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Target Concepts:
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Query: UNIPROT:P41181 (
collecting duct
)
5,183
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Potassium depletion affects AQP2 expression and the cellular composition of the kidney
collecting duct
. This, in turn, contributes to the development of a secondary form of nephrogenic diabetes insipidus and hypokalemic nephropathy. Here we show that after 14 days of potassium depletion, the cellular fraction of A-type intercalated cells increases while the fraction of principal cells decreases along the outer medullary
collecting duct
in rats. The intercalated cells acquired a novel distribution pattern forming rows of cells attached to each other. These morphological changes occur progressively and reverse after 7 days of recovery on normal rat chow diet. The cellular remodeling mainly occurred in the inner stripe of outer medulla similar to the previously seen effect of lithium on the
collecting duct
cellular profile. The cellular remodeling is associated with the appearance of cells double labelled with both specific markers of principal and type-A intercalated cells. The appearance of this cell type was associated with the downregulation of the Notch signaling via the
Hes1
pathways. These results show that the epithelium of the
collecting duct
has a high degree of plasticity and that Notch signaling likely plays a key role during hypokalemia.
...
PMID:Potassium depletion induces cellular conversion in the outer medullary collecting duct altering Notch signaling pathway. 3223 70
The distal nephron and
collecting duct
segments of the mammalian kidney consist of intercalated cell types intermingled among principal cell types. Notch signaling ensures that a sufficient number of cells select a principal instead of an intercalated cell fate. However, the precise mechanisms by which Notch signaling patterns the distal nephron and
collecting duct
cell fates is unknown. Here we observed that
Hes1
, a direct target of Notch signaling pathway, is required within the mouse developing collecting ducts for repression of Foxi1 expression, an essential intercalated cell specific transcription factor. Interestingly, inactivation of Foxi1 in
Hes1
-deficient collecting ducts rescues the deficiency in principal cell fate selection, overall urine concentrating deficiency, and reduces the occurrence of hydronephrosis. However, Foxi1 inactivation does not rescue the reduction in expression of all principal cell genes in the
Hes1
-deficient kidney
collecting duct
cells that select the principal cell fate. Additionally, suppression of Notch/
Hes1
signaling in mature principal cells reduces principal cell gene expression without activating Foxi1. We conclude that
Hes1
is a Notch signaling target that is essential for normal patterning of the collecting ducts with intermingled cell types by repressing Foxi1, and for maintenance of principal cell gene expression independent of repressing Foxi1.
...
PMID:Foxi1 inactivation rescues loss of principal cell fate selection in Hes1-deficient kidneys but does not ensure maintenance of principal cell gene expression. 3280 Jul 56
