|
1
|
Tissue-specific regulation of sodium/proton exchanger isoform 3 activity in Na(+)/H(+) exchanger regulatory factor 1 (NHERF1) null mice. cAMP inhibition is differentially dependent on NHERF1 and exchange protein directly activated by cAMP in ileum versus proximal tubule.
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J Biol Chem
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2007
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1.36
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2
|
The NHE3 juxtamembrane cytoplasmic domain directly binds ezrin: dual role in NHE3 trafficking and mobility in the brush border.
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Mol Biol Cell
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2006
|
1.34
|
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3
|
Na+/H+ exchanger NHE3 activity and trafficking are lipid Raft-dependent.
|
J Biol Chem
|
2006
|
1.29
|
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4
|
D-glucose acts via sodium/glucose cotransporter 1 to increase NHE3 in mouse jejunal brush border by a Na+/H+ exchange regulatory factor 2-dependent process.
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Gastroenterology
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2010
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1.16
|
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5
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Macropinocytosis in Shiga toxin 1 uptake by human intestinal epithelial cells and transcellular transcytosis.
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Am J Physiol Gastrointest Liver Physiol
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2008
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1.09
|
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6
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NHERF2 is necessary for basal activity, second messenger inhibition, and LPA stimulation of NHE3 in mouse distal ileum.
|
Am J Physiol Cell Physiol
|
2011
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1.00
|
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7
|
NHERF3 (PDZK1) contributes to basal and calcium inhibition of NHE3 activity in Caco-2BBe cells.
|
J Biol Chem
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2009
|
0.99
|
|
8
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Proteome of murine jejunal brush border membrane vesicles.
|
J Proteome Res
|
2007
|
0.97
|
|
9
|
PTH transiently increases the percent mobile fraction of Npt2a in OK cells as determined by FRAP.
|
Am J Physiol Renal Physiol
|
2009
|
0.97
|
|
10
|
Elevated intracellular calcium stimulates NHE3 activity by an IKEPP (NHERF4) dependent mechanism.
|
Cell Physiol Biochem
|
2008
|
0.94
|
|
11
|
NHE3 mobility in brush borders increases upon NHERF2-dependent stimulation by lyophosphatidic acid.
|
J Cell Sci
|
2010
|
0.94
|
|
12
|
Human enteroids: preclinical models of non-inflammatory diarrhea.
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Stem Cell Res Ther
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2013
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0.88
|
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13
|
Regulation of intestinal electroneutral sodium absorption and the brush border Na+/H+ exchanger by intracellular calcium.
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Ann N Y Acad Sci
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2009
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0.88
|
|
14
|
Entry of Trypanosoma brucei gambiense into microvascular endothelial cells of the human blood-brain barrier.
|
Int J Parasitol
|
2006
|
0.88
|
|
15
|
Elevated calcium acutely regulates dynamic interactions of NHERF2 and NHE3 proteins in opossum kidney (OK) cell microvilli.
|
J Biol Chem
|
2011
|
0.86
|
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16
|
Dual activation of CFTR and CLCN2 by lubiprostone in murine nasal epithelia.
|
Am J Physiol Lung Cell Mol Physiol
|
2013
|
0.85
|
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17
|
NHERF2 protein mobility rate is determined by a unique C-terminal domain that is also necessary for its regulation of NHE3 protein in OK cells.
|
J Biol Chem
|
2013
|
0.85
|
|
18
|
Latrunculin B facilitates Shiga toxin 1 transcellular transcytosis across T84 intestinal epithelial cells.
|
Biochim Biophys Acta
|
2008
|
0.85
|
|
19
|
Enterohemorrhagic Escherichia coli infection stimulates Shiga toxin 1 macropinocytosis and transcytosis across intestinal epithelial cells.
|
Am J Physiol Cell Physiol
|
2011
|
0.83
|
|
20
|
Serine protease EspP from enterohemorrhagic Escherichia coli is sufficient to induce shiga toxin macropinocytosis in intestinal epithelium.
|
PLoS One
|
2013
|
0.82
|
|
21
|
Calmodulin kinase II constitutively binds, phosphorylates, and inhibits brush border Na+/H+ exchanger 3 (NHE3) by a NHERF2 protein-dependent process.
|
J Biol Chem
|
2012
|
0.82
|
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22
|
PLC-γ directly binds activated c-Src, which is necessary for carbachol-mediated inhibition of NHE3 activity in Caco-2/BBe cells.
|
Am J Physiol Cell Physiol
|
2013
|
0.80
|
|
23
|
Shiga toxin is transported into the nucleoli of intestinal epithelial cells via a carrier-dependent process.
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Toxins (Basel)
|
2010
|
0.79
|
|
24
|
Shiga toxin 1 interaction with enterocytes causes apical protein mistargeting through the depletion of intracellular galectin-3.
|
Exp Cell Res
|
2009
|
0.78
|
|
25
|
New insights into the role of Shiga toxins in intestinal disease.
|
Gastroenterology
|
2005
|
0.77
|
|
26
|
Insulin-like growth factor 1 (IGF-1) enhances the protein expression of CFTR.
|
PLoS One
|
2013
|
0.76
|
|
27
|
Carbachol-mediated endocytosis of NHE3 involves a clathrin-independent mechanism requiring lipid rafts and Cdc42.
|
Cell Physiol Biochem
|
2014
|
0.75
|
|
28
|
Erratum: A primary human macrophage-enteroid co-culture model to investigate mucosal gut physiology and host-pathogen interactions.
|
Sci Rep
|
2017
|
0.75
|
|
29
|
Corrigendum: Functional Coupling of Human Microphysiology Systems: Intestine, Liver, Kidney Proximal Tubule, Blood-Brain Barrier and Skeletal Muscle.
|
Sci Rep
|
2017
|
0.75
|