ in inflammatory lung disease and support the potential use of PI3Kγ inhibitors to suppress inflammation in severe infectious diseases.
Keyphrases
- sars cov
- methicillin resistant staphylococcus aureus
- infectious diseases
- respiratory syndrome coronavirus
- oxidative stress
- induced apoptosis
- dendritic cells
- staphylococcus aureus
- peripheral blood
- coronavirus disease
- endothelial cells
- gene expression
- cell cycle arrest
- bone marrow
- signaling pathway
- climate change
- immune response
- tyrosine kinase
- cell death
- candida albicans
- transcription factor
- amino acid
- recombinant human