Summary
Glomerular protein droplets have been observed in human glomerular epithelial cells, peripolar cells and mesangial cells, particularly in the preeclamptic lesion. Although morphologically similar, their functional role is uncertain. Whilst previous electron microscopic studies have shown these droplets to be generally uniform in electron density, our immunoelectron microscopy study of 10 biopsies, one showing lesions of preeclampsia, and the remaining 9 showing different forms of glomerular disease, generally displayed two distinct patterns of electron density and immunolabelling, when using a less severe fixation regime. An electron dense inner core was strongly positive to anti-fibrinogen, whilst a less dense peripheral zone was positive to anti-IgM. All other immunoglobulins, C3c, and albumin showed a less specific immunolabelling pattern. Protein droplets were also observed in proximal tubules in 7 out of 10 biopsies. In droplets found in most tubular cells immunolabelling was not partitioned, the most prominent findings being diffuse labelling for fibrinogen and albumin.
In most instances where glomerular droplets were found adjacent to intraglomerular deposits, the marker identified within the deposit could also be seen in either the core area or the peripheral zone of the droplets. These findings raise the possibility that these droplets may be involved in protein absorption from the deposits through a damaged glomerular basement membrane.
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References
Bendayan M, Nanci A, Kan F (1987) Effect of tissue processing on colloidal gold cytochemistry. J Histochem Cytochem 35:983–996
Faith GG, Trump BF (1966) The glomerular capillary wall in human kidney disease, acute glomerulonephritis, systemic lupus erythematosus and preeclampsia-eclampsia. Lab Invest 15:1682–1719
Fisher KA, Luger A, Spargo BH, Lindheimer MD (1981) Hypertension in pregnancy: clinicopathological correlations and remote prognosis. Medicine (Baltimore) 60:267–276
Frens G (1973) Controlled nucleation for the regulation of the particle size in monodisperse gold solutions. Nature Phys Sci 20:241–242
Gall JAM, Alcorn D, Butkus A, Coghlan JP, Ryan GB (1986) Distribution of glomerular peripolar cells in different mammalian species. Cell Tissue Res 244:203–208
Gardiner DS, More IAR, Lindop GBM (1986) The granular peripolar cell of the human glomerulus: an ultrastructural study. J Anat 146:31–43
Hewitson T, Kamitsuji H, Whitworth JA, Kincaid-Smith P (1988) Glomerular and vascular lesions in DOCA-salt hypertension. The role of anticoagulation. Clin Exper Hyper — Theory and Practice A10(4):649–666
Hill PA, Coghlan JP, Scoggins BA, Ryan GB (1983) Ultrastructural changes in the sheep renal juxtaglomerular apparatus in response to sodium depletion or loading. Pathology 15:463–473
Hill PA, Fairley KF, Kincaid-Smith P, Zimmerman M, Ryan GB (1988) Morphologic changes in the renal glomerulus and the juxtaglomerular apparatus in human preeclampsia. J Pathol 1956:291–303
Hopper J, Farquahar MG, Yamauchi H, Moon HD, Page EW (1961) Renal lesions in pregnancy. Obstet Gynecol 17:271–293
Kincaid-Smith P, North RA, Becker GJ, Fairley KF (1985) Proteinuria during pregnancy. In: Andreucci VE (eds) The Kidney in Pregnancy. Martinus Nijhoff Publishing USA, pp 133–164
Kincaid-Smith P, Owen J, Whitworth JA, Walter MA, Doyle A, Woods RA (1984) Glomerular & vascular changes in malignant hypertension. Clin Exper Hyper - Theory and Practice A6(1 and 2):471–491
Mautner W, Churg J, Grishman E, Dachs S (1962) Preeclamptic nephropathy. Lab Invest 11:518–530
MacLean I, Nakane PK (1974) Periodate-lysine-paraformaldehyde fixative. J Histochem Cytochem 22:1077–1083
Morild I, Christensen JA, Mikeler E, Bohle A (1988) Peripolar cells in the avian kidney. Virchows Arch [A] 412:471–477
Pirani CL, Pollak VE, Lannigan R, Folli G (1963) The renal glomerular lesions of preeclampsia: electron microscopic studies. Am J Obstet Gynecol 87:1047–1070
Ryan GB, Coghlan JP, Scoggins BA (1979) The granulated peripolar epithelial cell: a potential secretory component of the renal juxtaglomerular apparatus. Nature 277:655–656
Ryan GB, Alcorn D, Coghlan JP, Hill PA, Jacobs R (1982) Ultrastructural morphology of granule release from juxtaglomerular myoepithelioid and peripolar cells. Kidney Int 22(Suppl 12):S3-S8
Sheehan HL, Lynch JB (1973) Pathology of toxaemia in pregnancy. Churchill Livingstone, Edinburgh London
Sheehan HL (1980) Renal morphology in preeclampsia. Kidney Int 18:241–252
Tanaka H, Haga S, Takatsuki K, Yamaguchi K (1984) Localization of adult T-cell leukemia-associated antigen by the immuno-colloidal gold method. Cancer Res 44:3493–3504
Zollinger HU, Mihatsch MJ (1978) Renal pathology in biopsy. Light, electron and immunofluorescent microscopy and clinical aspects. Springer, Berlin Heidelberg New York, pp 164
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Nakajima, M., Mathews, D.C., Hewitson, T. et al. Modified immunogold labelling applied to the study of protein droplets in glomerular disease. Vichows Archiv A Pathol Anat 415, 489–499 (1989). https://doi.org/10.1007/BF00718642
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DOI: https://doi.org/10.1007/BF00718642