Your browser doesn't support javascript.
loading
Show: 20 | 50 | 100
Results 1 - 3 de 3
Filter
Add filters








Year range
1.
Int. j. morphol ; 33(4): 1261-1268, Dec. 2015. ilus
Article in English | LILACS | ID: lil-772305

ABSTRACT

Microfold (M) cells act as antigen-sampling sites for initiating antigen specific mucosal immune responses, but they may also provide a gateway for enteropathogen entry. In this study we demonstrated villous M cells by morphological and immunohistochemical methods to be present in the three regions of the small intestine from newborn piglets. Immunohistochemical analysis, using anti- cytokeratin 18 (CK18) primary antibodies, showed a gradually decreased density of M cells from the lower crypt epithelium to the upper villous epithelium. The proportion of villous M cells was greater in the ileum than in the duodenum or the mid-jejunum. Ultrastructural observation revealed that villous M cells were mainly columnar in shape in the duodenum and the mid-jejunum, and appeared as more pocket-like structure in the ileum. These villous M cells exhibited short and irregular microvilli, rich vesicles and reduced glycocalyx, but lacked the lymphocyte-containing basolateral invagination. Our results support evidence that M cells can develop in the small intestinal villous epithelium of newborn piglets, implying that villous M cells may begin developing in the pig's small intestine during fetal stages, which depends neither on the influence of the mucosal lymphoid tissue nor the antigen from the intestinal lumen stimulation. In addition, the variable morphology and heterogeneity distribution of villous M cells in the three regions of the small intestine may be indicative of its different functional properties. This information extent our understanding of the diversity of M cells and provides important basic knowledge for further research on the actual role of villous M cells in neonate.


Los epiteliocitos microplegados (células M) actúan como receptores de antígeno para iniciar la respuesta inmune específica de las mucosas, pero también pueden proporcionar una puerta de entrada para enteropatógenos. En este estudio, se demostró por métodos morfológicos e inmunohistoquímicos que los epiteliocitos microplegados de las vellosidades están presentes en las tres regiones del intestino delgado de lechones recién nacidos. Se utilizaron anticuerpos primarios de citoqueratina 18 (CK18) para el análisis inmunohistoquímico, el cual mostró una disminución gradual de la densidad de los epiteliocitos microplegados desde el epitelio de las criptas inferiores hasta el epitelio de las vellosidades superiores. La proporción de los epiteliocitos microplegados, fue mayor en el íleon que el duodeno o yeyuno medio. La observación ultraestructural reveló que los epiteliocitos microplegados fueron principalmente de forma columnar en el duodeno y el yeyuno medio. Además, mostraron microvellosidades cortas e irregulares, muchas vesículas y glucocáliz reducidos, pero carecían de invaginaciones basolaterales contenedoras de linfocitos. Nuestros resultados apoyan la evidencia de que los epiteliocitos microplegados pueden desarrollarse en el epitelio de las vellosidades intestinales de los lechones recién nacidos, lo que implica que estas células pueden comenzar a desarrollarse en el intestino delgado del cerdo durante las etapas fetales, y no dependen ni de la influencia del tejido linfoide de las mucosas ni del antígeno para la estimulación del lumen intestinal. Además, la morfología y heterogeneidad de distribución de los epiteliocitos microplegados en las tres regiones del intestino delgado pueden ser indicativas de sus diferentes propiedades funcionales. Esta información mejora nuestra comprensión de la diversidad de los epiteliocitos microplegados y proporciona conocimientos básicos importantes para la investigación sobre el papel de los epiteliocitos microplegados en las vellosidades del neonato.


Subject(s)
Animals , Infant, Newborn , Intestine, Small/cytology , Swine/anatomy & histology , Animals, Newborn , Immunohistochemistry , Intestine, Small/ultrastructure , Microscopy, Electron, Scanning
2.
Article in Chinese | WPRIM | ID: wpr-576896

ABSTRACT

Objective To compare the chemical constituents between the dispensing granules and the decoction of Buyanghuanwutang. Methods TLC and HPLC methods were carried out for comparative analysis. Results TLC indicated the chemical constituents were similar between the dispensing granule and the decoction. The HPLC method was successfully established,and used for taking the contents of paeoniflorin in dispensing granule and the decoction of Buyanghuanwutang. The contents of paeoniflorin in dispensing granule were only one sixth of that in the decoction. Conclusion The chemical constituents of the two preparations are similar,but the contents of paeoniflorin are different.

3.
Zhongcaoyao ; Zhongcaoyao;(24)1994.
Article in Chinese | WPRIM | ID: wpr-580373

ABSTRACT

Objective To establish a new method of quality control for Jie-Er-Yin Lotion.Methods Jie-Er-Yin Lotion and different kinds of agents(without Fructus Cnidii,Cortex Phellodendri Chinensis, Radix Sophorae Flavescentis,excipient agent or all medicinal material agents) were treated with the same approach,then using ~1H-NMR to get all of the chemical component information of the samples and analyze the data from the spectra.Results Analyzing the data with principal component analysis(PCA) by model recognition,the different agents can be distinguished in the scattered plots.Conclusion The ~1H-NMR-PCA is an useful method to identify Jie-Er-Yin Lotion from other preparations and can be used for the quality control of Chinese prepared medicines by simple operation.

SELECTION OF CITATIONS
SEARCH DETAIL