Abstract

The activation of immune cells in response to a pathogen involves a succession of signaling events leading to gene and protein expression, which requires metabolic changes to match the energy demands. The metabolic profile associated with the MAPK cascade (ERK1/2, p38, and JNK) in macrophages was studied, and the effect of its inhibition on the specific metabolic pattern of LPS stimulation was characterized. A [1,2-[(13)C](2)]glucose tracer-based metabolomic approach was used to examine the metabolic flux distribution in these cells after MEK/ERK inhibition. Bioinformatic tools were used to analyze changes in mass isotopomer distribution and changes in glucose and glutamine consumption and lactate production in basal and LPS-stimulated conditions in the presence and absence of the selective inhibitor of the MEK/ERK cascade, PD325901. Results showed that PD325901-mediated ERK1/2 inhibition significantly decreased glucose consumption and lactate production but did not affect glutamine consumption. These changes were accompanied by a decrease in the glycolytic flux, consistent with the observed decrease in fructose-2,6-bisphosphate concentration. The oxidative and nonoxidative pentose phosphate pathways and the ratio between them also decreased. However, tricarboxylic acid cycle flux did not change significantly. LPS activation led to the opposite responses, although all of these were suppressed by PD325901. However, LPS also induced a small decrease in pentose phosphate pathway fluxes and an increase in glutamine consumption that were not affected by PD325901. We concluded that inhibition of the MEK/ERK cascade interferes with central metabolism, and this cross-talk between signal transduction and metabolism also occurs in the presence of LPS.

Highlights

  • ObjectivesWe aimed to characterize changes in the central carbon metabolic network induced by ERK inhibition and provide a tool to analyze the metabolic flux distribution in macrophages as cross-talk between signal transduction and metabolic events

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  • This was associated with a decrease in the expression of the highly active PFKB3 isoenzyme of PFK-2 (uPFK-2) isoform induced by LPS and, concomitantly, a reduction in total PFK-2/fructose-2,6bisphosphatase (FBPase-2) activity (Fig. 1E)

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Summary

Objectives

We aimed to characterize changes in the central carbon metabolic network induced by ERK inhibition and provide a tool to analyze the metabolic flux distribution in macrophages as cross-talk between signal transduction and metabolic events

Methods
Results
Conclusion

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