Brain structure morphology after being fixated with ethanol on electron microscope / Morfología de la estructura cerebral después de la fijación con etanol en microscopio electrónico

Fixation is one of the processes in preparing histology and pathology. The common material for fixation is buffered formalin including paraformaldehyde. However, the effect of the damaged cells, which is fixed for a long time, causes the research for other fixation materials to become necessary. In addition, paraformaldehyde is also harmful to human body and natural environment. Ethanol is one of the alternative fixation materials, which has been used for two hundred years. It has been used for many purposes, both in routine staining and immunohistochemistry. Nonetheless, no research confirms its effect on the electron microscope. The authors studied the effect of 50 % of ethanol on the cell membrane, organelles, and nucleus of Purkinje cells (Neuron purkinjense) observed on a light microscope and Transmitted Electron Microscope (TEM). Then it was compared to buffered formalin. In the light microscope, it shows that both of fixations have no different effects of the morphology of the cell membrane, cytoplasm, the nucleus of Purkinje cells and the neutrophils. We assume that our 50 % of ethanol concentration is almost the same as BF 10 % in the ability of hardening tissue and color absorption based on the previous study. In TEM, the structure of the cell membrane, organelles, and cytoplasm of Purkinje cell look broken in the cerebellum of 50 % of ethanol except for the nucleus. There was no significant difference diameter of the nucleus. It happened in general because of the shrinkage effect of ethanol. However, the authors recommend using 50 % of ethanol for routine staining.

La fijación es uno de los procesos en la preparación de muestras para histología y patología. El material más común para la fijación es la formalina tamponada. Sin embargo, el daño a las células que se mantienen en formalina durante mucho tiempo, hace necesario buscar otros materiales de fijación. Además, el paraformaldehido también es perjudicial para el cuerpo humano y el medio ambiente natural. El etanol es uno de los materiales de fijación alternativos que se ha utilizado durante muchos años, con diversos objetivos, tanto en la tinción de rutina como en la inmunohistoquímica. Sin embargo no se ha confirmdo su efecto con microscopio electrónico. Los autores estudiaron el efecto del 50 % de etanol sobre la membrana celular, los orgánulos y el núcleo de las células de Purkinje observados en un microscopio óptico y un microscopio de transmisión electrónico (TEM). Luego se comparó con la formalina tamponada. En el microscopio óptico se observó que ambas fijaciones no tienen efectos diferentes a la morfología de la membrana celular, el citoplasma, el núcleo de las células de Purkinje y los neutrófilos. Suponemos que nuestra concentración de 50 % de etanol es casi la misma que BF 10 % en la capacidad de endurecer el tejido y la absorción de color según el estudio anterior. En TEM, la estructura de la membrana celular, los orgánulos y el citoplasma de la célula de Purkinje presentaban daño en el cerebelo con un 50 % de etanol, a excepción del núcleo. No hubo diferencia significativa en el diámetro del núcleo. En general lo anterior se debió al efecto de contracción del etanol. En conclusión los autores recomiendan usar 50% de etanol para la tinción de rutina.

Ultra-structural study by transmission electron microscopy: effect of omega-3 on ovary cell organelles after experimental induced polycystic ovary syndrome

Polycystic ovary syndrome [PCOS] is the most frequent cause of female infertility, affecting about 4% to 8% of women in the age of procreation. For evaluation the protective effects of omega-3 polyunsaturated fatty acid on ovarian structure in experimental PCO induced by estradiol-valerat, this research was done. Wistar female rats [n=40] were allocated into four groups, one control [n=10] and three test groups [n=30], that one group received omega-3 [60 mg/rat/orally/daily], second and third groups were induced PCO by single injection of estradiol-valerate [16mg/ kg/ i.m], third group also received omega-3 [240 mg/kg] for 60 consequence days. Animals were kept in standard conditions. On day 60, the ovarian tissue of Rats in whole groups were removed and prepared for pathological analysis. Vacuolated area and rough endoplasmic reticulum expanded, de-granulated, disorganized were seen in PCO groups; however, these side effects decreased in the groups that received omega-3 significantly. [p<0.05] in comparison to experiment groups and ovarian weights in PCO experimental decreased significantly [p<0.05]. Results revealed that administration of omega-3 could significantly treat PCO. This suggested that polyunsaturated fatty acid could diminish negative side effects of PCO on ovary tissue

Antifungal activity of the ethanolic extracts of Punica granatum L. and evaluation of the morphological and structural modifications of its compounds upon the cells of Candida spp.

Ethanolic crude extracts prepared from the arils and seeds, pericarp, peels and from the whole fruit of Punica granatum, known as pomegranate, had their antifungal activity tested against Candida spp. The ethanolic crude extracts were analyzed by Mass Spectrometry and yielded many compounds such as punicalagin and galladydilacton. The extracts from the pericarp and peel showed activity against Candida spp., with MICs of 125 µg/mL. The effect of pericarp and peel extracts upon the morphological and structure of C. albicans and C. krusei were examined by scanning and transmission electron microscopy, with the visualization of an irregular membrane and hyphae, formation of vacuoles and thickening of the cell wall. The data obtained revealed potential antimicrobial activity against yeasts cells of the Candida genus, and the bioactive compounds could be responsible for changes in cell morphology and structure. The data obtained open new perspectives for future research in continuation to this study, where information such as determination of the site of action of the compounds could contribute to an alternative therapy against these organisms.

Mechanism of cAMP-induced H(+)-efflux of Dictyostelium cells: a role for fatty acids.

Aggregating Dictyostelium cells release protons when stimulated with cAMP. To find out whether the protons are generated by acidic vesicles or in the cytosol, we permeabilized the cells and found that this did not alter the cAMP-response. Proton efflux in intact cells was inhibited by preincubation with the V-type H(+) ATPase inhibitor concanamycin A and with the plasma membrane H(+) ATPase blocker miconazole. Surprisingly, miconazole also inhibited efflux in permeabilized cells, indicating that this type of H(+) ATPase is present on intracellular vesicles as well. Vesicular acidification was inhibited by miconazole and by concanamycin A, suggesting that the acidic vesicles contain both V-type and P-type H(+) ATPases. Moreover, concanamycin A and miconazole acted in concert, both in intact cells and in vesicles. The mechanism of cAMP-induced Ca2(+)-fluxes involves phospholipase A2 activity. Fatty acids circumvent the plasma membrane and stimulate vesicular Ca2(+)-efflux. Here we show that arachidonic acid elicited H(+)-efflux not only from intact cells but also from acidic vesicles. The target of regulation by arachidonic acid seemed to be the vesicular Ca2(+)-release channel.