María L Segura-Valdez scite author profile

Different studies in ovariectomized estrogen treated animals support the idea that cfos plays a role in the proliferation of uterine epithelial cells. However, these studies invite us to reassess the role played by c-fos in epithelial cell types of the endometrium during the estrous cycle. The present study was undertaken to determine the c-fos and estrogen receptor (ER) gene expression pattern in the rat uterine epithelium during the estrous cycle in which natural and cyclic changes of steroid hormones occur, and correlate these changes with the proliferation status of this cellular types. Proliferation was assessed during the estrous cycle using bromodeoxyuridine incorporation to DNA. ERa and b proteins were assessed by immunohistochemistry. The regulation of c-fos gene expression in the uterus of intact animals during the estrous cycle was evaluated using both in situ hybridization and immunohistochemistry. Estradiol (E 2 ) and progesterone (P 4 ) plasma levels were assessed by radioimmunoassay. The results indicated that luminal (LE) and glandular epithelia (GE) presented maximal proliferation during the metestrus (M) and the diestrus (D) days. However, during the proestrus (P) day only LE presented proliferation, and during the estrus (E) day only the stromal cells proliferated. A marked immunostaining for ERa was detected in both LE and GE cells during the early phases of the cycle but diminished on the P and the E day. In contrast, ERb was undetectable in both epithelia during all stages of the cycle. The highest cfos mRNA level was detected in both epithelia on the M day, followed by a significant reduction during the other days of the cycle. The highest protein content was observed on the M and D days, and the minimal value was detected on the E day. The c-Fos protein level in LE was increased during M and D days, presenting a high correlation with the cellular proliferation pattern of this cell type. In conclusion, the overall results indicate that c-Fos protein presented a good correlation with uterine epithelial cell proliferation of LE. In the case of GE, the same tendency was observed, although no significant correlation was found. Both in LE and GE, c-fos mRNA did not strictly correlate with its protein levels. c-fos seems to have a postranscriptional regulation in uterine epithelial cells during the rat's estrous cycle. Mol. Reprod. Dev. 64: 379-388,

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The ultrastructural study of the interphase cell nucleus of Lacandonia schismatica (Lacandoniaceae: Triuridales) reveals a non‐typical extranucleolar particle

Jiménez‐García

Agredano-Moreno

Segura-Valdez

et al. 1992

Biology of the Cell

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By light and electron microscope cytochemistry we characterized the interphase nucleus of Lacandonia schismatica, the only known species of the new plant family Lacandoniaceae, whose most peculiar feature is the inverted position of the sexual organs, an aspect never found before among flowering plants. Furthermore, we compare it to Triuris alata, a related species, to Voyria aphylla (a dicotyledon), to Gymnosiphon divaricatus (a monocotyledon) and also to saprophytes. The reticulated chromatin of L schismatica and T alata is similar to that of other monocotyledons. In addition, we describe a unique type of RNP granules in the interchromatin space which are about 32 + 3 nm SD in diameter and occur as huge clusters. They are intermediate in size and spatial distribution between inter-and peri-chromatin granules. We term them 'Lacandonia granules'. The granules were also found in Talata. They are 3 ! +_ 2 nm in diameter. No significant differences in size were observed between them (P > 0.05). Synaptonemallike complexes and ring-shaped structures were seen in interphase nuclei of somatic cells of these species. Coiled and nucleolus-associated bodies, as well as centromeres were also found in these two organisms. On the contrary, V aphylla and G divaricatus display a chromocentric nuclear organization. The nuclear similarities between L schismatica and Talata suggest extremely close phylogenetic relationships between them. chromatin / Lacandonia I plant nucleus / ribonucleoproteins

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Cellular organization of pre‐mRNA splicing factors in several tissues. Changes in the uterus by hormone action

George-Téllez

Segura-Valdez

González-Santos

et al. 2002

Biology of the Cell

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In the mammalian cell nucleus, splicing factors are distributed in nuclear domains known as speckles or splicing factor compartments (SFCs). In cultured cells, these domains are dynamic and reflect transcriptional and splicing activities. We used immunofluorescence and confocal microscopy to monitor whether splicing factors in differentiated cells display similar features. Speckled patterns are observed in rat hepatocytes, beta-cells, bronchial and intestine epithelia and also in three cell types of the uterus. Moreover, the number, distribution and sizes of the speckles vary among them. In addition, we studied variations in the circular form (shape) of speckles in uterine cells that are transcriptionally modified by a hormone action. During proestrus of the estral cycle, speckles are irregular in shape while in diestrus I they are circular. Experimentally, in castrated rats luminal epithelial cells show a pattern where speckles are dramatically rounded, but they recover their irregular shape rapidly after an injection of estradiol. The same results were observed in muscle and gland epithelial cells of the uterus. We concluded that different speckled patterns are present in various cells types in differentiated tissues and that these patterns change in the uterus depending upon the presence or absence of hormones such as estradiol.

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Visualization of internal in situ cell structure by atomic force microscopy

Segura-Valdez

Agredano-Moreno

Zamora-Cura

et al. 2018

Histochem Cell Biol

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Light and electron microscopy have been used to study cell structure for many years, but atomic force microscopy is a more recent technique used to analyze cells, mainly due to the absence of techniques to prepare the samples. Isolated molecules or organelles, whole cells, and to a lesser extent in situ cell structure have been observed by different atomic force microscopy imaging modes. Here, we review efforts intended to analyze in situ the cell structures using approaches involving imaging of the surface of semithin sections of samples embedded in resin and sections prepared with an ultramicrotome. The results of such studies are discussed in relation to their implications to analyze the fine structure of organelles at the nanoscale in situ at enhanced resolution compared to light microscopy.

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Cementum protein 1 transfection does not lead to ultrastructural changes in nucleolar organization of human gingival fibroblasts

Villegas-Mercado

Agredano-Moreno

Bermúdez

et al. 2018

J of Periodontal Research

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