Isoflurane inhibited neurogenesis and induced subsequent neurocognitive deficits in developing brain. Simvastatin exerts neuroprotection in a wide range of brain injury models. In the present study, we investigated whether simvastatin could attenuate neurogenetic inhibition and cognitive deficits induced by isoflurane exposure in neonatal rats.Sprague-Dawley rats at postnatal day (PND) 7 and neural stem cells (NSCs) were treated with either gas mixture, isoflurane, or simvastatin 60 min prior to isoflurane exposure, respectively. The rats were decapitated at PND 8 and PND 10 for detection of neurogenesis in the subventricular zone (SVZ) and subgranular zone (SGZ) of the hippocampus by immunostaining. NSC proliferation, viability and apoptosis were assessed by immunohistochemistry, CCK-8 and TUNEL, respectively. The protein expressions of caspase-3, p-Akt and p-GSK-3β both in vivo and vitro were assessed by western blotting. Cognitive functions were assessed by Morris Water Maze test and context fear conditioning test at the adult.Isoflurane exposure inhibited neurogenesis in the SVZ and SGZ, decreased NSC proliferation and viability, promoted NSC apoptosis and led to late cognitive deficits. Furthermore, isoflurane increased caspase-3 expression and decreased protein expressions of p-Akt and p-GSK-3β both in vivo and in vitro. Pretreatment with simvastatin attenuated isoflurane-elicited changes in NSCs and cognitive function. Co-treatment with LY294002 reversed the effect of simvastatin on NSCs in vitro.We for the first time showed that simvastatin, by upregulating Akt/GSK-3β signaling pathway, alleviated isoflurane-induced neurogenetic damage and neurocognitive deficits in developing rat brain.
1. The aim was to evaluate the prodrug hypothesis by investigating the pharmacokinetics of ZJM-289 and its pharmacological metabolite 3-n-butylphthalide (NBP) in Sprague-Dawley rats and Beagle dogs following intravenous and intragastric administration of ZJM-289. The in vitro metabolic patterns in plasma and microsomal system were assessed to elucidate PK properties.2. In rats, ZJM-289 was eliminated rapidly (t1/2 = 19.2 ± 3.85 min), along with the fast formation of NBP (formation rate constant ka = 0.29 ± 0.092 min–1 for intravenous group, and ka = 0.16 ± 0.064 min−1 for intragastric group), accounting for about 47.4 ± 4.0% of ZJM-289. Both ZJM-289 (t1/2 = 239 ± 70.4 min) and NBP (t1/2 = 249 ± 39.0 min) were depleted slowly in Beagle dogs, with NBP formation rate constant at 0.12 ± 0.052 min−1 (ka = 0.15 ± 0.040 min−1 for intragastric group).3. In rat plasma, ZJM-289 was degraded rapidly (t1/2 = 24.3 ± 0.93 min) at 37 °C, but remained stable with almost no cleavage in dog and human plasma. In hepatic microsomes from rat, dog and human, the hydrolysis metabolites including the active metabolite NBP (M5), and their subsequent hydroxylation and conjugate metabolite, were all detected but varied greatly in the quantities.4. The findings testified the prodrug design hypothesis that ZJM-289 could be hydrolyzed to NBP. The pharmacokinetic profiles in both rats and dogs brought useful information in the pharmacokinetics prediction in human.
Ninhydrin-based fluorometric quantification of phenylalanine is one of the most widely used methods for hyperphenylalaninemia (HPA) screening in neonates due to its high sensitivity, high accuracy, and low cost. Here we report an increase of false positive cases in neonatal HPA screening with this method, caused by contamination of blood specimen collection devices during the printing process. Through multiple steps of verification, the contaminants were identified from ink circles printed on the collection devices to indicate the positions and sizes of blood drops. Blood specimens from HPA-negative persons collected on these contaminated collection devices showed positive results in the fluorometric tests, but negative results in tandem mass spectroscopy (MS/MS) experiments. Contaminants on the collection devices could be extracted by 80% ethanol and showed an absorption peak around 245 nm, suggesting that these contaminants may contain benzene derivatives with similar structure to phenylalanine. High-performance liquid chromatography (HPLC) analysis of the ethanol extracts from contaminated collection devices identified two prominent peaks specifically from the devices. Methyl-2-benzoylbenzoate (MBB, CAS#606-28-0) was found as one of the major chemicals from contaminated collection devices. This report aims to remind colleagues in the field of this potential contamination and call for tighter regulation and quality control of specimen collection devices.
Exploring a strategy to effectively repair cerebral ischemic injury is a critical requirement for neuroregeneration. Herein, we transplanted a neural stem cell (NSC)-laden self-healing and injectable hydrogel into the brains of ischemic rats and evaluated its therapeutic effects. We observed an improvement in neurological functions in rats transplanted with the NSC-laden hydrogel. This strategy is sufficiently efficient to support neuroregeneration evidenced by NSC proliferation, differentiation, and athletic movement recovery of rats. This therapeutic effect relates to the inhibition of the astrocyte reaction and the increased expression of vascular endothelial growth factor. This work provides a novel approach to repair cerebral ischemic injury.
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