Establishment of a congenital chloride diarrhea-associated SLC26A3 c.392C>G (p.P131R) polymorphism-expressing cell model and a preliminary analysis of its mechanism of action / 中国当代儿科杂志

OBJECTIVE@#To establish a congenital chloride diarrhea (CCD)-associated SLC26A3 c.392C>G (p.P131R) polymorphism-expressing cell model, and to investigate its biological function.@*METHODS@#The sequence of the SLC26A3 gene in GenBank was used to design the upstream and downstream single-guide RNA (sgRNA) that could specifically recognize the 392 locus of the SLC26A3 gene, and the sgRNA was mixed with the pSpCas9-puro vector after enzyme digestion to construct an eukaryotic recombinant expression plasmid (pSpCas9-SLC26A3). Caco-2 cells were transfected with the recombinant plasmid and synthesized single-stranded DNA oligonucleotides (ssODNs), and Taqman genotyping assay and Sanger sequencing were used to identify the expression of SLC26A3 c.392C>G (p.P131R) in Caco-2 cells. Wild-type Caco-2 cells were selected as normal control group and the Caco-2 cells with successful expression of SLC26A3 c.392C>G (p.P131R) was selected as P131R group. Both groups were treated with 100 ng/mL tumor necrosis factor-α (TNF-α), and then the normal control group was named as TNF-α group, and the P131R group was named as TNF-α+P131R group. Electric cell-substrate impedance sensing (ECIS) assay was used to evaluate the change in the monolayer barrier function of intestinal epithelial cells in the above four groups, and Western blot was used to measure the change in the expression of SLC26A3 protein in the normal control group and the P131R group.@*RESULTS@#The eukaryotic recombinant expression plasmid (pSpCas9-SLC26A3) was successfully constructed. Both Taqman genotyping assay and Sanger sequencing confirmed the successful establishment of the Caco-2 cell model of SLC26A3 c.392C>G (p.P131R) expression. ECIS assay showed that compared with the normal control group, the P131R group had a significant increase in the monolayer permeability of intestinal epithelial cells (PG (p.P131R) can reduce the expression of SLC26A3 protein, increase the monolayer permeability of intestinal epithelial cells, and thus lead to diarrhea.

Association of solute-linked carrier family 26 member A3 gene polymorphisms with ulcerative colitis among Chinese patients / 中华医学遗传学杂志

<p><b>OBJECTIVE</b>To assess the association of single nucleotide polymorphisms (SNPs) and haplotypes of solute-linked carrier family 26 member A3 (SLC26A3) gene with ulcerative colitis (UC) among Chinese patients.</p><p><b>METHODS</b>For 416 UC patients and 584 controls, 5 SNPs of the SLC26A3 gene (rs17154444, rs7810937, rs7785539, rs2108225 and rs6951457) were determined with a SNaPshot method. Linkage disequilibrium (LD) and haplotype were analyzed for all subjects.</p><p><b>RESULTS</b>The G allele and AG+GG genotype of rs2108225 were more prevalent in UC patients compared with the controls (65.14% vs. 58.65%, P=0.030; 87.02% vs. 81.85%, P=0.012, respectively). The C allele and TC+CC genotype of rs17154444 were more prevalent in patients with severe UC than in other patients (14.00% vs. 6.01%, P<0.01; 28.00% vs. 11.48%, all P<0.01). Similar conclusion may also be drawn for C allele and GC+CC genotype of rs7785539 (8.00% vs. 7.38%, P=0.011; 16.00% vs. 13.93%, P=0.017, respectively). The SNPs rs17154444, rs7810937, rs7785539 and rs2108225 were found to be in strong LD. Compared with the controls, the T-A-G-G haplotype was more prevalent in UC patients (62.60% vs. 58.20%, P=0.017), whereas the T-G-G-A haplotype was less common in UC patients (27.40% vs. 31.60%, P=0.041).</p><p><b>CONCLUSION</b>Variations of the SLC26A3 rs2108225 may enhance the risk of UC. The rs17154444 and rs7785539 polymorphisms of the SLC26A3 gene are correlated with the severity of UC. The T-A-G-G haplotype formed by rs17154444, rs781093, rs7785539 and rs2108225 of the SLC26A3 gene may increase the risk for UC, whereas the T-G-G-A haplotype may decrease this risk.</p>

Reporte de segundo caso en Cuba de clorhidrorrea congénita / Report of a second congenital chloride diarrhea case in Cuba

La clorhidrorrea congénita es un raro desorden autosómico recesivo, causado por un defecto en el intercambio de cloruro/bicarbonato en el íleon y colon. En este trabajo se reporta el caso de un niño de 1 año de edad con características patognomónicas de esta condición, consistentes en antecedentes prenatales de polihidramnios, diarreas acuosas desde el nacimiento, poca ganancia de peso, alcalosis metabólica y deshidratación. El diagnóstico fue confirmado por el elevado contenido de cloruro en heces, y es el segundo caso reportado en la literatura cubana.

Congenital chloride diarrhea is a rare autosomal recessive disorder caused by a defective exchange of chloride and bicarbonate in the ileum and the colon. This article reported the case of one-year old child with pathognomonic characteristics of this disease including prenatal history of polyhydramnios, watery diarrheas since birth, low weight gain, metabolic alkalosis and dehydration. The diagnosis was confirmed on the basis of the high contents of chloride in stools. He is the second case of this disease reported in the Cuban literature.

