F.F. de Sousa

Effects of lithium, alone or associated with pilocarpine, on muscarinic and dopaminergic receptors and on phosphoinositide metabolism in rat hippocampus and striatum.

The mechanism of action of lithium (Li) alone or with pilocarpine (Pilo), focusing on muscarinic and dopaminergic systems and also on phosphoinositide metabolism was studied. Li (3 mEq/kg) administered to rats once (1 d) or daily for 7 days (7 d), 24 h before Pilo (15 mg/kg), exacerbated cholinergic signs, leading to tremors. convulsions and brain lesions. Increases in muscarinic receptors (MR) of 29 and 49% were observed in the hippocampus after atropine (Atro) and Li-Atro-Pilo treatments, respectively, as compared to controls (Atro) and the Li-Pilo group (Li-Atro-Pilo). In the striatum, except for the 37% increase in the Li-Atro (50 mg/kg)-Pilo group as compared to the Li-Pilo one, no other changes were observed in MR. A decrease of 32% on average in D2-like receptors (D2R) was detected in the hippocampus in the group Li-7d. On the contrary, in the striatum an increase (25%) in the Li-7d group was observed and this effect was blocked by Li-Pilo. As far as inositol phosphates (IP) and phosphatidylinositol-4,5-biphosphate (PIP2) metabolism is concerned, Li caused a decrease (28%) and an increase (60%) in IP and PIP2 accumulations, respectively, in hippocampus slices while Pilo only altered IP accumulation (32% decrease). In this area the association of Li-Atro (10 mg/kg)-Pilo also caused a decrease (36%) in PIP2 as compared to the Li-Pilo group. In striatal slices, except for the Li, Atro (10 mg/kg) and Li-Atro (10 mg/kg)-Pilo groups which showed a decrease (33 40%) in IP accumulation, no other alteration was detected. The potentiation of the effect of Pilo by Li does not seem to depend on the PI metabolism, but instead on its involvement with muscarinic and dopaminergic systems.

Antidepressant-like effect of nitric oxide synthase inhibitors and sildenafil against lipopolysaccharide-induced depressive-like behavior in mice.

Inflammation, oxidative and nitrosative stress underlie depression being assessed in rodents by the systemic administration of lipopolysacharide (LPS). There is an increasing body of evidence of an involvement of nitric oxide (NO) pathway in depression, but this issue was not investigated in LPS-induced model. Thus, herein we evaluated the effects of NO-pathway-modulating drugs, named aminoguanidine, l-NAME, sildenafil and l-arginine, on the behavioral (forced swimming test [FST], sucrose preference [SPT] and prepulse inhibition [PPI] of the startle) and neurochemical (glutathione [GSH], lipid peroxidation, IL-1β) alterations in the prefrontal cortex, hippocampus and striatum as well as in BDNF levels in the hippocampus 24h after LPS (0.5mg/kg, i.p.) administration, a time-point related to depressive-like behavior. Twenty-four hours post LPS there was an increase in immobility time in the FST, decrease in sucrose preference and PPI levels accompanied by a decrease in GSH levels and an increase in lipid peroxidation, IL-1β and hippocampal BDNF levels suggestive of a depressive-like state. The pretreatment with the NOS inhibitors, l-NAME and aminoguanidine as well as sildenafil prevented the behavioral and neurochemical alterations induced by LPS, although sildenafil and l-NAME were not able to prevent the increase in hippocampal BDNF levels induced by LPS. The iNOS inhibitor, aminoguanidine, and imipramine prevented all behavioral and neurochemical alterations induced by LPS. l-arginine did not prevent the alterations in immobility time, sucrose preference and GSH induced by LPS. Taken together our results show that the NO-cGMP pathway is important in the modulation of the depressive-like alterations induced by LPS.

Inhibitory action of a calcium channel blocker (nimodipine) on seizures and brain damage induced by pilocarpine and lithium-pilocarpine in rats

The present work studied the effect of a calcium channel blocker (nimodipine) on rat behavioural changes and brain lesions observed after seizures induced by high doses of pilocarpine (400 mg/kg, s.c.; P400), and the association of lithium (3 mEq/kg, i.p., daily during 7 days) plus pilocarpine (a single dose of 15 mg/kg, s.c.) administered 24 h after the last injection of lithium. In the P400 model, nimodipine (5 or 10 mg/kg, i.p.) inhibited convulsions, status epilepticus, and significantly decreased the percentage of death and cerebral changes (Mann-Whitney, P = 0.0057). In the lithium-pilocarpine (Li-Pi) induced seizures, nimodipine even increased convulsive action and did not interfere with brain lesions. The results suggested that a calcium channel mechanism is involved in the P400 induced seizures, and that there is a difference in the physiopathology of epileptic seizures and brain damage induced by either P400 and Li-Pi models.

