AIM:To investigate the distribution of the placental form of glutathione-S-transferase (GST) in colon polyps in order to evaluate the role of GST-pi in these tissues. METHODS: Sixteen polyp tissues removed at colonosc...AIM:To investigate the distribution of the placental form of glutathione-S-transferase (GST) in colon polyps in order to evaluate the role of GST-pi in these tissues. METHODS: Sixteen polyp tissues removed at colonoscopy were examined. Tissues were investigated histologically and ultrastructurally. GST-pi expression was also analysed immunohistochemically, using peroxidase anti-peroxidase (PAP) method and immunogold labelling method, for light and electron microscope respectively. RESULTS: All polyp tissues examined were adenoma of low, mild and high-grade dysplasia as shown in the histopathological reports. Nevertheless, the examination of the above specimens with electron microscope revealed that 3 of 9 adenoma of mild dysplasia had ultrastuctural features similar to high-grade dysplasia adenoma. GST-pi was variably expressed in adenoma, with the lowest relative levels occurring in low-gradeadenoma and the highest levels found in high-grade adenoma. GST-pi was located mainly in undifferentiated epithelial cells. GST-pi positive particles were found in the cytoplasm and especially in the nucleus adjacent to the nuclear membrane of these cells. CONCLUSION:The overexpression of GST-pi in mildgrade adenomas with significant subcellular changes and in the majority of high-grade dysplasia adenoma suggests that this might be related to the carcinogenetic proceeding. Immunohistochemical localization of GST-pi in combination with ultrastructural changes indicate that GST-pi might be a sensitive agent for the detection of preneoplastic transformations in adenoma.展开更多
The secretion function of mantle is closely related to shell formation in some bivalves and gastropods. Up to now, few researches have been reported for cuttlebone formation in the class Cephalopoda. In this study, th...The secretion function of mantle is closely related to shell formation in some bivalves and gastropods. Up to now, few researches have been reported for cuttlebone formation in the class Cephalopoda. In this study, the structure and secretion function of cuttlebone sac of the golden cuttlefish Sepia esculenta was analyzed using the histological and histochemical methods. The results showed that high and columnar cells located in sac epithelium, and fiat cells existed near the base membrane. A lot of fibroblasts were found in the lateral mantle collective tissue. Some mucus, mucopolysaccharide and alkaline phosphatase (ALP) were found in the sac. The ultrastructural characteristics of Quasi-connective-tissue-calcium cells (QCTCC) were observed using a transmission electron microscope (TEM). The relationship between cuttlebone sac secretion function and shell formation was discussed.展开更多
The presence of sperm was observed in different organs of the reproductive tract of M. schmitti. These were the club, baffle and terminal zone of the oviducal gland, posterior portion of the uterus and in the cervix. ...The presence of sperm was observed in different organs of the reproductive tract of M. schmitti. These were the club, baffle and terminal zone of the oviducal gland, posterior portion of the uterus and in the cervix. This fact allowed for consideration not only its storage but its interaction with the female reproductive tract epithelia as well. SEM (microscopic observation studies) detected loose and sole spermatozoa in the club and baffle zones in a pregnant female. On the other hand, histochemical techniques showed sperm storage tubules of the terminal zone, which contain bundles of sperm, do not stain AB (alcian blue) or PAS (periodic acid schiff). Disintegration of some of the male gametes was observed in the posterior part of the uterus with TEM (transmission electron microscopy) studies which would indicate a first uterine sperm selection. The uterine epithelial cells involved in this process showed an important level of secretion vacuoles suggesting an interaction with sperm cells. Sperm in the cervix was found without the matrix that constitutes the spermatozeugmata formed in the male tract. Some heads of the sperm were uncurled while they were interacting with the cervical cells.展开更多
To further investigate the osteogen ic potential of rabbit marrow stromal stem cells cultured in vitro. Methods: Rabbit marrow stromal stem cells were isolated by dens ity gradient centrifugation method and amplified ...To further investigate the osteogen ic potential of rabbit marrow stromal stem cells cultured in vitro. Methods: Rabbit marrow stromal stem cells were isolated by dens ity gradient centrifugation method and amplified in the flasks, using the osteog enic inducing conditions (OGC) as the culture media. The osteogenic potential of marrow stromal stem cells were investigated by means of bone seeking fluoresce nce (tetracycline) labelling, Alizarin red S (ARS) staining, Alcian blue Sirius red (AS) staining, and scanning electron microscope. Results: After being passaged, the marrow stromal stem cells in creased in number, became confluent and formed multi layer structure. The strom al stem cells excreted innumerable tiny granules, heaping up on the cell body an d merging gradually into foggy substances. These foggy substances kept on enlarg ing and formed round, oval, or flake like nodules. These nodules revealed brigh t golden yellow fluorescence under fluorescence microscope when labelled with te tracycline. Histochemical study with specific new bone staining with ARS reveale d positive calcium reaction, both denoting that they were newly formed bone tiss ues. After they were stained with AS, collagen and acid mucopolysaccharide were shown. Under scanning electron microscope, three types of cells with different c onfigurations were found. They were globular cells, spindle shaped cells and po lygonal or polygonal cells. Granules were excreted from the cells and heaped up on the cell body. Needle shaped and irregularly rectangular crystals also appea red and agglomerated with the granules to form nodules and trabecula like or fl ake like structures.Conclusions: Sequence of events of bone formation by rabbit mar row stromal stem cells cultured in vitro is fully depicted and confirmed, which provides the foundation for further investigating the mechanisms of osteoblast d ifferentiation from marrow stromal stem cells and the possible application in or thopaedics.展开更多
