Astrocytes are the most abundant glial cells in the brain. They are responsible for the defence and homeostasis of the central nervous system. During increased neuronal activity, exercise and pathophysiological conditions astrocytes are characterized by a high glycolytic rate with the formation of L-lactate, which is known as the Warburg effect. The phenomenon is thought to be regulated by noradrenergic neurons that release noradrenaline, and adrenergic receptors and monocarboxylate transporters on the membrane of astrocytes are also involved. All these and many other findings are the result of research conducted on cell cultures. Protocols for growing cell cultures may differ between laboratories with regard to the composition of culture media and media, and the environmental conditions during cell cultivation. Typically, experiments with astrocytes are performed in cell cultures grown under conditions that mimic a stable natural cell environment (37 °C, 95 % humidity, 5 % CO2). Experiments are often performed for several hours at room temperature (22–24 °C). We were interested in whether exposure of astrocytes to a lower temperature (34 °C) affects the expression of adrenergic receptors 1A-AR and 2-AR and monocarboxylate transporters MCT1 and MCT4. We tackled the problem employing immunocytochemical method and confocal microscopy. We found that the expression of 1A-AR was lower at 34 °C than at 37 °C. On the contrary, the expression of 2-AR was at 34 °C higher than at 37 °C. In the expression of the genes for MCT1 and MCT4, we observed a trend of decreased expression at lower temperature, but additional experiments should be performed to confirm the results unequivocally. Although we performed the experiments at a temperature higher than room temperature and for a longer time, we can conclude that even a few hours of exposure to room temperatures could have a similar effect. It would be appropriate to carry out additional experiments at a lower temperature and shorter exposure time, and to check the effects of other conditions of the cellular microenvironment on the gene expression of the investigated proteins.