Behavioral and Neurochemical Alterations After Lithium–Pilocarpine Administration in Young and Adult Rats: A Comparative Study

Pilocarpine and lithium-pilocarpine can induce seizures and brain damage in adult rats. However, manifestation of cerebral lesions seems to be an age-related phenomenon suggesting that maturational states of neurocircuitry may be involved. We have studied behavior changes, cerebral histopathology, and muscarinic and dopaminergic receptors density in rodents subjected to lithium-pilocarpine treatment. Wistar rats, at two different ages (21 days and 2 months), were treated with pilocarpine (15 mg/kg, SC), lithium (3 mEq/kg, IP), atropine (50 mg/kg, IP) and the combination of lithium to pilocarpine. Histopathologic studies showed that younger animals were more resistant to the development of cerebral changes and there was a preferential involvement of the striatum (Wilcoxon p = 0.02) as opposed to more generalized areas in adult animals such as hippocampus and neocortex. Lithium treatment induced an upregulation of muscarinic receptors at both ages, and this effect was reversed in younger animals after pilocarpine administration. Lithium also induced an upregulation of dopaminergic receptors in the striatum at both ages (p < 0.05), and this effect was not reversed after pilocarpine administration. Our data confirm that young animals show less brain damage after lithium-pilocarpine, and main alterations in dopaminergic receptors density occur in young and older animals after treatment with lithium and lithium combined to a low dose of pilocarpine.

Temperature-dependent vibrational spectroscopic study and DFT calculations of the sorbic acid.

This work reports a temperature-dependent vibrational spectroscopic study of the sorbic acid (C6H8O2), as well as the mode assignment at ambient conditions, based on the density functional theory. Temperature-dependent vibrational properties have been performed in polycrystalline sorbic acid through both Raman and infrared spectroscopy in the 20-300 K and 80-300 K temperature ranges, respectively. These studies present the occurrence of some modifications in the Raman spectra that could be interpreted as a low temperature phase transition undergone by sorbic acid from the monoclinic phase to an unknown phase with conformational change of the molecules in the unit cell.

Low-temperature phase transformation studies in the stearic acid: C form.

This paper reports the temperature-dependent measurements in the C form of stearic acid. Raman scattering, X-ray diffraction, and differential scanning calorimetry measurements were performed at low temperatures. The polarized Raman spectra were measured for temperatures ranging from 8 to 300 K over the spectral range of 30-3000 cm(-1). The spectral changes observed in both the lattice vibrational modes and the internal vibrational modes regions of the Raman spectrum, allowed to identify a phase transition undergone by the stearic acid crystal occurring between 210 and 170 K and a change in the structure continues to be observed down to 8 K. The anharmonicity of some vibrational modes and the possible space groups presented by the crystal at low temperatures were also discussed. Low-temperature X-ray diffraction measurements were performed from 290 to 80 K and the results showed slight changes in the lattice parameters at ∼200 K. Furthermore, the evidence of the phase transformation was provided by the differential scanning calorimetry measurements, which identified an enthalpic anomaly at about 160 K.

Conformational change in the C form of palmitic acid investigated by Raman spectroscopy and X-ray diffraction

Fatty acids are substances found in most living beings in nature. Here we report the effect of the low temperature in the vibrational and structural properties of the C form of palmitic acid, a fatty acid with 16 carbon atoms. The Raman spectra were obtained in the temperature interval from 300 to 18K in the spectral range between 30 and 3100 cm(-1). The assignment of the duly observed bands was done based on the density functional theory. On cooling, the main changes observed in the lattice mode region of the Raman spectra were interpreted as a conformational modification undergone by the palmitic acid molecules in the unit cell. The X-ray diffraction measurements were obtained from 290 to 80K showing a slight modification in the lattice parameters at about 210K. Differential scanning calorimetry (DSC) measurements were recorded between 150 and 300K and no enthalpic anomaly in the DSC thermogram was observed. These techniques provided strong evidence of the conformational change in the molecules of palmitic acid at low temperatures.

