Víctor Pérez-Álvarez

Kupffer cells inhibition prevents hepatic lipid peroxidation and damage induced by carbon tetrachloride.

The aim of this work was to determine if the action mechanism of gadolinium on CCl(4)-induced liver damage is by preventing lipid peroxidation (that may be induced by Kupffer cells) and its effects on liver carbohydrate metabolism. Four groups of rats were treated with CCl(4), CCl(4)+GdCl(3), GdCl(3), and vehicles. CCl(4) was given orally (0.4 g 100 g(-1) body wt.) and GdCl(3) (0.20 g 100 g(-1) body wt.) was administered i.p. All the animals were killed 24 h after treatment with CCl(4) or vehicle. Glycogen and lipid peroxidation were measured in liver. Alkaline phosphatase, gamma-glutamyl transpeptidase, alanine amino transferase activities and bilirubins were measured in rat serum. A liver histological analysis was performed. CCl(4) induced significant elevations on enzyme activities and bilirubins; GdCl(3) completely prevented this effect. Liver lipid peroxidation increased 2.5-fold by CCl(4) treatment; this effect was also prevented by GdCl(3). Glycogen stores were depleted by acute intoxication with CCl(4). However, GdCl(3) did not prevent this effect. The present study shows that Kupffer cells may be responsible for liver damage induced by carbon tetrachloride and that lipid peroxidation is produced or stimulated by Kupffer cells, since their inhibition with GdCl(3) prevented both lipid peroxidation and CCl(4)-induced liver injury.

Synthesis and biological evaluation of (-)- and (+)-debromoflustramine B and its analogues as selective butyrylcholinesterase inhibitors.

A series of pyrrolidinoindolines have been synthesized as debromoflustramine B (4a) analogues for their evaluation as cholinesterase inhibitors. Structure-activity studies of this series revealed the optimum pharmacophoric elements required for activity and resulted in the discovery of selective butyrylcholinesterase inhibitors with micromolar potency. Biological testing demonstrated that (-)-4a was 7500 times more potent than its enantiomer (+)-4b. The most active inhibitor against BChE in the series was demethyldebromoflustramine B (5a), with an IC50 value of 0.26 microM. X-ray crystallography of 15 and docking studies of selected compounds into human BChE (PDB 1POI) are presented. Molecular modeling studies showed that pi-hydrogen bond, classical hydrogen bond, and cation-pi interactions are critical for optimum potency.

Trans-3-Phenyl-2-Propenoic Acid (Cinnamic Acid) Derivatives: Structure-Activity Relationship as Hepatoprotective Agents

Among various phenolic compounds, caffeic acid (3,4-dihydroxycinnamic acid) exhibited pharmacological antioxidant, anticancer and antimutagenic activities. The antioxidant properties of phenolic compounds depend on their chemical structure, however, the role of the ethylenic side chain in the radical scavenging activity remains controversial. Thus, the aim of this study consisted to test cinnamic acid and 15 cinnamic acid derivatives in the well known CCl(4)-induced acute liver damage model, which is dependent on oxidative stress mechanisms. Cinnamic acid and 15 cinnamic acid derivatives (50 mg/kg, p.o.) were administered to male Wistar rats intoxicated with CCl(4) (4 g/kg, p.o.). The activities of gamma-glutamyl transpeptidase, alkaline phosphatase and alanine aminotransferase were measured in serum. The lipid peroxidation products were determined in liver. Compounds with a methoxy group at position 3 or 4, or a 3,4-methylenedioxy moiety were the most active ones. Also, we observed that the monosubstituted 3 or 4 hydroxy, or the bulky 3,4 dibenzyloxy substituted compounds showed lower activity. The poorest activity was displayed by disubstituted 3,4-dihydroxy, dimethoxy or diacetyl cinnamic acid derivatives, the ester derived from cinnamic acid with an 8 carbon chain and N-dimethyl substituted compound. Thus, the methoxy substituted group at positions 3 or 4 or the 3,4-methylenedioxy moiety in the caffeic acid derivatives; seem to be the main features required for the hepatoprotection in this model.

