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An Anion Site Change of the Glomerular Basement Membrane on Various Glomerular Diseases
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°À¯³ª/Yu Na Kang
¹Ú°ü±Ô/±è½ÂÇÊ/ÀåÀº¼÷/¹Ú¼º¹è/±èÇöö/¼Àμö/Kwan Kyu Park/Seung Pil Kim/Eun Sook Change/Sung Bae Park/Hyun Chul Kim/In Soo Suh
KMID : 0357919970310080765
Abstract
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We studied the ultrastructural alteration of glomerular anionic sites in 6 patients with
minimal change nephrotic syndrome, 5 patients with membranous glomerulonephritis, 4
patients with focal segmental glomerulosclerosis, and 4 patients with IgA nephropathy
by staining with polyethyleneimine (PEI) as a cationic probe. The control study was
examined by using a nephrectomy specimen of non-glomerular disease which had no
proteinuria. This method seems to selectively stain heparan sulphate in the basement
membranes and has been widely used to evaluate changes in basement membrane
charge in various human diseases as well as in experimental studies. The anionic sites
in the lamina rara interns and lamina densa of normal glomerular basement membrane
were always less numerous and less regularly distributed than those in the lamina rara
externa. Characteristic common findings in these glomeruli showed a marked decrease of
glomerular anionic sites in the regions with immune-complex deposits and normal
distribution in the regions with focally those being absorbed and newly forming
glomerular basement membrane. They were not detected in the gap of the basement
membrane and on the area of the detached overlying epithelium using the PEI method.
But the foot process fusion of epithelial cells seems not to influence the loss of anionic
sites on the glomerular basement membrane.
Å°¿öµå
Anionic site; Polyethyleneimine (PEI); Glomerular disease; Ultrastructure; Basement membrane;
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