Leticia Neri-Bazan

Intragastric and intraperitoneal administration of Cry1Ac protoxin from Bacillus thuringiensis induces systemic and mucosal antibody responses in mice

The spore-forming soil bacterium Bacillus thuringiensis produces parasporal inclusion bodies composed by delta-endotoxins also known as Cry proteins, whose resistance to proteolysis, stability in highly alkaline pH and innocuity to vertebrates make them an interesting candidate to carrier of relevant epitopes in vaccines. The purpose of this study was to determine the mucosal and systemic immunogenicity in mice of Cry1Ac protoxin from B. thuringiensis HD73. Crystalline and soluble forms of the protoxin were administered by intraperitoneal or intragastric route and anti-Cry1Ac antibodies of the major isotypes were determined in serum and intestinal fluids. The two forms of Cry1Ac protoxin administered by intraperitoneal route induced a high systemic antibody response, however, only soluble Cry1Ac induced a mucosal response via intragastric. Serum antibody levels were higher than those induced by cholera toxin. Systemic immune responses were attained with doses of soluble Cry1Ac ranging from 0.1 to 100 microg by both routes, and the maximal effect was obtained with the highest doses. High anti-Cry1Ac IgG antibody levels were detected in the large and small intestine fluids from mice receiving the antigen via i.p. These data indicate that Cry1Ac is a potent systemic and mucosal immunogen.

Low frequency stimulation modifies receptor binding in rat brain

Experiments were designed to reproduce the antiepileptic effects of low frequency stimulation (LFS) during the amygdala kindling process and to examine LFS-induced changes in receptor binding levels of different neurotransmitters in normal brain. Male Wistar rats were stereotactically implanted in the right amygdala with a bipolar electrode. Rats (n = 14) received twice daily LFS (15 min train of 1Hz, 0.1 ms at an intensity of 100 to 400 microA) immediately after amygdala kindling stimulation (1s train of 60 Hz biphasic square waves, each 1 ms at amplitude of 200-500 microA) during 20 days. The LFS suppressed epileptogenesis (full attainment of stage V kindling) but not the presence of partial seizures (lower stages of kindling) in 85.7% of the rats. Thereafter, normal rats (n = 7) received amygdala LFS twice daily for 40 trials. Animals were sacrificed 24 h after last stimulation and their brain used for labeling mu opioid, benzodiazepine (BZD), alpha(1)-adrenergic, and adenylyl cyclase binding. Autoradiography experiments revealed increased BZD receptor binding in basolateral amygdala (20.5%) and thalamus (29.3%) ipsilateral to the place of stimulation and in contralateral temporal cortex (18%) as well as decreased values in ipsilateral frontal cortex (24.2%). Concerning mu receptors, LFS decreased binding values in ipsilateral sensorimotor (7.2%) and temporal (5.6%) cortices, dentate gyrus (5.8% ipsi and 6.8% contralateral, respectively), and contralateral CA1 area of dorsal hippocampus (5.5%). LFS did not modify alpha(1) receptor and adenylyl cyclase binding values. These findings suggest that the antiepileptic effects of LFS may involve activation of GABA-BZD and endogenous opioid systems.

Characterization of the mucosal and systemic immune response induced by Cry1Ac protein from Bacillus thuringiensis HD 73 in mice

The present paper describes important features of the immune response induced by the Cry1Ac protein from Bacillus thuringiensis in mice. The kinetics of induction of serum and mucosal antibodies showed an immediate production of anti-Cry1Ac IgM and IgG antibodies in serum after the first immunization with the protoxin by either the intraperitoneal or intragastric route. The antibody fraction in serum and intestinal fluids consisted mainly of IgG1. In addition, plasma cells producing anti-Cry1Ac IgG antibodies in Peyers patches were observed using the solid-phase enzyme-linked immunospot (ELISPOT). Cry1Ac toxin administration induced a strong immune response in serum but in the small intestinal fluids only anti-Cry1Ac IgA antibodies were detected. The data obtained in the present study confirm that the Cry1Ac protoxin is a potent immunogen able to induce a specific immune response in the mucosal tissue, which has not been observed in response to most other proteins.

5-HT1A receptor agonists modify epileptic seizures in three experimental models in rats

The effects of two serotonergic (5-HT1A) receptor agonists (8-OH-DPAT; 0.01, 0.1, 0.3, 1 mg/kg, s.c., and Indorenate; 1, 3, 10 mg/kg, i.p.) were evaluated in three type of seizures in male Wistar rats: clonic-tonic convulsions induced by pentylenetetrazol (PTZ, 60 mg/kg, i.p.), status epilepticus (SE) of limbic seizures produced by kainic acid (KA, 10 mg/kg, i.p.) and tonic-clonic seizures by amygdala kindling. 8-OH-DPAT decreased the incidence of tonic seizures and the mortality rate induced by PTZ. Indorenate increased the latency to the PTZ-induced seizures and decreased the percentage of rats showing tonic extension and death. Concerning KA, 8-OH-DPAT augmented the latency and reduced the frequency of wet-dog shake (WDS) and generalized seizure (GS). At high doses it diminished the occurrence and delayed the establishment of SE. Indorenate augmented the latency to WDS, GS and SE, and diminished the number of GS. 8-OH-DPAT and Indorenate did not alter the expression of kindled seizures. However, Indorenate enhanced the refractoriness to subsequent seizures during the postictal depression. Some effects induced by 8-OH-DPAT and Indorenate on seizures evaluated and postictal depression were fully or partially blocked by WAY100635. These results suggest that 5-HT1A receptor agonists modify epileptic activity depending on the type of seizure.

