Litcius/Paper detail

The blood lactate/pyruvate equilibrium affair

George A. Brooks, Adam D. Osmond, Robert G. Leija, Casey C. Curl, José A. Arevalo, Justin J. Duong, Michael A. Horning

2021American Journal of Physiology-Endocrinology and Metabolism17 citationsDOIOpen Access PDF

Abstract

The Lactate Shuttle hypothesis is supported by a variety of techniques including mass spectrometry analytics following infusion of carbon-labeled isotopic tracers. However, there has been controversy over whether lactate tracers measure lactate (L) or pyruvate (P) turnover. Here, we review the analytical errors, use of inappropriate tissue and animal models, failure to consider L and P pool sizes in modeling results, inappropriate tracer and blood sampling sites, and failure to anticipate roles of heart and lung parenchyma on L⇔P interactions. With support from magnetic resonance spectroscopy (MRS) and immunocytochemistry, we conclude that carbon-labeled lactate tracers can be used to quantitate lactate fluxes.

Topics & Concepts

Blood lactateChemistryTRACERMass spectrometryParenchymaBlood samplingBiochemistryPathologyInternal medicineBiologyChromatographyEndocrinologyMedicineHeart rateNuclear physicsPhysicsBlood pressureMetabolomics and Mass Spectrometry StudiesMitochondrial Function and PathologyAdvanced MRI Techniques and Applications