Abstract
PURPOSE OF REVIEW: Three structures (glomerular endothelial fenestrae, glomerular
basement membrane and podocyte interfoot process/slit diaphragms) have
traditionally been considered as the major determinants of glomerular
permeability. We review recent work demonstrating the functional importance of
two additional layers: the endothelial surface layer (ESL) and the subpodocyte
space (SPS). RECENT FINDINGS: Removing glomerular endothelial cell monolayer ESL
in vitro significantly alters monolayer permeability, supporting previous in-vivo
demonstrations of the importance of the ESL in determining glomerular
permeability. Whether fenestral diaphragms are present to support the ESL in
healthy adult glomeruli has been examined in a recent report. On the downstream
side of the glomerular filtration barrier, the SPS is a recently described
structure that covers approximately two-thirds of the barrier, has highly
restrictive dimensions and contributes to the hydraulic resistance and
ultrafiltration characteristics of the glomerulus. Different layers of the
barrier have also been shown to influence the permeability characteristics of one
another, either through biophysical interactions, or through the activities of
ligand-receptor axes that cross the various layers of the barrier. SUMMARY: The
structure and function of the glomerular filtration barrier remains an area of
significant new discovery, and recent work continues to highlight the complexity
of this dynamic multilayered watershed.
Translated title of the contribution | New aspects of glomerular filtration barrier structure and function: five layers (at least) not three |
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Original language | English |
Pages (from-to) | 197 - 205 |
Journal | Current Opinion in Nephrology and Hypertension |
Volume | 18(3) |
Publication status | Published - May 2009 |