Behavioral effects of high frequency electrical stimulation of the hippocampus on electrical kindling in rats

Experiments were designed to evaluate the effects of high frequency electrical stimulation (HFS) applied in ventral hippocampus during the hippocampal kindling process, as well as on the expression of fully kindled seizures and the refractoriness for subsequent convulsions during their postictal period. Male Wistar rats, stereotactically implanted in both ventral hippocampus, received daily bilateral HFS (pulses of 60 micros width at 130 Hz at subthreshold current intensity) during 1h immediately after each kindling stimulation (1s train of 60 Hz biphasic square waves, each 1 ms) during 40 days or until the kindled state was achieved. Rats were classified as follows: (a) Responder animals, who required low current intensity for HFS (208+/-38.2 microA), did not show progress of the kindling process and remained in stages II and III seizures. (b) Nonresponders rats, in which the current intensity for HFS was higher (434.5+/-51.7 microA), developed the kindling process as the kindling control group. When HFS was applied before the kindling stimulation in fully kindled rats, animals presented a reduced expression of the fully kindled seizures (nonresponders animals) and an enhanced refractoriness for subsequent seizures during the postictal period (kindling control and nonresponder animals). There was no correlation between the area where the HFS was applied and the effects induced. It was concluded that HFS at 130 Hz in ventral hippocampus is able to modify the epileptogenesis induced by the hippocampal kindling process and the refractoriness to subsequent seizures during the postictal period in rats.

An improved method for long-term measuring of hemolymph fluctuations of non-essential amino acids, GABA and histamine from freely moving crayfish

The microdialysis method was adapted to obtain long-term hemolymph dialysates from the pericardial cavity of freely moving Procambarus clarkii crayfish, to measure fluctuations of non-essential amino acids, GABA and histamine by high-performance liquid chromatography using off-line fluorometric derivatization. Asp, Ala, Tau, GABA and histamine (HA) reached its maximal concentrations at the daybreak, whereas glutamate (Glu), Gln and Gly peaked at the end of the light period. The minimum and maximal detected amounts for each substance along the 24h cycle were (in microM): 20-300Asp, 100-200Glu, 400-700Gln, 400-600Gly, 100-200Tau, 150-300Ala, 2-10 GABA and 25-250HA. Cocktails containing the relative concentration of each amino acid, GABA and histamine resulted in a hyperpolarization that reduced the spontaneous firing of cultured peptidergic X organ neurons. Glu, GABA and histamine evoked a long-lasting hyperpolarization that suppressed the spontaneous firing, whereas Asp, Gly and Tau evoked a depolarization accompanied with neuronal firing. Finally, neither Ala nor Gln modified the resting membrane potential.

Antiepileptic drugs combined with high-frequency electrical stimulation in the ventral hippocampus modify pilocarpine-induced status epilepticus in rats

Purpose:  To evaluate the effects of high‐frequency electrical stimulation (HFS) in both ventral hippocampi, alone and combined with a subeffective dose of antiepileptic drugs, during the status epilepticus (SE) induced by lithium‐pilocarpine (LP).

Indorenate modifies a1-adrenergic and benzodiazepine receptor binding in the rat brain: an autoradiography study.

Indorenate (5‐methoxytryptamine‐β‐methylcarboxylate) is a 5‐HT1A receptor agonist that produces antihypertensive, anxiolytic, antidepressant and anticonvulsant effects. However, there is evidence suggesting that these effects could involve the activation of benzodiazepine (BZD) receptors but not the activation of a1‐adrenergic receptors. The goal of this study was to analyse the effect of indorenate on a1‐adrenergic and BZD receptor binding in specific rat brain areas by using in‐vitro autoradiography. Coronal brain sections from male Wistar rats were used for labelling 5‐HT1A (3H‐8‐OH‐DPAT, 2 nm), a1‐adrenergic (3H‐prazosin, 2 NM) and BZD (3H‐flunitrazepam, 2 NM) receptor binding in the presence or absence of indorenate (1 μm). Indorenate totally displaced 3H‐8‐OH‐DPAT binding in all the brain areas evaluated. It decreased 3H‐prazosin binding just in the frontal (30%) and sensorimotor (32%) cortices and in the thalamus (21%). Additionally, indorenate diminished 3H‐flunitrazepam binding only in the cingulate (10%) and piriform (18%) cortices as well as in the dorsal raphe nucleus (18%). These results confirm that indorenate is a 5‐HT1A ligand and suggest the possible participation of a1‐adrenergic and BZD receptors in its pharmacological properties.

THE ELECTRICAL STIMULATION MODIFIES THE CEREBRAL FUNCTION

Electrical stimulation has been used for therapeuthic purposes. In this review, we present the clinical and scientific bases for using electrical stimulation as a treatment for pharmacological refractory epilepsy. We also describe results in receptors of inhibitory neurotransmitters obtained in rat brain with or without epilepsy, undergoing brain stimulation. Brain electrical stimulation may improve our understanding of brain function and neuroplasticity.