PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
24105369-6	2014	We could observe an association of rare EHF haplotypes among homozygotes for c.1521_1523delCTT in CFTR, which exhibit a CF-untypical manifestation of the CF basic defect such as CFTR-mediated residual chloride secretion and low response to amiloride.	Amiloride	240-249	CF transmembrane conductance regulator	Homo sapiens	98-102	
32712714-0	2020	Transport properties in CFTR-/- knockout piglets suggest normal airway surface liquid pH and enhanced amiloride-sensitive Na+ absorption.	Amiloride	102-111	CF transmembrane conductance regulator	Homo sapiens	24-28	
30272672-4	2018	The test allows the measurement of the stable baseline voltage and the successive net voltage changes after perfusion of 100 microM amiloride, an inhibitor of Na+ reabsorption in Ringer"s solution; a chloride-free solution containing amiloride to drive chloride secretion and 10 microM isoproterenol in a chloride-free solution with amiloride to stimulate the cyclic adenosine monophosphate (cAMP)-dependent chloride conductance related to CFTR.	Amiloride	132-141	CF transmembrane conductance regulator	Homo sapiens	440-444	
32712714-14	2020	In contrast, enhanced amiloride-sensitive Na+ absorption may contribute to lung pathology in CFTR-/- piglets, along with a compromised CFTR- and TMEM16A-dependent Cl- transport.	Amiloride	22-31	CF transmembrane conductance regulator	Homo sapiens	93-97	
27941075-7	2017	In oocytes coexpressing deltabetagamma-ENaC and CFTR the ENaC-mediated amiloride-sensitive whole cell current (DeltaIami) was reduced by ~50% compared with that measured in oocytes expressing deltabetagamma-ENaC alone.	Amiloride	71-80	CF transmembrane conductance regulator	Homo sapiens	48-52	
24105369-6	2014	We could observe an association of rare EHF haplotypes among homozygotes for c.1521_1523delCTT in CFTR, which exhibit a CF-untypical manifestation of the CF basic defect such as CFTR-mediated residual chloride secretion and low response to amiloride.	Amiloride	240-249	CF transmembrane conductance regulator	Homo sapiens	178-182	
21145458-8	2010	Like human CF, CFTR-(/)- pigs showed increased amiloride-sensitive voltage and current, but lack of apical Cl- conductance caused the change, not increased Na(+) transport.	Amiloride	47-56	CF transmembrane conductance regulator	Homo sapiens	15-19	
23732645-8	2013	We find that while the loss of CFTR permeability hyperpolarises Vt and also increases amiloride-sensitive Vt, these effects are too small to account for the magnitude of change observed in CF epithelia.	Amiloride	86-95	CF transmembrane conductance regulator	Homo sapiens	31-35	
22302997-10	2012	In non-capacitated sperm, amiloride, an ENaC inhibitor, and genistein, a CFTR activator, caused a decrease in [Na+](i), suggesting that also in these cells [Na+](i) is dependent on the crosstalk between ENaC and CFTR.	Amiloride	26-35	CF transmembrane conductance regulator	Homo sapiens	212-216	
19633071-6	2009	Impaired efferocytosis appears to be mediated through an amiloride-sensitive ion channel, because amiloride restores phagocytic competency in CFTR-deficient cells.	Amiloride	57-66	CF transmembrane conductance regulator	Homo sapiens	142-146	
18309088-3	2008	In this study, we report that in human airway epithelial CF15 cells treated with the CFTR corrector miglustat (n-butyldeoxynojyrimicin), whole-cell patch-clamp experiments showed reduced amiloride-sensitive ENaC current in parallel with a rescue of defective CFTR Cl- channel activity activated by forskolin and genistein.	Amiloride	187-196	CF transmembrane conductance regulator	Homo sapiens	85-89	
10788432-5	2000	The forskolin/3-isobutyl-1-methylxanthine-stimulated whole-cell conductance in hCFTR-mENaC co-injected oocytes was amiloride-insensitive, indicating an inhibition of mENaC following hCFTR activation, and it was blocked by DPC (diphenylamine-2-carboxylic acid) and was DIDS (4, 4"-diisothiocyanatostilbene-2,2"-disulfonic acid)-insensitive.	Amiloride	115-124	CF transmembrane conductance regulator	Homo sapiens	79-84	
