The role of lactate on the neuroendocrine regulation of the somatototropic axis.

Lactate is the product of pyruvate reduction, a fundamental reaction for intracellular pH control and the redox state of the cell in which it is produced. In the bloodstream, it diffuses into tissues expressing MCTs and is consumed as an important energy substrate. In the master\'s degree, we observed that lactate promotes elevation of GH synthesis / secretion. In this sense, we intend to identify the potential hypothalamic hormones that would be involved in this regulation, as well as in its possible mechanism of direct action on the pituitary cells. Our results show that lactate increases the activity of neurons in different hypothalamic regions, regulating the gene and protein expression of Ghrh and Somatostatin (SST). Furthermore, we observed that it promotes post-transcriptional regulation of the Gh mRNA, increasing its poly(A) tail length, which may reflect the increase in transcript stability. In experiments with Lit/ Lit mice, we observed the importance of stimulating GHRH tone for the stimulation of GH expression. In experiments with MCT1+/- KO mice we identified that lactate is a key part of exercise to activate the somatotrophic axis. Furthermore, we characterized that GH3 cells show lactate receptor mRNA expression (Gpcr 81) and 3 different isoforms of lactate transporters (Mct 1, 3, 4). In addition, in the same cell culture we observed the elevation of the intra and extracellular content of GH, as well as the increase of intracellular concentration of Ca++ that would explain the higher secretion of GH and that when we inhibited the MCTs, its effect on the increase of the Gh mRNA is no longer reproduced. Thus, our work shows direct lactate actions, via membrane transporters, on the increment of somatotrophic axis activity by different experimental approaches. (AU)