Intrahippocampal glutamine administration inhibits mTORC1 signaling and impairs long-term memory

Abstract: The mechanistic Target of Rapamycin Complex 1 (mTORC1), a key regulator of protein synthesis and cellular growth, is also required for long-term memory formation. Stimulation of mTORC1 signaling is known to be dependent on the availability of energy and growth factors, as well as the presence of amino acids. In vitro studies using serum-and amino acidstarved cells have reported that glutamine addition can either stimulate or repress mTORC1 activity, depending on the particular experimental system that was used… Show more

“…Thus there is a strong evidence for beneficial effects of mTOR inhibition in AD, in increasing life span in diverse set of animals (Ehninger, et al, 2014, Johnson, et al, 2013). Contrary to this beneficial effects, the rapamycin or genetic disruption of mTOR has shown to block long-term potentiation and memory functions in vitro and intact animals (Rozas, et al, 2015, Stoica, et al, 2011, Sui, et al, 2008, Tang, et al, 2002). Thus biological effects of mTOR inhibition are diverse and often have opposite effects based on the model or the mTOR regulator studied.…”

Forebrain depletion of Rheb GTPase elicits spatial memory deficits in mice

“…Thus there is a strong evidence for beneficial effects of mTOR inhibition in AD, in increasing life span in diverse set of animals (Ehninger, et al, 2014, Johnson, et al, 2013). Contrary to this beneficial effects, the rapamycin or genetic disruption of mTOR has shown to block long-term potentiation and memory functions in vitro and intact animals (Rozas, et al, 2015, Stoica, et al, 2011, Sui, et al, 2008, Tang, et al, 2002). Thus biological effects of mTOR inhibition are diverse and often have opposite effects based on the model or the mTOR regulator studied.…”

Forebrain depletion of Rheb GTPase elicits spatial memory deficits in mice