18288363-2	2008	The freshly isolated airway epithelial tissue displayed a transepithelial basal current of (94.9+-8.2) muA/cm(2), 16.6% and 62.7% of which was inhibited by amiloride (epithelial Na(+) channel blocker, 100 mumol/L) and NPPB (cystic fibrosis transmembrane conductance regulator Cl(-) channel blocker, 100 mumol/L).	Amiloride	156-165	CF transmembrane conductance regulator	Homo sapiens	224-275	
16463140-1	2005	We previously showed that activation of the cystic fibrosis (CF) transmembrane conductance regulator (CFTR) Cl- conductance (gCFTR) supports parallel activation of amiloride-sensitive epithelial Na+ channel (ENaC) in the native human sweat duct.	Amiloride	164-173	CF transmembrane conductance regulator	Homo sapiens	44-100	
16463140-1	2005	We previously showed that activation of the cystic fibrosis (CF) transmembrane conductance regulator (CFTR) Cl- conductance (gCFTR) supports parallel activation of amiloride-sensitive epithelial Na+ channel (ENaC) in the native human sweat duct.	Amiloride	164-173	CF transmembrane conductance regulator	Homo sapiens	102-106	
16714334-6	2006	The decrease in resistance was accompanied by an increase in mannitol flux across the epithelium and occurred in cystic fibrosis transmembrane conductance receptor (CFTR) epithelium pretreated with amiloride to block Na and Cl conductances, confirming that the decrease in resistance represented an increase in paracellular conductance.	Amiloride	198-207	CF transmembrane conductance regulator	Homo sapiens	113-163	
16714334-6	2006	The decrease in resistance was accompanied by an increase in mannitol flux across the epithelium and occurred in cystic fibrosis transmembrane conductance receptor (CFTR) epithelium pretreated with amiloride to block Na and Cl conductances, confirming that the decrease in resistance represented an increase in paracellular conductance.	Amiloride	198-207	CF transmembrane conductance regulator	Homo sapiens	165-169	
16226002-14	2006	In the present study, we have demonstrated an enhanced amiloride-sensitive Isc and fluid absorption in NHMEE cells, where the role of CFTR is limited.	Amiloride	55-64	CF transmembrane conductance regulator	Homo sapiens	134-138	
16027156-4	2005	Coexpression of rat ENaC with human CFTR or the human Cl- channel CLC-0 caused inhibition of amiloride-sensitive Na+ currents after cAMP-dependent stimulation and in the presence of a 100 mM bath Cl- concentration.	Amiloride	93-102	CF transmembrane conductance regulator	Homo sapiens	36-40	
12177237-8	2002	CFTR functionality was assessed by analyzing the Cl(-) secretion after amiloride and forskolin perfusion.	Amiloride	71-80	CF transmembrane conductance regulator	Homo sapiens	0-4	
9649552-0	1998	The amiloride-inhibitable Na+ conductance is reduced by the cystic fibrosis transmembrane conductance regulator in normal but not in cystic fibrosis airways.	Amiloride	4-13	CF transmembrane conductance regulator	Homo sapiens	60-111	
7491973-3	1995	2) Amiloride-insensitive baseline short-circuit current (Isc) and mediator-induced increases in Isc were inhibited by diphenylamine-2-carboxylic acid (DPAC) but not by 4,4"-diisothiocyanostilbene-2,2"-disulfonic acid (DIDS), a pharmacology consistent with passage of apical membrane Cl current through CFTR; Ca-activated Cl channels are inhibited by DIDS but not by DPAC.	Amiloride	3-12	CF transmembrane conductance regulator	Homo sapiens	302-306	
9476862-10	1998	Subjects in the 4PBA group demonstrated small, but statistically significant improvements of the NPD response to perfusion of an isoproterenol/amiloride/chloride-free solution; this measure reflects epithelial CFTR function and is highly discriminatory between patients with and without CF.	Amiloride	143-152	CF transmembrane conductance regulator	Homo sapiens	210-214	
9311495-6	1997	Patients with apical CFTR protein showed higher residual chloride secretion than those without (amiloride to isoprenaline value of 4.59 and 0.56 mV, respectively, p = 0.01).	Amiloride	96-105	CF transmembrane conductance regulator	Homo sapiens	21-25	
8759925-7	1996	In addition to serving as a Cl channel, there is compelling evidence that CFTR inhibits the amiloride-sensitive, epithelial sodium channel (ENaC).	Amiloride	92-101	CF transmembrane conductance regulator	Homo sapiens	74-78	
8967432-6	1996	Such findings suggest that CFTR may also regulate amiloride-insensitive Na+ channels.	Amiloride	50-59	CF transmembrane conductance regulator	Homo sapiens	27-31