Effects of Dopaminergic Agonists and Antagonists on the Muscarinic and Dopaminergic Receptors from Rat Neostriatum

Abstract This work presents the effects of dopaminergic agonists (mazindol 10 mg/kg, p.o., MAZ, and apomorphine 1 mg/kg, i.p., APO) and antagonists (pimozide 20 mg/kg, p.o., PIM, and sulpiride 100 mg/kg, p.o., SUL) on muscarinic (MR) and dopaminergic receptors (DR) in the rat neostriatum from animals treated daily during 7 days. The results (fmol/mg protein) showed that MAZ caused a 37% increase in MR. No effect was observed with PIM but it blocked the effect of MAZ. A 20% increase was seen with SUL. Its association with APO did not alter MR, but blocked MAZ effect. It was also observed that MAZ and APO tended to increase M1-like receptors (283.3 ± 15.18 and 291.9 ± 28.22, respectively), while a decrease was also seen with the association of SUL plus APO (206.2 ± 13.85). On M2-like receptors, an increase was observed with PIM plus MAZ (31.1 ± 1.78) and with APO alone (38.1 ± 1.44). The increase seen with APO was blocked by PIM and SUL (26.2 ± 1.78 and 21.2 ± 0.78, respectively). MAZ increased D2-like receptor (261.6 ± 13.63), and this effect had a tendency to be blocked by PIM and SUL (224.1 ± 18.02 and 226.6 ± 10.88, respectively). Similarly, it increased D1-like receptors (261.0 ± 16.89). A greater effect was seen with PIM plus MAZ (357.6 ± 33.72) or plus APO (307.0 ± 15.40), as related to either one alone (261.0 ± 16.89 and 156.1 ± 17.96, respectively). SUL (142.9 ± 9.95) was devoid of effect, but blocked the effect of MAZ (184.1 ± 6.96). The work showed that dopaminergic agonists and antagonists have the ability to interact with MR and to influence both systems.

Phase transformation in the C form of myristic-acid crystals and DFT calculations

In this study, the vibrational frequencies of myristic acid (CH3(CH2)12COOH) were obtained using density functional theory calculations, and the results were compared with experimental Raman and infrared data. Additionally, Raman spectra of crystalline myristic acid were recorded in the 300-20 K range. Raman spectroscopy gives important insights into the effect of low temperatures on its monoclinic phase. X-ray diffraction was performed from 298 to 133 K to provide additional information about the cryogenic behavior of the crystals. These undergo a phase transformation, which was confirmed by differential scanning calorimetry through an enthalpy anomaly observed at low temperatures. Raman spectra and X-ray diffraction refinement of the cell parameters in combination with differential scanning calorimetry at low temperatures revealed slight modifications, confirming a conformational change in the myristic acid molecules involving rearrangement of dimers within the unit cell.

Pressure induced transformations in sorbic acid

This research reports a pressure dependent Raman study of the sorbic acid between 0.0 and 10.0GPa. The unpolarized Raman spectra were measured in the spectral range of 20-3000cm-1. The high-pressure Raman scattering study of the sorbic acid showed that it underwent a gradual, disordering process. At the room temperature and at the ambient pressure conditions, the crystal structure of the sorbic acid belongs to the monoclinic system with a C2/c (C2h6) space group. The pressure increase induced a higher disorder in the monoclinic unit cell, since a single bending mode, and only very broad stretching Raman modes are present at pressure of ~10GPa. Upon pressure release the high-pressure phase transforms directly into the ambient-pressure phase. The presence of the internal vibrational modes is a guarantee that the molecular structure is maintained. Beyond this, the presence of external modes shows that the crystal has a memory to reverse the process and suggest that the crystal, which was in high disorder (broad Raman bands), does not suffer decomposition in the crystalline structure. The DFT calculations for the sorbic acid were performed in order to understand the vibrational properties. The theoretical study showed that the volume of the unit cell and beta angle decrease significatively when passing from the 0.0GPa to 8.0GPa. The decreases in the volume and beta angle of this particular unit cell were supposed to induce the larger increase in the bandwidths of the observed bands, pointing to some disorder in the monoclinic phase.