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  • Title: Comparative study of glycoconjugates of the rat prostatic lobes by lectin histochemistry.
    Author: Chan FL, Ho SM.
    Journal: Prostate; 1999 Jan 01; 38(1):1-16. PubMed ID: 9973104.
    Abstract:
    BACKGROUND: The rat prostate gland is composed of several distinct lobes: the ventral, lateral, dorsal, and anterior (also called the coagulating gland). Each prostatic lobe is different in its morphology, secretions, and response to hormones. METHODS: The present study characterized and compared the expression of glycoconjugates in three different lobes (ventral, lateral, and dorsal) of the Noble rat prostate gland by lectin histochemistry, using a battery of 30 different lectins. RESULTS: The results indicate that different prostatic lobes elaborate and secrete different glycoconjugates. The dorsal prostatic epithelium secretes mainly in an apocrine mode, as characterized by the presence of apical cytoplasmic blebs which are absent in the other two lobes, though merocrine secretion is also suggested. These cytoplasmic blebs were rich in Man, GlcNAc, Gal/GalNac, Fuc, NeuAc(alpha2,6)Gal, and oligosaccharides. Two types of cytoplasmic belbs were also identified according to their lectin bindings: blebs stained by S-Con A, LCA, PWA, UEA-II, RCA-I, DBA, ECA, WFA, Jacalin, MPA, SJA, LTA, UEA-I, PHA-E, and PHA-L, and some blebs stained by S-WGA, SBA, HAA, HPA, VAA, BPA, MAA, and SNA. The lectins, which reacted with the second type of blebs, also revealed some cytoplasmic granules in the dorsal prostatic epithelial cells. The epithelium of the lateral prostate showed weak or negative reactions to lectins, suggesting that it may express fewer glycoconjugates as compared to the other two lobes. The epithelial Golgi region of the ventral prostate is the most developed among the three lobes, and contained abundant GlcNAc, alpha/beta-GalNAc, and NeuAc(alpha2,6)Gal residues, as shown by its intense reactions to S-WGA, DBA, SBA, HAA, HPA, WFA, and SNA. GS-I-B4 reacted specifically with the basal epithelial cells in all three lobes, indicating that glycoconjugates with terminal alpha-Gal/GalNAc were commonly expressed in these basal cells. The basal cells in ventral prostate might express more complex glycoconjugates, as they were also stained by PWA, RCA-I, ECA, and PHA-L, in addition to GS-I-B4, suggesting that these basal cells contained more Gal(beta1,4)GlcNAc and Gal(beta1,4)GlcNAc(alpha1,2)Man residues. GS-I-B4 and PHA-L also demonstrated a differential staining of the stromal smooth muscles and their associated extracellular matrix in the three prostatic lobes, suggesting that these structural components in different prostatic lobes were different in their complex oligosaccharide contents, which probably has an influence on the epithelial-stromal interaction in the prostate. CONCLUSIONS: In summary, the present study has established for the first time the expression patterns of glycoconjugates in the three lobes of the Noble rat prostate gland and suggests that certain lectins are useful as histochemical markers for the three individual prostatic lobes.
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