Effects of testosterone and growth hormone on long-term retention and extinction of a passive avoidance response in young and aged rats.

Wistar rats were divided into two blocks: young and aged. Each block was then randomly divided into the following groups: (1) Control (saline solution), (2) Growth Hormone (GH), (3) Testosterone enanthate, and (4) GH plus testosterone enanthate. Animals were trained on a one-trial passive avoidance conditioning and tested for retention 24 h after training and thereafter twice a week until the extinction response occurred. Results showed that GH, testosterone, and GH plus testosterone improved long-term memory in young rats. Both GH and testosterone delayed the extinction process in young and aged rats. The GH-testosterone interaction delayed the extinction only in young rats.

Effects of different ozone doses on memory, motor activity and lipid peroxidation levels, in rats.

Ozone is one of the main atmospheric pollutants. Its inhalation causes an increase in free radicals, when these free radicals are not compensated by antioxidants, it leads to an oxidative stress state. This oxidative stress state has been implicated in neurodegenerative processes. To determine the effects of oxidative stress caused by exposure to ozone on memory and motor activity, we used 120 male Wistar rats exposed to one of the following ozone doses, (0.0, 0.1, 0.4, 0.7, 1.1 and 1.5 ppm), for four hours. After ozone exposure, short and long term memory of a one trial passive avoidance test were measured, and motor activity was registered for five minutes, in 10 rats of each group. In 16 rats exposed to 0.0, 0.4, 0.7 or 1.1 ppm lipid peroxidation levels from frontal cortex, hippocampus, striatum and cerebellum, were measured. Results show that ozone, causes memory impairment from doses of 0.7 ppm, decrease in motor activity from doses of 1.1 ppm, and increase in lipid peroxidation levels from doses of 0.4 ppm. that increase with the dose.

Effects of taurine on ozone-induced memory deficits and lipid peroxidation levels in brains of young, mature, and old rats.

To determine the antioxidant effects of taurine on changes in memory and lipid peroxidation levels in brain caused by exposure to ozone, we carried out two experiments. In the first experiment, 150 rats were separated into three experimental blocks (young, mature, and old) with five groups each and received one of the following treatments: control, taurine, ozone, taurine before ozone, and taurine after ozone. Ozone exposure was 0.7-0.8 ppm for 4 h and taurine was administered ip at 43 mg/kg, after or before ozone exposure. Subsequently, rats were tested in passive avoidance conditioning. In the second experiment, samples from frontal cortex, hippocampus, striatum, and cerebellum were obtained from 60 rats (young and old), using the same treatments with 1 ppm ozone. Results show both an impairment in short-term and long-term memory with ozone and an improvement with taurine after ozone exposure, depending on age. In contrast to young rats, old rats showed peroxidation in all control groups and an improvement in memory with taurine. When taurine was applied before ozone, we found high peroxidation levels in the frontal cortex of old rats and the hippocampus of young rats; in the striatum, peroxidation caused by ozone was blocked when taurine was applied either before or after ozone exposure.

Effects of vitamin E on ozone-induced memory deficits and lipid peroxidation in rats.

Ozone exposure induces increased production of free radicals which may result in oxidative stress. The objectives of this study were to determine the antioxidant effects of vitamin E on memory deficits and lipid peroxidation due to oxidative stress caused by acute ozone exposure. Rats were exposed to 0.7 p.p.m. ozone for 4 h and 50 mg/kg vitamin E was administered either before or after exposure. Experiment 1 evaluated alterations in short-term and long-term memory in a passive avoidance task. Experiment 2 quantified lipid peroxidation levels of the striatum, hippocampus and frontal cortex. Vitamin E administered before or after ozone exposure blocked memory deterioration and increases in lipid peroxidation levels associated with oxidative stress.

Modulation of long-term memory and extinction responses induced by growth hormone (GH) and growth hormone releasing hormone (GHRH) in rats.

The purpose of this work is to study the participation of growth hormone (GH) and growth hormone releasing hormone (GHRH) in the modulation of long-term memory and the extinction response of a passive avoidance task in rats. However, the effect on memory vary according to the age of the animals due to plasma levels of either hormone being modified during the aging process. Male Wistar rats were divided according to age into two experimental blocks (young rats 3 months old and aged rats 24 months old at the start of the experiment) where each block received the same treatment. Each experimental block was then divided randomly into three groups where two were experimental and the other served as control. The animals were then submitted to a one-trial passive avoidance conditioning and tested for memory retention 24 hrs after as well as twice a week until the extinction response occurred. The control group received an isotonic saline solution and the other two groups received 0.8 U.I. of GH or 4 mcg of GHRH respectively. All substances were in a 0.08 ml volume and applied 24 hrs before training as well as 24 hrs before each retention session. The results indicate that GH and GHRH modulate long-term memory as well as the extinction response and in either case the response seems to vary with age. GH and GHRH facilitates long-term memory in young rats but not in aged rats. Finally, whereas GH delays the extinction response in both groups, GHRH retards the extinction only in aged rats.