Role of mast cells in gastrointestinal mucosal defense

The purpose of this review, based on studies from our laboratory as well as from others, is to summarize salient features of mast cell immunobiology and to describe their associations with gastrointestinal mucosal defense. Gastrointestinal mast cells are involved in many pathologic effects, such as food hypersensitivity. On the other hand, they also play a protective role in defense against parasitic and microbial infections. Thus, they have both positive and negative effects, but presently the mechanisms that control the balance of these various effects are poorly known. It has been suggested that stabilization of mast cells may be a key mechanism to protect the gastrointestinal tract from injury. Few molecules are known to possess both mast cell stabilizing and gastrointestinal cytoprotective activity. These include zinc compounds, sodium cromoglycate, FPL 52694, ketotifen, aloe vera, certain flavonoids such as quercetin, some sulfated proteoglycans such as chondroitin sulfate and dehydroleucodine. Dehydroleucodine, a sesquiterpene lactone isolated from Artemisia douglasiana Besser, exhibits anti-inflammatory and gastrointestinal cytoprotective action. The lactone stimulates mucus production, and inhibits histamine and serotonin release from intestinal mast cells. The lactone could act as a selective mast cell stabilizer by releasing cytoprotective factors and inhibiting pro-inflammatory mast cell mediators.

Probable effect of photoperiod on seasonal variation in the nuclear volume of the adrenal cortex of viscacha (Lagostomus maximus maximus)

The neuroendocrine system regulates several organic functions such as reproduction, metabolism and adaptation to the environment. This system shows seasonal changes linked to the environment. The experimental model used in the present study was Lagostomus maximus maximus (viscacha). The reproduction of males of this species is photoperiod dependent. Twenty-four adult male viscachas were captured in their habitat at different times during one year. The adrenal glands were processed for light microscopy. Serial cuts were stained with hematoxylin-eosin for the morphometric study, and 100 nuclei of each zone of the adrenal cortex were counted per animal. Data were analyzed statistically by ANOVA and the Tukey test. The cells of the glomerulosa zone are arranged in a tube-shaped structure. The fasciculata zone has large cells with central nuclei and clearly visible nucleoli and with a vacuolar cytoplasm. In the reticularis zone there are two of types of cells, one with a nucleus of fine chromatin and a clearly visible nucleolus and the other with nuclear pycnosis. Morphometric analysis showed maximum nuclear volumes during the February-March period with values of 133 percet 7.3 µm3 for the glomerulosa, 286.4 percent 14.72 µm3 for the fasciculata, and 126.3 percent 9.49 µm3 for the reticularis. Minimum nuclear volumes were observed in August with values of 88.24 + or - 9.9 µm3 for the glomerulosa, 163.7 percent 7.78 µm3 for the fasciculata and 64.58 + or - 4.53 µm3 for the reticularis. The short winter photoperiod to which viscacha is subjected could inhibit the adrenal cortex through a melatonin increase which reduces the nuclear volume as well as the cellular activity

An ultrastructural stereologic study of mitochondria in the neonatal adrenal cortex of the rat

Se describen los cambios ultraestructurales observados durante el período neonatal en la corteza adrnal de la rata. Las celulas de la zona yuxtamedular presentan mitocondria sredondeadas con crestas vesiculares y retículo endoplásmico desarrollado. Se determinaron esteriológicamente por medio de métodos morfométricos variaciones en el número de crestas por superficie mitocondrial. Las células corticales de 1 y 10 días de edad, muestran un retículo endoplásmico bien desarrollado. Los análisis morfométrico indican que el número de las crestas aumenta el tercer día, seguido luego por un descenso, observándose el décimo día un segundo incremento. También se midió corticosterona en plasma. Los niveles más altos de esta hormona se encontraron los días 1, 2 y 10 de edad. En los días 3 a 8 se observó un descenso. Estos resultados son coincidentes con los cambios observados en el desarrollo mitocondrial y del retículo endoplásmico en el período neonatal. El incremento en el número de crestas mitocondriales en el tercer día de edad post natal, puede ser considerado como la expresión d ela mayor sensibilidad de la glándula en este período, en que se halla aún bajo la influencia materna. Los cambios morfológicos y metabólicos más relevantes observados la segunda semana de vida se deberían a la maduración del eje hipotálamo-hipofisiario. La corteza adrenal neonatal ya ha comenzado a funcionar en forma independiente, dejando de estar bajo la influencia materna

Biological role of the pineal.Responses to the environmental photoperiod.

La pineal de la vizcacha (Lagostomus maximus maximus) sacrificadas durnate invierno muestra caracteristicas citologicas de un organo activo. En esta estacion el animal se encuentra adaptado a un prolongado medio ambiente de oscuridad. Sus organos reproductores estan inactivos.Durante el verano la viscacha tiene su ciclo anual reproducto y la pineal esta aparentemente inactiva. Estos cambios estacionales de la glundula pineal pueden relacionarse con el fotoperiodo natural y con la exposicion gradual a la luz crepuscular durante los periodos de luz diarios del verano. Dicha informacion fotica podria expresarse como cambios en el tono simpatico pineal. Las pineales de vizcacha y rata podrian tambien influjir sobre la secrecion de la pars intermedia hipofisaria, las que responderian como fotorreceptores en el mecanismo de adaptacion al fotoperiodo natura