Identification of SLC26A3 Mutations in a Korean Patient with Congenital Chloride Diarrhea

Congenital chloride diarrhea (CLD) is an autosomal recessive disorder with the hallmark of persistent watery Cl(-)-rich diarrhea from birth. Mutations in the solute carrier family 26, member 3 (SLC26A3) gene, which encodes a coupled Cl-/HCO3- exchanger in the ileum and colon, are known to cause CLD. Although there are a few reports of CLD patients in Korea, none of these had been confirmed by genetic analysis. Here, we describe the case of a Korean infant with clinical features of CLD. Using direct sequencing analysis, we identified 2 sequence variants: a missense variant of unknown significance (c.525G>C; p.Arg175 Ser) and a splicing mutation (c.2063-1G>T) in the SLC26A3 gene; these had been inherited from the father and mother, respectively. Whilst CLD is rare, its main symptom, diarrhea, is very common in infants. Hence, the diagnosis of CLD can prove difficult. Mutational analysis of the SLC26A3 gene should be considered as a viable method to confirm a diagnosis of CLD in Korean infants with persistent diarrhea.

Cystic fibrosis transmembrane conductance regulator and SLC26 transporters in HCO₃⁻ secretion by pancreatic duct cells / 生理学报

Pancreatic duct cells secrete HCO3(-) ions into a HCO3(-)-rich luminal fluid (~140 mmol/L in human) against at least a 6-fold concentration gradient. Candidate mechanisms for HCO3(-) transport across the apical membrane include Cl(-)-HCO3(-)exchange by an SLC26 anion transporter and diffusion via the HCO3(-) conductance of cystic fibrosis transmembrane conductance regulator (CFTR). Members of the SLC26 family are known to mediate Cl(-)-HCO3(-) exchange across the apical membrane of other epithelia and both SLC26A6 and SLC26A3 have been detected in pancreatic ducts. Co-expression studies have also revealed that murine slc26a6 and slc26a3 physically interact with CFTR through the STAS domain of slc26 and the R domain of CFTR, resulting in mutually enhanced activity. Other studies have indicated that these exchangers are electrogenic: slc26a6 mediating 1Cl(-)-2HCO3(-) exchange and slc26a3 mediating 2Cl(-)-1HCO3(-) exchange. Recent experiments using isolated pancreatic ducts from slc26a6(-)/(-) mice suggest that slc26a6 mediates most of the Cl(-)-dependent secretion of HCO3(-) across the apical membrane in the mouse and the data are consistent with the reported electrogenicity of slc26a6. However, the role of SLC26A6 in human pancreatic HCO3(-) secretion is less clear because human ducts are capable of secreting much higher concentrations of HCO3(-). The role of SLC26A6 must now be evaluated in a species such as the guinea pig which, like the human, is capable of secreting HCO3(-) at a concentration of ~140 mmol/L. From existing guinea pig data we calculate that a 1Cl(-)-2HCO3(-) exchanger such as slc26a6 would be unable to secrete HCO3(-) against such a steep gradient. On the other hand, the HCO3(-) conductance of CFTR could theoretically support secretion of HCO3(-) to a much higher concentrations. CFTR may therefore play a more important role than SLC26A6 in HCO3(-) secretion by the guinea pig and human pancreas.

Effect of glandular kallikrein on distal bicarbonate transport. Role of basolateral Cl-/HCO3- exchanger and vacuolar H(+)-ATPase

The luminal membrane of collecting duct cells, specially the intercalated cells, is normally exposed to active kallikrein. This is due to the specific localization of renal kallikrein in the connecting tubule cells. We have previously reported inhibition of distal bicarbonate secretion by renal kallikrein. The present study was performed to evaluate the participation of basolateral Cl-/HCO3- exchanger and luminal H(+)-ATPase activity of cortical collecting duct segments (CCD) in the mechanism involved in the inhibition of bicarbonate secretion induced by the enzyme. The effect of orthograde injections of 1 microgram/ml (250 U/6.3 mg) pig pancreatic kallikrein, in the absence and presence of 1 mM DIDS (stilbene-disulfonic acid) in the renal tubule system, was evaluated. Urine fractions were collected after two-minutes stop-flow. Changes in the urine fraction (Fr) related to those in free-flow urine samples (Ff) were related to the respective polyfructosan (Inutest) ratio. Renal kallikrein activity (Fr:Ff kallikrein/Fr:Ff polyfructosan) increased significantly in the first 120 microliters urine fraction collected after glandular 1 microgram/ml kallikrein, P < 0.05, (first stop-flow) and after glandular 1 microgram/ml kallikrein plus 1 mM. DIDS P < 0.05 (second stop flow). Bicarbonate secretion rate (Fr:Ff HCO3-/Fr:Ff polyfructosan) of collecting ducts was significantly reduced in the first 120 microliters urine fraction collected, related to control, during the first and second stop-flow periods. No difference was shown in bicarbonate excretion between the first 120 microliters urine fractions collected after administration of glandular kallikrein and glandular kallikrein plus DIDS. To measure H(+)-ATPase activity, rat microdissected cortical collector tubules (CCD) were incubated in the presence of increasing glandular kallikrein doses (A: 93, B: 187 and C: 375 mU/200 microL) in the presence of ouabain (4 microM) and omeprazole (100 microM) to inhibit Na(+)-K(+)-ATPase and H(+)-K(+)-ATPase, respectively. In CCD, bafilomycin-sensitive H(+)-ATPase activity (pmol/mm/min) after increasing kallikrein doses did not differ significantly from control...