Abstract
Staphylococcus aureus is a facultative intracellular pathogen that invades and replicates within many types of phagocytic and nonphagocytic cells. During intracellular infection, S.aureus is capable of subverting xenophagy and escaping to the cytosol of the host cell. Furthermore, drug-induced autophagy facilitates the intracellular replication of S.aureus, but the reasons behind this are unclear. Here, we have studied the host central carbon metabolism during S.aureus intracellular infection. We found extensive metabolic rerouting and detected several distinct metabolic changes that suggested starvation-induced autophagic flux in infected cells. These changes included increased uptake but lower intracellular levels of glucose and low abundance of several essential amino acids, as well as markedly upregulated glutaminolysis. Furthermore, we show that AMP-activated protein kinase (AMPK) and extracellular signal-regulated kinase (ERK) phosphorylation levels are significantly increased in infected cells. Interestingly, while autophagy was activated in response to S.aureus invasion, most of the autophagosomes detected in infected cells did not contain bacteria, suggesting that S.aureus induces the autophagic flux during cell invasion for energy generation and nutrient scavenging. Accordingly, AMPK inhibition halted S.aureus intracellular proliferation.IMPORTANCEStaphylococcus aureus escapes from immune recognition by invading a wide range of human cells. Once the pathogen becomes intracellular, the most important last resort antibiotics are not effective. Therefore, novel anti-infective therapies against intracellular S.aureus are urgently needed. Here, we have studied the physiological changes induced in the host cells by S.aureus during its intracellular proliferation. This is important, because the pathogen exploits the host cell's metabolism for its own proliferation. We find that S.aureus severely depletes glucose and amino acid pools, which leads to increased breakdown of glutamine by the host cell in an attempt to meet its own metabolic needs. All of these metabolic changes activate autophagy in the host cell for nutrient scavenging and energy generation. The metabolic activation of autophagy could be used by the pathogen to sustain its own intracellular survival, making it an attractive target for novel anti-infectives.
Highlights
Staphylococcus aureus is a facultative intracellular pathogen that invades and replicates within many types of phagocytic and nonphagocytic cells
No significant changes were found in the medium of cells infected with heat-killed USA300, suggesting that the increased secretion of organic acids and the lower levels of glucose were resulting from metabolic changes in the host cell triggered by viable intracellular bacteria
We have observed that autophagy may be activated in response to the metabolic state of the methicillin-resistant S. aureus (MRSA)-infected host cell
Summary
Staphylococcus aureus is a facultative intracellular pathogen that invades and replicates within many types of phagocytic and nonphagocytic cells. We have studied the physiological changes induced in the host cells by S. aureus during its intracellular proliferation This is important, because the pathogen exploits the host cell’s metabolism for its own proliferation. We find that S. aureus severely depletes glucose and amino acid pools, which leads to increased breakdown of glutamine by the host cell in an attempt to meet its own metabolic needs. All of these metabolic changes activate autophagy in the host cell for nutrient scavenging and energy generation. The metabolic activation of autophagy could be used by Staphylococcus aureus to sustain its own intracellular survival, making it an attractive target for novel anti-infectives. Hospital-acquired infections, the number of community-associated S. aureus infections has increased in recent decades [4]
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