Indole-3-propionic acid alleviates sepsis-associated acute liver injury by activating pregnane X receptor.

BACKGROUND: The morbidity and mortality of sepsis are extremely high, which is a major problem plaguing human health. However, current drugs and measures for the prevention and treatment of sepsis have little effect. Sepsis-associated acute liver injury (SALI) is an independent risk factor for sepsis, which seriously affects the prognosis of sepsis. Studies have found that gut microbiota is closely related to SALI, and indole-3-propionic Acid (IPA) can activate Pregnane X receptor (PXR). However, the role of IPA and PXR in SALI has not been reported. METHODS: This study aimed to explore the association between IPA and SALI. The clinical data of SALI patients were collected and IPA level in feces was detected. The sepsis model was established in wild-type mice and PXR knockout mice to investigate the role of IPA and PXR signaling in SALI. RESULTS: We showed that the level of IPA in patients' feces is closely related to SALI, and the level of IPA in feces has a good ability to identify and diagnose SALI. IPA pretreatment significantly attenuated septic injury and SALI in wild-type mice, but not found in knockout PXR gene mice. CONCLUSIONS: IPA alleviates SALI by activating PXR, which reveals a new mechanism of SALI, and provides potentially effective drugs and targets for the prevention of SALI.

Ketamine inhibits c-Jun protein expression in mouse hippocampus following cerebral ischemia/reperfusion injury.

A model of cerebral ischemia and reperfusion was established in mice. Mice were treated with ketamine via intraperitoneal injection immediately following ischemia or ischemia/reperfusion. Ketamine did not remarkably change infarct volume in mice immediately following ischemia, but injection immediately following ischemia/reperfusion significantly decreased infarct volume. Ketamine injection immediately after ischemia or ischemia/reperfusion inhibited c-Jun protein expression in mouse hippocampus, but nuclear factor kappa B expression was unaltered. In addition, the Longa scale score for neural impairment was not reduced in mice following cerebral ischemia/reperfusion. These results indicate that ketamine can protect mice against cerebral ischemia and reperfusion injury by modulating c-Jun protein expression in mouse hippocampus.

The effect of nitrous oxide and isoflurane on the total RNA yield from the cochlea of the rats.

The possible mechanism of inhalation anesthetics on the internal auditory impairment of the rat was investigated by determining the effect of nitrous oxide (N(2)O) and isoflurane on the total RNA yield from the cochlea of the rats. Thirty healthy Wistar rats were randomly divided into 3 groups: group C (control group, n=10) with a 3-h unremitting inhalation of 50% O(2), group N (experiment group, n=10) with a continuous inhalation of 50% N(2)O+50% O(2) for 3 h, and group I (experiment group, n=10) with a 3-h sustained inhalation of 2.5% isoflurane. The TRIzol in combination with RNeasy was used to respectively extract the total RNA from cochlea of rats in the 3 groups. Spectrophotometry was used to detect total RNA yield and electrophoresis to detect the quality. The total RNA extracted from the cochlea of the rats in the groups C and N was 7.69 and 6.51 microg, respectively. There was a 15% decrease in the N group as compared with group C. The total RNA from the rats in the group I was 7.32 microg, and there was hardly any change in the group as compared with the group C. The value of A(260)/A(280) in groups C, N and I was 2.07, 2.04 and 2.04, respectively, showing a very high RNA purity. The result of gel electrophoresis suggested that there was no degradation in the total RNA. It was suggested that the interference of N(2)O on the cochlear RNA yield might be one of the reasons which cause an injury of the ear. The isoflurane shows no harm on the hearing.