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Role of hypoxia in the pathogenesis of renal disease

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Presentation on theme: "Role of hypoxia in the pathogenesis of renal disease"— Presentation transcript:

1 Role of hypoxia in the pathogenesis of renal disease
Kai-Uwe Eckardt, Wanja W. Bernhardt, Alexander Weidemann, Christina Warnecke, Christian Rosenberger, Michael M. Wiesener, Carsten Willam  Kidney International  Volume 68, Pages S46-S51 (December 2005) DOI: /j x Copyright © 2005 International Society of Nephrology Terms and Conditions

2 Figure 1 Schematic presentation of peritubular capillary perfusion in health and disease. While the amount of filtered sodium is the main determinant of renal oxygen consumption, the flow through capillaries arising from the glomerular vasa efferentia determines oxygen supply. When glomerular desease impairs glomerular perfusion, this will automatically impair peritubular perfusion. In addition, loss of peritubular capillaries impairs peritubular perfusion and increases diffusion distances. In contrast, glomeruli undergoing compensatory hypertrophy will be associated with an increase in glomerular and peritubular perfusion, which might also cause microvascular damage. Kidney International  , S46-S51DOI: ( /j x) Copyright © 2005 International Society of Nephrology Terms and Conditions

3 Figure 2 Schematic view of hypoxia-responsive gene expression mediated by HIF. HIF is a heterodimer, composed of an oxygen-regulated α-subunit (HIF-1α or HIF-2α) and a constitutive β-subunit. In the presence of oxygen-specific prolyl residues of HIFα are hydroxylated, and hydroxylated HIF can then bind to an ubiquitin-ligase complex, which targets HIF for destruction through the ubiquitin proteasome pathway. When insufficient oxygen is available for the hydroxylation reactions (i.e., hypoxia), HIFα does not enter the destruction pathway and, together with its constitutive partner HIFβ, can bind to hypoxia-response elements in genes that are inducible under hypoxic conditions. An additional hydroxylation reaction regulates HIF transcriptional activity (not shown). Kidney International  , S46-S51DOI: ( /j x) Copyright © 2005 International Society of Nephrology Terms and Conditions

4 Figure 3 Follow-up sections of the outer medulla in a rat kidney model of radiocontrast nephropathy29stained for the bioreductive marker pimonidazole (upper panel) and for HIF-1α (lower panel). Note marked accumulation of HIF-1α in tubules in the immediate vicinity of tubules that stain most strongly for pimonidazole (arrows). These findings suggest that HIF accumulates in hypoxic cells, but that the ability to induce HIF declines under very severe hypoxia. Kidney International  , S46-S51DOI: ( /j x) Copyright © 2005 International Society of Nephrology Terms and Conditions

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