Sepsis-induced changes in pyruvate metabolism: insights and potential therapeutic approaches.

Sepsis is a heterogeneous syndrome resulting from a dysregulated host response to infection. It is considered as a global major health priority. Sepsis is characterized by significant metabolic perturbations, leading to increased circulating metabolites such as lactate.

Comparative Analysis of Hepatic Gene Expression Profiles in Murine and Porcine Sepsis Models.

Sepsis remains a huge unmet medical need for which no approved drugs, besides antibiotics, are on the market. Despite the clinical impact of sepsis, its molecular mechanism remains inadequately understood. Recent insights have shown that profound hepatic transcriptional reprogramming, leading to fatal metabolic abnormalities, might open a new avenue to treat sepsis.

A critical role for HNF4α in polymicrobial sepsis-associated metabolic reprogramming and death.

In sepsis, limited food intake and increased energy expenditure induce a starvation response, which is compromised by a quick decline in the expression of hepatic PPARα, a transcription factor essential in intracellular catabolism of free fatty acids. The mechanism upstream of this PPARα downregulation is unknown. We found that sepsis causes a progressive hepatic loss-of-function of HNF4α, which has a strong impact on the expression of several important nuclear receptors, including PPARα.

Paneth cell TNF signaling induces gut bacterial translocation and sepsis.

The cytokine tumor necrosis factor (TNF) plays important roles in limiting infection but is also linked to sepsis. The mechanisms underlying these paradoxical roles are unclear. Here, we show that TNF limits the antimicrobial activity of Paneth cells (PCs), causing bacterial translocation from the gut to various organs.

Microbial metabolome in septic shock: Bridging bench to bedside.

Due to its enormous incidence and mortality, sepsis is a huge health priority. In the latest issue of Cell, an innovative approach is provided that addresses the major sepsis hurdles of today, i.e.