文摘AIM:To investigate the distribution of the placental form of glutathione-S-transferase (GST) in colon polyps in order to evaluate the role of GST-pi in these tissues. METHODS: Sixteen polyp tissues removed at colonoscopy were examined. Tissues were investigated histologically and ultrastructurally. GST-pi expression was also analysed immunohistochemically, using peroxidase anti-peroxidase (PAP) method and immunogold labelling method, for light and electron microscope respectively. RESULTS: All polyp tissues examined were adenoma of low, mild and high-grade dysplasia as shown in the histopathological reports. Nevertheless, the examination of the above specimens with electron microscope revealed that 3 of 9 adenoma of mild dysplasia had ultrastuctural features similar to high-grade dysplasia adenoma. GST-pi was variably expressed in adenoma, with the lowest relative levels occurring in low-gradeadenoma and the highest levels found in high-grade adenoma. GST-pi was located mainly in undifferentiated epithelial cells. GST-pi positive particles were found in the cytoplasm and especially in the nucleus adjacent to the nuclear membrane of these cells. CONCLUSION:The overexpression of GST-pi in mildgrade adenomas with significant subcellular changes and in the majority of high-grade dysplasia adenoma suggests that this might be related to the carcinogenetic proceeding. Immunohistochemical localization of GST-pi in combination with ultrastructural changes indicate that GST-pi might be a sensitive agent for the detection of preneoplastic transformations in adenoma.
基金This study was supported by the grants from the National Natural Science Foundation of China (No. 30600463)the Key Laboratory of Mariculture of Ministry of Education, 0cean University of China (No. 200610).
文摘The secretion function of mantle is closely related to shell formation in some bivalves and gastropods. Up to now, few researches have been reported for cuttlebone formation in the class Cephalopoda. In this study, the structure and secretion function of cuttlebone sac of the golden cuttlefish Sepia esculenta was analyzed using the histological and histochemical methods. The results showed that high and columnar cells located in sac epithelium, and fiat cells existed near the base membrane. A lot of fibroblasts were found in the lateral mantle collective tissue. Some mucus, mucopolysaccharide and alkaline phosphatase (ALP) were found in the sac. The ultrastructural characteristics of Quasi-connective-tissue-calcium cells (QCTCC) were observed using a transmission electron microscope (TEM). The relationship between cuttlebone sac secretion function and shell formation was discussed.
文摘The presence of sperm was observed in different organs of the reproductive tract of M. schmitti. These were the club, baffle and terminal zone of the oviducal gland, posterior portion of the uterus and in the cervix. This fact allowed for consideration not only its storage but its interaction with the female reproductive tract epithelia as well. SEM (microscopic observation studies) detected loose and sole spermatozoa in the club and baffle zones in a pregnant female. On the other hand, histochemical techniques showed sperm storage tubules of the terminal zone, which contain bundles of sperm, do not stain AB (alcian blue) or PAS (periodic acid schiff). Disintegration of some of the male gametes was observed in the posterior part of the uterus with TEM (transmission electron microscopy) studies which would indicate a first uterine sperm selection. The uterine epithelial cells involved in this process showed an important level of secretion vacuoles suggesting an interaction with sperm cells. Sperm in the cervix was found without the matrix that constitutes the spermatozeugmata formed in the male tract. Some heads of the sperm were uncurled while they were interacting with the cervical cells.
文摘To further investigate the osteogen ic potential of rabbit marrow stromal stem cells cultured in vitro. Methods: Rabbit marrow stromal stem cells were isolated by dens ity gradient centrifugation method and amplified in the flasks, using the osteog enic inducing conditions (OGC) as the culture media. The osteogenic potential of marrow stromal stem cells were investigated by means of bone seeking fluoresce nce (tetracycline) labelling, Alizarin red S (ARS) staining, Alcian blue Sirius red (AS) staining, and scanning electron microscope. Results: After being passaged, the marrow stromal stem cells in creased in number, became confluent and formed multi layer structure. The strom al stem cells excreted innumerable tiny granules, heaping up on the cell body an d merging gradually into foggy substances. These foggy substances kept on enlarg ing and formed round, oval, or flake like nodules. These nodules revealed brigh t golden yellow fluorescence under fluorescence microscope when labelled with te tracycline. Histochemical study with specific new bone staining with ARS reveale d positive calcium reaction, both denoting that they were newly formed bone tiss ues. After they were stained with AS, collagen and acid mucopolysaccharide were shown. Under scanning electron microscope, three types of cells with different c onfigurations were found. They were globular cells, spindle shaped cells and po lygonal or polygonal cells. Granules were excreted from the cells and heaped up on the cell body. Needle shaped and irregularly rectangular crystals also appea red and agglomerated with the granules to form nodules and trabecula like or fl ake like structures.Conclusions: Sequence of events of bone formation by rabbit mar row stromal stem cells cultured in vitro is fully depicted and confirmed, which provides the foundation for further investigating the mechanisms of osteoblast d ifferentiation from marrow stromal stem cells and the possible application in or thopaedics.