Effects of leukotriene synthesis inhibition on acute liver damage induced by carbon tetrachloride.

Administration of the leukotriene synthesis inhibitors nordihydroguaiaretic acid (NDHGA, 30 mg/kg), caffeic acid (20 mg/kg) or nafazatrom (100 mg/kg) and of the phosphodiesterase inhibitor and free radical trapper dipyridamole (10 mg/kg) prevented the alterations in enzyme activity displayed by acute CCl4 administration. The effect was less evident in preventing hepatic glycogen depletion or lipid peroxidation. A synergistic protective effect between dipyridamole and NDHGA or caffeic acid was observed. In conclusion, the present results show that acute hepatic damage induced by CCl4 can be partially prevented by leukotriene synthesis inhibitors and the protection is enhanced with the simultaneous use of phosphodiesterase inhibitors.

Renal Angiotensin-II Receptors Expression Changes in a Model of Preeclampsia

The blunted response to angiotensin II (Ang II) during pregnancy is lost in patients by preeclampsia. This impaired response has been attributed to a change in one or both of the Ang II receptors, type 1 (AT1R) and type 2 (AT2R). The ratio of the Ang II receptor types in the kidney has not been studied. We postulated that an imbalance exists between AT1R/AT2R receptors in the renal cortex from rats subjected to an experimental model of preeclampsia, and that this altered ratio can modify the characteristic blunted pressor response to Ang II during pregnancy. The feto-placental units of Wistar rats were made ischemic by subrenal aortic coarctation, thus creating an experimental model of preeclampsia. We measured the AT1R and AT2R protein expression and the presence of the heterodimer AT1R/AT2R in the renal cortex and evaluated the pressor response to Ang II in an isolated kidney preparation from non-pregnant, healthy pregnant, and preeclampsia model rats. Pregnancy increased AT2R and AT1R/AT2R heterodimer expression and decreased the pressor response to Ang II. In contrast, AT1R increased, while AT2R and AT1R/AT2R heterodimer decreased in the preeclampsia model group. Thus, Ang II hypersensitivity observed in preeclampsia might be related to an increased expression of AT1R over AT2R and to a decreased presence of the AT1R/AT2R heterodimer in renal cortex.

Protective effect of colchiceine against acute liver damage.

Pretreatment of rats with colchiceine (10 micrograms/day/rat) for seven days protected against CCl4-induced liver damage. CCl4 intoxication was demonstrated histologically and by increased serum activities of alanine amino transferase (ALT), alkaline phosphatase (Alk. Phosph.) gamma glutamyl transpeptidase (GGTP), bilirubins and decreased activity of glucose-6-phosphatase (G-6Pase). Furthermore, an increase in liver lipid peroxidation and a decrease in plasma membrane GGTP and Alk. Phosph. activities were found. Colchiceine increased 1.5-fold the LD50 of CCl4 and prevented the release of intracellular enzymes as well as the decrease in GGTP and Alk. Phosph. activities in plasma membranes. It also completely prevented the lipid peroxidation induced by CCl4 and limited the extent of the histological changes.

Reduction of apparent indicators of liver cirrhosis in rats by the arachidonate lipoxygenase inhibitor BW755C

We have compared the effects of BW755C, a dual inhibitor of the arachidonic acid cyclo-oxygenase and lipoxygenase, with the effects of colchicine and indomethacin on the reversion of the biochemical and histochemical signs of rat liver cirrhosis. This was induced by i.p. administration of CCl4 for 11 weeks. At this point the rats were divided into four groups (10 animals each). CCl4 administration was continued for one month along with either colchicine, BW755C or indomethacin. No additional treatment was given to the control group. BW755C consistently improved all the parameters studied. Although colchicine also improved all but two markers (serum ALT activity and serum proteins) it ranked lower than BW755C in most of them. Indomethacin only modified favourably serum alkaline phosphatase activity, serum proteins, cholesterol and bilirubins and liver collagen content. The effects of BW755C could be mainly attributed to the inhibition of the lipoxygenase pathway. A common feature of colchicine, adrenal steroids and BW755C was the ability to inhibit the formation of leukotriene and other lipoxygenase products. The possibility that this property might contribute to their anti-cirrhotic actions is discussed.

