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Target Concepts:
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Query: UMLS:C0039483 (
giant cell arteritis
)
3,204
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We applied a peroxidase-antiperoxidase technique to study the distribution pattern and binding characteristics of the
lectin
from the marine sponge Geodia cydonium (Geodia cydonium agglutinin;
GCA
) in various human tissues. This
lectin
has been shown to possess a broad reactivity, but there was a distinct distribution of binding sites within the different organs. In the histochemical system
GCA
displayed no blood group specificity and labeled red blood cells, the vascular endothelium, and epithelial cells showing blood group antigen expression independent of the ABH blood group status. However, inhibition of
GCA
reactivity by simple sugars and complex carbohydrates demonstrated tissue-specific differences of
lectin
binding related to the ABH blood group status of the tissue and revealed information on the structural requirements of the histological
lectin
binding site. Tissues that totally lacked blood group antigens or that expressed only the H-antigen disclosed a
GCA
reactivity which was completely inhibited by lactose. In contrast, tissues that expressed blood group A- or blood group B-antigen exhibited a lactose-resistant
lectin
binding which was inhibited only by water-soluble blood group substance A from peptone A and by bovine glycophorin but not by other complex carbohydrates, including human glycophorin and human asialoglycophorin. Competitive inhibition studies in situ revealed that
GCA
binding was not inhibited by blood group type I/II carbohydrate sequence-specific lectins or by lectins with other sugar specificities. Inhibition by lactose of
GCA
binding to some histological sites indicates that the binding site consists of a beta-linked galactose-containing disaccharide. However, periodate oxidation of tissue sections had no effect on
lectin
binding, pointing to a subterminal location of the relevant sequence. The results obtained from inhibition studies with simple saccharides and complex carbohydrates in relation to the expression of ABH blood group antigens suggest a complex
lectin
combining site(s) in histological specimens. The
lectin
may possess either one binding site with a range of affinities for different carbohydrates (besides beta-linked disaccharides the
GCA
binding site accommodates to carbohydrate determinants carrying the blood group A or blood group B determinant), or may possess two different binding sites. Besides an acceptor site for beta-linked disaccharides, an additional binding site may exist accommodating to extended carbohydrate sequences related to A or B blood group structures. In conclusion,
GCA
represents a blood group-nonspecific
lectin
whose binding affinities are determined by the ABH blood group status of the tissue.
...
PMID:Histochemical reactivity of the Geodia cydonium agglutinin (GCA) in human tissues. 200 75
The binding of five different lectins by normal as well as psoriatic lesional epidermis was investigated with regard to its dependence on the pH value. As we studied the reactions within the pH range of 3.0 to 9.66, we obtained the following results:
lectin
binding almost independent from pH (FITC-Con A, -PHA, HPA), fluorescence intensity dependent on pH (TRITC-Con A, FITC-LCA, -
GCA
), binding pattern dependent on pH (FITC-LCA,
GCA
). In contrast to normal epidermis, there was no pH dependence of the FITC-
GCA
binding pattern in psoriatic lesional epidermis.
...
PMID:[Characterization of lectin binding by psoriatic epidermis--dependence on pH]. 357 86
