Involvement of the nitric oxide, fos protein and brain stem in the retention of brain glucose during hypoxia [Participación del óxido nítrico, proteína fos y el tallo cerebral en la retención de glucosa encefálica durante la hipoxia]

It has been said that the nucleus tractus solitarii (NTS), one structure of the brain stem and path of apherences of chemoreceptors of carotid sinus-body, is involved in the increased glucose retention by the brain in case of hypoxia. It is likely that nitric oxide and Fos protein also take part in this response. This paper analyzes the role of nitric oxide in the NTS on the change of glucose retention by the brain and the expression of inmunoreactive protein Fos (ir-Fos) in rats in vivo. The injection of a NO donor such as sodium nitroprusiate in the NTS four minutes before the stimulation of carotid sinus-body chemoreceptors decreased glucose retention by the brain but increased the expression of ir-Fos in a higher number of neurons in NTS with respect to control group rats which only received artificial cerebrospinal fluid before the stimulation. In contrast, the use of a selective NO inhibitor such as NO-nitro-L-arginine methyl ester (L-NAME) in the NTS four minutes before the stimulation of the chemoreceptors with NaCN, increased the glucose retention by the brain but reduced the number of neurons with ir-Fos expression when compared with the control group or the sodium nitroprusiate injection. The immunohistochemical detection of ir-Fos expression in the brain stem cells indicated that stimulation of carotid sinus-body chemoreceptors activated NO-dependent paths in the NTS to regulate glucose retention by the brain. The study of this cell population in the NTS will be important to define its characterization

Involvement of the nitric oxide, fos protein and brain stem in the retention of brain glucose during hypoxia [Participación del óxido nítrico, proteína fos y el tallo cerebral en la retención de glucosa encefálica durante la hipoxia]

It has been said that the nucleus tractus solitarii (NTS), one structure of the brain stem and path of apherences of chemoreceptors of carotid sinus-body, is involved in the increased glucose retention by the brain in case of hypoxia. It is likely that nitric oxide and Fos protein also take part in this response. This paper analyzes the role of nitric oxide in the NTS on the change of glucose retention by the brain and the expression of inmunoreactive protein Fos (ir-Fos) in rats in vivo. The injection of a NO donor such as sodium nitroprusiate in the NTS four minutes before the stimulation of carotid sinus-body chemoreceptors decreased glucose retention by the brain but increased the expression of ir-Fos in a higher number of neurons in NTS with respect to control group rats which only received artificial cerebrospinal fluid before the stimulation. In contrast, the use of a selective NO inhibitor such as NO-nitro-L-arginine methyl ester (L-NAME) in the NTS four minutes before the stimulation of the chemoreceptors with NaCN, increased the glucose retention by the brain but reduced the number of neurons with ir-Fos expression when compared with the control group or the sodium nitroprusiate injection. The immunohistochemical detection of ir-Fos expression in the brain stem cells indicated that stimulation of carotid sinus-body chemoreceptors activated NO-dependent paths in the NTS to regulate glucose retention by the brain. The study of this cell population in the NTS will be important to define its characterization