H. H. Seydewitz scite author profile

Cl−secretion in the colon can be activated by an increase of either intracellular Ca2+ or cAMP. In this study we examined a possible interdependence of the two second-messenger pathways in human colonic epithelium. When measured in a modified Ussing chamber, carbachol (CCH; 100 μmol/l, basolateral), via an increase in cytosolic Ca2+concentration ([Ca2+]i), activated a transient lumen-negative equivalent short-circuit current ( I sc) [change (Δ) in I sc = −79.4 ± 7.5 μA/cm2]. Previous studies indicated that intracellular Ca2+ directly acts on basolateral K+ channels, thus enhancing driving force for luminal Cl− exit. Increased intracellular cAMP (by basolateral addition of 100 μmol/l IBMX and 1 μmol/l forskolin) activated a sustained lumen-negative current (Δ I sc = −42.4 ± 7.2 μA/cm2) that was inhibited by basolateral trans-6-cyano-4-( N-ethylsulfonyl- N-methylamino)-3-hydroxy-2,2-dimethyl&2-chromane (10 μmol/l), a blocker of KvLQT1 channels. In the presence of elevated cAMP, the CCH-activated currents were augmented (Δ I sc = 167.7 ± 32.7 μA/cm2), suggesting cooperativity of the Ca2+- and cAMP-mediated responses. Inhibition of endogenous cAMP production by indomethacin (10 μmol/l) significantly reduced CCH-activated currents and even reversed the polarity in 70% of the experiments. The transient lumen-positive I sc was probably due to activation of apical K+channels because it was blocked by luminal Ba2+ (5 mmol/l) and tetraethylammonium (10 mmol/l). In the presence of indomethacin (10 μmol/l, basolateral), an increase of cAMP activated a sustained negative I sc. Under these conditions, CCH induced a large further increase in lumen-negative I sc(Δ I sc = −100.0 ± 21.0 μA/cm2). We conclude that CCH acting via [Ca2+]ican induce Cl− secretion only in the presence of cAMP, i.e., when luminal Cl− channels are already activated. The activation of a luminal and basolateral K+ conductance by CCH may be essential for transepithelial KCl secretion in human colon.

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Distinct spectrum of CFTR gene mutations in congenital absence of vas deferens

Dörk

et al. 1997

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Congenital absence of the vas deferens (CAVD) is a frequent cause for obstructive azoospermia and accounts for 1%-2% of male infertility. A high incidence of mutations of the cystic fibrosis transmembrane conductance regulator (CFTR) gene has recently been reported in males with CAVD. We have investigated a cohort of 106 German patients with congenital bilateral or unilateral absence of the vas deferens for mutations in the coding region, flanking intron regions and promotor sequences of the CFTR gene. Of the CAVD patients, 75% carried CFTR mutations or disease-associated CFTR variants, such as the "5T" allele, on both chromosomes. The distribution of mutation genotypes clearly differed from that observed in cystic fibrosis. None of the CAVD patients was homozygous for delta F508 and none was compound heterozygous for delta F508 and a nonsense or frameshift mutation. Instead, homozygosity was found for a few mild missense or splicing mutations, and the majority of CAVD mutations were missense substitutions. Twenty-one German CAVD patients were compound heterozygous for delta F508 and R117H, which was the most frequent CAVD genotype in our study group. Haplotype analysis indicated a common origin for R117H in our population, whereas another frequent CAVD mutation, viz. the "5T allele" was a recurrent mutation on different intragenic haplotypes and multiple ethnic backgrounds. We identified a total of 46 different mutations and variants, of which 15 mutations have not previously been reported. Thirteen novel missense mutations and one unique amino-acid insertion may be confined to the CAVD phenotype. A few splice or missense variants, such as F508C or 1716 G-->A, are proposed here as possible candidate CAVD mutations with an apparently reduced penetrance. Clinical examination of patients with CFTR mutations on both chromosomes revealed elevated sweat chloride concentrations and discrete symptoms of respiratory disease in a subset of patients. Thus, our collaborative study shows that CAVD without renal malformation is a primary genital form of cystic fibrosis in the vast majority of German patients and links the particular expression of clinical symptoms in CAVD with a distinct subset of CFTR mutation genotypes.

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CFTR Cl− channel function in native human colon correlates with the genotype and phenotype in cystic fibrosis

et al. 2004

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The ΔF508 mutation results in loss of CFTR function and mature protein in native human colon

et al. 2004

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Modulation of Ca2+-Activated Cl− Secretion by Basolateral K+ Channels in Human Normal and Cystic Fibrosis Airway Epithelia

et al. 2003

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Human airway epithelia express Ca2+-activated Cl- channels (CaCC) that are activated by extracellular nucleotides (ATP and UTP). CaCC is preserved and seems to be up-regulated in the airways of cystic fibrosis (CF) patients. In the present study, we examined the role of basolateral K+ channels in CaCC-mediated Cl- secretion in native nasal tissues from normal individuals and CF patients by measuring ion transport in perfused micro Ussing chambers. In the presence of amiloride, UTP-mediated peak secretory responses were increased in CF compared with normal nasal tissues. Activation of the cAMP pathway further increased CaCC-mediated secretion in CF but not in normal nasal mucosa. CaCC-dependent ion transport was inhibited by the chromanol 293B, an inhibitor of cAMP-activated hKvLQT1 K+ channels, and by clotrimazole, an inhibitor of Ca2+-activated hSK4 K+ channels. The K+ channel opener 1-ethyl-2-benzimidazolinone further increased CaCC-mediated Cl- secretion in normal and CF tissues. Expression of hSK4 as well as hCACC-2 and hCACC-3 but not hCACC-1 was demonstrated by reverse transcriptase PCR on native nasal tissues. We conclude that Ca2+-activated Cl- secretion in native human airway epithelia requires activation of Ca2+-dependent basolateral K+ channels (hSK4). Co-activation of hKvLQT1 improves CaCC-mediated Cl- secretion in native CF airway epithelia, and may have a therapeutic effect in the treatment of CF lung disease.

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H. H. Seydewitz

Cholinergic ion secretion in human colon requires coactivation by cAMP

Distinct spectrum of CFTR gene mutations in congenital absence of vas deferens

CFTR Cl− channel function in native human colon correlates with the genotype and phenotype in cystic fibrosis

The ΔF508 mutation results in loss of CFTR function and mature protein in native human colon

Modulation of Ca2+-Activated Cl− Secretion by Basolateral K+ Channels in Human Normal and Cystic Fibrosis Airway Epithelia

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