20230808-AI coding-1st round/307 – Kong 2011.txt

PMID: 21930122 DOI: 10.1016/j.ejphar.2011.08.050
2. Materials and methods
2.1. Animals
All of the animals were treated according to the guidelines of the Guide for the Care and Use of Laboratory Animals (China Ministry of Health). The Laboratory Animal Care Committee of Zhejiang University approved all experimental procedures and protocols. All efforts were made to minimize the number of animals used and their suffering. The dams were housed in polypropylene cages, and the room temperature was maintained at 22 °C, with a 12-hour light–dark cycle. The dams at gestational day 14 were used for all experiments, because this time corresponds approximately to midgestation in humans (Clancy et al., 2001, Clancy et al., 2007), the period when most nonobstetric surgeries and fetal interventions are performed (Goodman, 2002, Tran, 2010).

2.2. Anesthesia exposure
Ten dams were randomly divided into a control and an isoflurane group (n = 5). The dams were placed in plastic containers resting in water baths with a constant temperature of 38 °C. In these boxes, the dams were either exposed to 1.3% isoflurane (Lot 826005U, ABBOTT, USA) in a humidified 30% oxygen carrier gas or simply humidified 30% oxygen without any inhalational anesthetic for 4 h. We chose 1.3% as the anesthetic concentration because it represents 1 minimum alveolar concentration (MAC) in the pregnant rats (Mazze et al., 1985). The determination of anesthetic duration based on our preliminary study which indicated that maternal physiological states remained stable throughout a 4-hour isoflurane exposure. The isoflurane concentration in the box was monitored with an agent gas monitor (Vamos, Drager Medical AG & Co. KgaA). Otherwise, control and experimental animals were under the same treatment and environment. During isoflurane anesthesia, arterial blood gases and blood glucose were measured at the end of the 4-hour anesthetic exposure. The rectal temperature was maintained at 37 ± 0.5 °C. After exposure, the dams were returned to their cages and allowed to deliver naturally. The postnatal body weights of the rat pups were monitored.

2.3. Memory and learning studies
Four rat pups (2 females and 2 males) from each dam were selected to determine cognitive function at postnatal day 28 with a Morris Water Maze test with minor modifications (Jevtovic-Todorovic et al., 2003). A round pool (diameter, 150 cm; depth, 50 cm) was filled with warm (24 °C) opaque water to a height of 1.5 cm above the top of the movable clear 15-cm-diameter platform in the third quadrant. A video tracking system recorded the swimming motions of animals, and the data were analyzed using motion-detection software for the Morris Water Maze (Actimetrics Software, Evanston, IL, USA). After every trial, each rat was wiped before returning to its regular cage, keeping warm and free diet.

2.3.1. Place trials
The place trials were performed at postnatal day 29 for 4 days to determine the rats' ability to obtain spatial information. At postnatal day 28, the rats were made to know the existence of the platform through a 30-second swimming training. A dark black curtain surrounded the pool to prevent confounding visual cues. All rats received 4 trials per day in each of the four quadrants of the swimming pool. On each trial, rats were placed in a fixed position into the swimming pool facing the wall. They were allotted 120 s to find the platform upon which they sat for 20 s before being removed from the pool. If a rat did not find the platform within 120 s, the rat was gently guided to the platform and allowed to remain there for 20 s. For all training trials, swim speed and the time to reach the platform (escape latency) were recorded. The less time it took a rat to reach the platform, the better the learning ability. We took the average of four trials as the escape latency each day.

2.3.2. Probe trials
Probe trials were conducted immediately after the four-day period to evaluate memory retention capabilities. The probe trials involved removing the submerged platform from the pool and allowing the rats to swim for 120 s in any of the four quadrants of the swimming pool. Time spent in the third quadrant and the number of original platform crossing in the third quadrant was recorded.

2.4. Transmission electron microscopy
After the Morris Water Maze test, three pups per group were anesthetized with a lethal dose of Nembutal. The thoracic cavities were opened and perfused intracardially with 100 mL of normal saline. Then the hippocampus, including CA1 and dentate gyrus area, of each rat was taken out immediately. Immersion fixation was completed on tissues about 1 mm3 from the hippocampus. Samples were rinsed in cold phosphate-buffered saline (PBS) and placed in 2.5% glutaraldehyde at 4 °C for 4 h. The tissue was rinsed in buffer and post-fixed with 1% osmium tetroxide for 1 h. Then, the tissue was rinsed with distilled water before undergoing a graded ethanol dehydration series and was infiltrated using a mixture of half propylene oxide and half resin overnight. Twenty-four hours later, the tissue was embedded in resin. 120 nm sections were cut and stained with 4% uranyl acetate for 20 min and 0.5% lead citrate for 5 min. Ultrastructure changes of synapse in the hippocampus were observed under a transmission electron microscope (Phliphs Tecnai 10, Holland).