Trolox Down‐Regulates Transforming Growth Factor‐β and Prevents Experimental Cirrhosis

Cirrhosis is a very common disease and its treatment is limited due to lack of effective drugs. Some studies indicate that this disease is associated with oxidative stress. Therefore, we decided to study the effect of trolox, an effective antioxidant, on experimental cirrhosis. Cirrhosis was induced by CCl4 administration (0.4 g/kg, intraperitoneally, three times per week, for 8 weeks) to Wistar male rats. Trolox was administered daily (50 mg/kg, orally). Fibrosis was assessed histologically and by measuring liver hydroxyproline content. Glutathione, lipid peroxidation and glycogen were measured in liver; serum markers of liver damage were also quantified. Transforming growth factor-beta (TGF-beta) was determined by Western blot and quantified densitometrically. Alkaline phosphatase, gamma-glutamyl transpeptidase and alanine aminotransferase increased in the group receiving CCl4; trolox completely or partially prevented these alterations. Glycogen was almost depleted by CCl4 but was partially preserved by trolox. Lipid peroxidation increased while glutathione decreased by CCl4 administration; trolox corrected both effects. Histology showed thick bands of collagen, necrosis and distortion of the hepatic parenchyma in the CCl4 group, such effects were prevented by trolox. Hydroxyproline content increased 5-fold by CCl4, while the group receiving both CCl4 and trolox showed no significant difference compared to the control group. CCl4 increased 3-fold TGF-beta, while trolox completely prevented this increase. We found that trolox effectively prevented cirrhosis induced with CCl4 in the rat. Our results suggest that the beneficial effects of trolox may be associated to its antioxidant properties and to its ability to reduce the profibrogenic cytokine TGF-beta expression.

Synthesis of 3-Amino-2-(3-indolyl)propanol and Propanoate Derivatives and Preliminary Cardiovascular Evaluation in Rats

A series of tryptamine analogues has been prepared and tested for their 5‐HT1 receptor agonist properties.

Genomic action of permanently charged tamoxifen derivatives via estrogen receptor-α

Tamoxifen is a selective estrogen receptor modulator widely used in oncology and reproductive endocrinology. In order to decrease its non-desirable effects and elucidate mechanisms of action, permanently charged tamoxifen derivatives (PCTDs) have been reported. Whether PCTDs have genomic effects remains controversial. Since the clinical relevance of tamoxifen, the necessity to have new anticancer drugs, and in order to gain insights into the mechanisms of action of PCTDs, we obtained six quaternary ammonium salts derived from tamoxifen including three new compounds. We characterized them by nuclear magnetic resonance, X-ray diffraction, electron microscopy, and/or high performance liquid chromatography, and detected them in cell lysates by liquid chromatography coupled to mass spectrometry. We evaluated their binding to estrogen receptor-alpha (ERalpha, their effect on the transcriptional activity mediated by ERalpha (gene reporter assays), and the proliferation of cancer cells (MCF-7 and cells from a cervical cancer primary culture). Structural studies demonstrated the expected identity of the molecules. All PCTDs did bind to ERalpha, one of them induced ERalpha-mediated transcription while two others inhibited such genomic action. Accordingly, PCTDs were detected in cell lysates. PCTDs inhibited cell proliferation, noteworthy, two of them displayed higher inhibition than tamoxifen. Structure-activity analysis suggests that PCTDs permanent positive charge and the length of the aliphatic chain might be associated to the biological responses studied. We suggest genomic effects as a mechanism of action of PCTDs. The experimental approaches here used could lead to a better design of new therapeutic molecules and help to elucidate molecular mechanisms of new anticancer drugs.