Improved genetically encoded fluorescent biosensors for monitoring of intra- and extracellular L-lactate

Abstract: L-Lactate is increasingly appreciated as a key metabolite and signaling molecule in mammals. To enable investigations of both the inter- and intra-cellular dynamics of L-lactate, we develop a second-generation green fluorescent extracellular L-lactate biosensor, designated eLACCO2.1, and a red fluorescent intracellular L-lactate biosensor, designated R-iLACCO1. Compared to the first-generation eLACCO1.1 (ΔF/F = 1.5 in cultured neurons), eLACCO2.1 exhibits better membrane localization and fluorescence response … Show more

“…Thus, we next asked whether the WIN55-induced lactate production was accompanied with increased release of the metabolite. To explore this possibility, we adapted a “sniffer cells” strategy 24, 25 , in which HEK cells expressing an extracellular lactate fluorescent biosensor 26 are able to detect the amount of ambient lactate levels in an extracellular medium (Fig. 1G), in the presence of a constant buffer superfusion.…”

A lactate-dependent shift of glycolysis mediates synaptic and cognitive processes

“…Thus, we next asked whether the WIN55-induced lactate production was accompanied with increased release of the metabolite. To explore this possibility, we adapted a “sniffer cells” strategy 24, 25 , in which HEK cells expressing an extracellular lactate fluorescent biosensor 26 are able to detect the amount of ambient lactate levels in an extracellular medium (Fig. 1G), in the presence of a constant buffer superfusion.…”

A lactate-dependent shift of glycolysis mediates synaptic and cognitive processes