Progesterone treatment in rats after severe global cerebral ischemia promotes hippocampal dentate gyrus neurogenesis and functional recovery.

Objective: Rats treated with progesterone (P4) after ischemia show an adequate functional performance despite a significant loss of hippocampal pyramidal neurons, suggesting that P4 could favour a permissive microenvironment for cerebral plasticity mechanisms. The possibility of P4 treatment promoting the survival of newly generated hippocampal neurons, in relation to the performance of ischemic rats in a spatial learning task, was assessed in this study.

Methods: Adult male rats were subjected to a severe global cerebral ischemia episode (30 min) and treated with P4 or its vehicle at 15 min, 2, 6, 24, 48 and 72 h of reperfusion.

Effects of progesterone on neurite growth inhibitors in the hippocampus following global cerebral ischemia.

In this study, the effects of progesterone (P4) on the immunoreactivity to the neurite growth inhibitor Nogo-A, its receptor (Ng-R), and its effector Rho-A in the rat hippocampus, in association with parameters of spatial learning and memory following global cerebral ischemia, were assessed. Adult male rats were subjected to global cerebral ischemia (15 min), and treated with P4 or its vehicle at 15 min, 2, 6, 24, 48 and 72 h of reperfusion. Immunoreactivity to Nogo-A, Ng-R, and Rho-A was evaluated at 24 h, 72 h or 7 d, or at 14 d of reperfusion after rats were tested in the Morris Water Maze (MWM).

Post-ischemic administration of progesterone reduces caspase-3 activation and DNA fragmentation in the hippocampus following global cerebral ischemia.

Delayed death of hippocampal CA1 pyramidal neurons following global cerebral ischemia/reperfusion may be mediated, in part, by caspase-3 activation resulting in DNA fragmentation. Progesterone (P4) is known to exert neuroprotective effects in several models of brain injury. This study was designed to assess the effect of P4 on caspase-3 levels and activation, and DNA fragmentation in the hippocampus following global cerebral ischemia/reperfusion.

Cytoarchitectural characteristics of hippocampal CA1 pyramidal neurons of rats, four months after global cerebral ischemia and progesterone treatment.

Purpose: To analyze the cytoarchitectural characteristics of the remaining pyramidal neurons in the hippocampal CA1 subfield of rats, four months after global cerebral ischemia (GCI) and progesterone treatment.

Methods: Dendritic arborization, and density and shape of the dendritic spines of CA1 pyramidal neurons in brains of intact rats, or rats submitted 120 days earlier to GCI and treatment with progesterone (8 mg/kg) or its vehicle, at 15 min, and 2, 6, 24, 48, and 72 h after the onset of reperfusion, were analyzed in samples processed by a modified Golgi method.

Results: Few impregnated CA1 pyramidal neurons were identified in the ischemic vehicle-treated rats, with a short apical dendrite devoid of bifurcations and dendritic spines.

Neuroprotective effects of progesterone and allopregnanolone on long-term cognitive outcome after global cerebral ischemia.

Purpose: To assess the longterm neuroprotective effects of progesterone (P₄) and allopregnanolone (ALLO) on functional and morphological parameters of the integrity of the hippocampus, after global cerebral ischemia.

Methods: Adult male Sprague-Dawley rats were subjected to a transient severe (20 min) forebrain ischemia (Isch) episode and treated with P₄ or ALLO (8 mg/kg i.v.

Long-term evaluation of cytoarchitectonic characteristics of prefrontal cortex pyramidal neurons, following global cerebral ischemia and neuroprotective melatonin treatment, in rats.

Global cerebral ischemia induces alterations of working memory, as evidenced in the eight-arm radial maze, in the absence of significant changes of pyramidal neuron population in the prefrontal cortex. These alterations can be prevented by a neuroprotective melatonin treatment. Thus, the cytoarchitectonic characteristics of the pyramidal neurons located at layers III and V in the prefrontal cortex of rats that had been submitted 120 days earlier to acute global cerebral ischemia (15 min four-vessel occlusion), and melatonin (10 mg/(kgh) for 6h, i.

Melatonin and ischemia-reperfusion injury of the brain.

This review summarizes the reports that have documented the neuroprotective effects of melatonin against ischemia/reperfusion brain injury. The studies were carried out on several species, using models of acute focal or global cerebral ischemia under different treatment schedules. The neuroprotective actions of melatonin were observed during critical evolving periods for cell processes of immediate or delayed neuronal death and brain injury, early after the ischemia/reperfusion episode.

Long-term study of dendritic spines from hippocampal CA1 pyramidal cells, after neuroprotective melatonin treatment following global cerebral ischemia in rats.

Melatonin reduces pyramidal neuronal death in the hippocampus and prevents the impairment of place learning and memory in the Morris water maze, otherwise occurring following global cerebral ischemia. The cytoarchitectonic characteristics of the hippocampal CA1 remaining pyramidal neurons in brains of rats submitted 120 days earlier to acute global cerebral ischemia (15-min four vessel occlusion, and melatonin 10mg/(kg h 6h), i.v.

Long-term morphological and functional evaluation of the neuroprotective effects of post-ischemic treatment with melatonin in rats.

Consensus on neuroprotection has pointed out the relevance of the long-term morphological and functional evaluation of the effectiveness of putative neuroprotective procedures. In the present study, place learning (Morris water maze) and working memory (eight-arm Olton radial maze) were evaluated in adult male rats 90 days after 15 min of global cerebral ischemia (four-vessel occlusion) followed by continuous i.v.

Post-ischemic administration of progesterone in rats exerts neuroprotective effects on the hippocampus.

Progesterone is neuroprotective in models of focal or global ischemia when treatment starts either before the insult or at the onset of reperfusion. In these cases the steroid may act during the occurrence of the early pathophysiological events triggered by ischemia or reperfusion. As opposed to this condition, the aim of the present study was to assess the effect of delayed, post-injury administration of progesterone on the preservation of pyramidal neurons of the hippocampus of rats 21 days after been exposed to global ischemia by the four vessel occlusion model.

Detailed analysis of the male copulatory motor pattern in mammals: hormonal bases.

Data obtained, using a polygraphic technique, on the characteristics of the motor and genital copulatory responses of male rabbits, rats, mice, hamsters, and guinea pigs are reviewed. This methodology provided detailed information, not accessible to other analyses, on the frequency and dynamic organization of copulatory pelvic thrusting trains of the species studied. This comparative analysis showed that: (1) The male rat may display two types of ejaculatory responses, differing in the dynamic organization of the pelvic thrusting train, and in the duration of the intravaginal thrusting period preceding ejaculation.

Neuroprotective effects of progesterone on damage elicited by acute global cerebral ischemia in neurons of the caudate nucleus.

Background: In addition to the hippocampus, the dorsolateral caudate nucleus (CN) and the pars reticularis of the substantia nigra (SNr) are among the most vulnerable brain areas to ischemia. A possible association of the neuronal injury in these two subcortical nuclei has been proposed, the primary damage affecting the CN GABAergic neurons innervating the SNr, and secondarily the SNr neurons as a result of an imbalance of GABAergic and glutamatergic input to the SNr. Progesterone (P(4)) exerts a GABAergic action on the central nervous system (CNS) and is known to protect neurons in the cat hippocampus from the damaging effect of acute global cerebral ischemia (AGCI).