2.5. Tissue section preparation
After the Morris Water Maze test, two pups from each dam were anesthetized by intraperitoneal injection of a lethal dose of Nembutal. The aorta was cannulated and the animal was firstly perfused with 200 mL of normal saline, then with 250 mL of 4% formaldehyde (freshly made from paraformaldehyde) for 20–30 min. The fixed brain was then removed from the cranial cavity and post-fixed overnight in the same fixative at 4 °C. The tissues were embedded in paraffin, and transverse paraffin sections containing the hippocampal area (5 mm thick) were mounted on silanecoated slides. Sections were deparaffinaged and rehydrated. Then the sections were treated for antigen retrieval with 10.2 mmol/L sodium citrate buffer, pH 6.1, for 20 min at 95 °C for immunohistochemistry.

2.6. Immunohistochemistry analysis
The sections mentioned above were washed in 0.01 M PBS containing 0.3% Triton X-100 (pH 7.4, PBS-T), followed by blocking in 5% normal goat serum in 0.01 M PBS. The sections were then incubated in the primary antibodies rabbit polyclonal against anti-CHOP or caspase-12 (1:100, Santa Cruz Biotechnology, USA) overnight at 4 °C. After a thorough wash in PBS, sections were incubated with biotinylated goat anti-rabbit IgG antibody (1:200, Boster, China) for 2 h at room temperature, followed by avidin–biotin–peroxidase complex solution (ABC, 1:100, Boster) for 2 h at room temperature. Immunolabeling was visualized with 0.05% diaminobenzdine (DAB) plus 0.3% H2O2 in PBS and the reaction was stopped by rinsing the slides with 0.2 M Tris–HCl. Sections were mounted onto 0.02% poly-l-lysine-coated slides and allowed to dry at room temperature. Then the sections were dehydrated through a graded series of alcohols, cleared in xylene and finally coverslipped. Rat Immunoglobulin IgG (1:200, Biomeda Corporation, USA) was used instead of primary antibody as a negative control. Three sections from each animal were selected at random and images were photographed under 400× magnification in 3 visual fields/per section, the CHOP and caspase-12 positive neurons were counted in the same area. The optical densities of CHOP and caspase-12 positive neurons were measured quantitatively using NIH image software (ImageJ, National Institutes of Health, Bethesda, MD).

2.7. Western blot analysis
After Morris Water Maze test, two pups from each pregnant mother were anesthetized with a lethal dose of Nembutal. Then their thoracic cavities were opened and perfused intracardially with 100 mL of normal saline. Hippocampus, including CA1 and dentate gyrus field, of each rat was taken out immediately to obtain fresh tissue specimens. Protein concentration was determined by the BCA method using bovine serum albumin as the standard. Protein samples (50 μg) were separated by 12% sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) and transferred to a nitrocellulose membrane. The membranes were blocked by nonfat dry milk buffer for 2 h and then incubated overnight at 4 °C with primary antibody against CHOP or caspase-12 (1:500, Santa Cruz Biotechnology, USA). The membranes were subsequently incubated with horseradish peroxidase-conjugated secondary antibodies and developed with ECL kit. The optical densities of bands were quantitatively analyzed using Bio-Rad Quantity One 4.6.2 (Bio-Rad Laboratories, USA). The results were expressed as a relative density. Equal protein loading in each lane was confirmed by hybridization with a 1:2000 dilution of β-actin antibody (Santa Cruz Biotechnology, USA).

2.8. Statistical analysis
All data were presented as mean ± S.E.M. Results of weight of postnatal rat pups and place trials of postnatal rats were analyzed using 2-way ANOVA for repeated measurements. Other data were analyzed using Student's t-test for comparison of two groups. A P value of < 0.05 was considered statistically significant. All statistical tests and graphs were performed or generated, respectively, using GraphPad Prism Version 4.0 (GraphPad Prism Software, Inc. CA, USA).