The kynurenate analog SZR-72 prevents the nitroglycerol-induced increase of c-fos immunoreactivity in the rat caudal trigeminal nucleus: comparative studies of the effects of SZR-72 and kynurenic acid.

Administration of nitroglycerol in a migraine model results in an increased number of c-fos-expressing secondary sensory neurons in the caudal trigeminal nucleus. Since synapses between first- and second-order trigeminal neurons are mediated by excitatory amino acids, NMDA receptors are inhibited by kynurenic acid, though this crosses the blood-brain barrier only poorly. Systemic treatment of rats with SZR-72, a newly synthetized kynurenic acid analog, diminished the nitroglycerol-induced increase of c-fos immunoreactivity in the brain stem highly significantly, while treatment with kynurenic acid resulted in a significantly smaller decrease, proving that SZR-72 is much more effective than kynurenic acid.

Kinetics of the cellular immune response following closed head injury.

BACKGROUND: The contribution of brain edema to brain swelling in cases of traumatic brain injury (TBI) remains a critical problem. We believe that inflammatory reactions may play a fundamental role in brain swelling following a head injury. Although possible roles of microglia activation and the release of mediators have been suggested, direct evidence of cellular immune reactivity in diffuse brain injury following closed head trauma is lacking. Accordingly, the objective of this study was to assess the temporal pattern of microglia activation and lymphocyte migration in an experimental model of TBI. METHOD: An impact acceleration TBI model was utilized to induce diffuse brain damage in adult Wistar rats. The animals were separated into three groups: unoperated controls, sham-operated controls and trauma group. At various times after TBI induction (5 min-24 h), rats were perfused transcardially. Sagittal brain sections were analyzed with immunohistochemical markers of CD3 to reveal the presence of T-lymphocytes, and by immunochemistry for the detection of CD11b to reveal microglia activation within the brain parenchyma. FINDINGS: In the control groups, scattered T-cells were found in the brain parenchyma. In the trauma group, TBI induced microglia activation and a transient biphasic T-cell infiltration of the brain parenchyma in all regions was found, beginning as early as 30 min post injury and reaching its maximum values at 45 min and 3 h after trauma induction. CONCLUSION: These results lead us to suggest that the acute response to severe head trauma with early edema formation is likely to be associated with inflammatory events which might be triggered by activated microglia and infiltrating lymphocytes. It is difficult to overestimate the clinical significance of these observations, as the early and targeted treatment of patients with severe head injuries with immunosuppressive medication may result in a far more favorable outcome.

Decreased expression of kynurenine aminotransferase-I (KAT-I) in the substantia nigra of mice after 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) treatment.

Nerve cells in the substantia nigra pars compacta (SNPC) are known to express tyrosine hydroxylase (TH). By means of light and electron microscopical immunohistochemical techniques, we have shown that the dopaminergic neurons of SNPC express also kynurenine aminotransferase (KAT-I), the enzyme taking part in the formation of kynurenic acid, a neuroprotectant which is one of the endogeneous antagonists of N-methyl-d-aspartate receptors. It was also found that microglial cells and astrocytes express KAT-I. It has been shown that the highly selective dopaminergic neurotoxin 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP), widely used as a model of Parkinson's disease (PD), affects not only TH of dopaminergic neurons in the SNPC but also their KAT-I immunoreactivity as well: MPTP treatment decreased the number and optical density of KAT-I immunoreactive SNPC neurons. Decrease of KAT-I after MPTP treatment has been proved also by Western blot analysis. MPTP also reduced KAT-I immunoreactivity of microglial cells, except for those involved in reactive gliosis, which were arranged in groups surrounding affected neurons of the SNPC; also the number of KAT-I immunoreactive (IR) astroglial cells was increased in SNPC. We conclude that MPTP treatment may have a dual effect: in addition to being deleterious for neurons expressing TH and KAT-I, it also affects glial cells which could exacerbate the neurodegenerative process characterizing PD.

Time-dependent distribution and neuronal localization of c-fos protein in the rat hippocampus following 4-aminopyridine seizures.

The immunohistochemical localization of c-fos protein in the CNS neurons was studied in a model of generalized epilepsy induced by the intraperitoneal injection of 4-aminopyridine to adult Wistar rats. This specific blocker of the voltage-dependent potassium channels proved to be suitable for use in the investigation of epileptogenesis. Following the treatment of adult rats with 5 mg kg of 4-aminopyridine, the animals experienced generalized seizures. At the end of the experiment, the rats were briefly anesthetized and perfused with fixative. Frozen coronal plane sections were cut and processed for immunohistochemistry, using polyclonal c-fos antibody. The number and distribution of immunostained cell nuclei in the hippocampus were analyzed in detail with the help of a digital microscope camera and a morphometry program. The highest level of immunostaining was detected in most of the structures at 3 h, but the level had decreased to the control level by 5 h following 4-aminopyridine injection. In the dentate fascia, immunostaining was highest at 1 h and then decreased slowly until 5 h post-injection. The activated neuronal assemblies were analyzed with the aid of parvalbumin c-fos double immunostaining. These countings revealed the highest inhibitory interneuronal activation in every part of the hippocampus (including the dentate fascia) at 3 h post-injection. The results indicate that systemic 4-aminopyridine induces limbic seizures, which are probably initiated in the entorhinal cortex.

Kynurenine in combination with probenecid mitigates the stimulation-induced increase of c-fos immunoreactivity of the rat caudal trigeminal nucleus in an experimental migraine model.

Nitroglycerin, often used as a migraine model, results in increased number of c-fos immunoreactive secondary sensory neurons in the caudal trigeminal nucleus. Since synapses between first- and second-order trigeminal neurons are mediated by excitatory amino acids, NMDA receptors are presumably inhibited by kynurenic acid, the only known endogeneous NMDA receptor antagonist. Although kynurenic acid does not cross the BBB, its precursor, kynurenine, if combined with probenecid, crosses it readily. Systemic kynurenine + probenecid treatment significantly diminishes nitroglycerin-induced increase of c-fos immunoreactivity in the brainstem.