Enteric oxalate elimination is induced and oxalate is normalized in a mouse model of primary hyperoxaluria following intestinal colonization with<i>Oxalobacter</i>

Hatch, Marguerite; Gjymishka, Altin; Salido, Eduardo; Allison, Milton J.; Freel, Robert W.

doi:10.1152/ajpgi.00434.2010

Cited by 130 publications

(164 citation statements)

References 27 publications

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“…Cecal epithelia from WT mice exhibited a prominent net absorption of oxalate (8 pmol·cm Ϫ2 ·h Ϫ1 ) under shortcircuit conditions, as we reported earlier (20). The unidirectional oxalate fluxes in this segment were similar in magnitude to those measured in the ileum, even though the conductance of cecal tissues was 30% lower.…”

Section: Discussionsupporting

confidence: 82%

“…In the present study, the distal colon of WT mice exhibited a net absorption of oxalate, whereas we previously observed a small net oxalate secretion in another strain/colony with the C57BL/6 background (20). The basis of this difference is not clear but resides in the higher secretory component observed in the latter study, as the magnitudes of J ms Ox were similar in both strains.…”

Section: Dra Mediates Oxalate and CLcontrasting

confidence: 65%

“…Fecal samples were collected directly from the mouse intestinal lumen at the time the tissues were being prepared for the flux studies. The presence of anaerobic oxalatedegrading bacteria in the luminal contents was determined by inoculation of anaerobically sealed vials containing 20 mM oxalate with ϳ20 mg of fecal material (20). Any change in oxalate concentration by microbial action in these vials incubated at 37°C was determined 1 wk later by our routine enzymatic oxalate assay.…”

Section: Methodsmentioning

confidence: 99%

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Transcellular oxalate and Cl⁻absorption in mouse intestine is mediated by the DRA anion exchanger Slc26a3, and DRA deletion decreases urinary oxalate

Freel

Whittamore

Hatch

2013

American Journal of Physiology-Gastrointestinal and Liver Physi

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Freel RW, Whittamore JM, Hatch M. Transcellular oxalate and Cl Ϫ absorption in mouse intestine is mediated by the DRA anion exchanger Slc26a3, and DRA deletion decreases urinary oxalate. Am J Physiol Gastrointest Liver Physiol 305: G520 -G527, 2013. First published July 25, 2013; doi:10.1152/ajpgi.00167.2013.-Active transcellular oxalate transport in the mammalian intestine contributes to the homeostasis of this important lithogenic anion. Several members of the Slc26a gene family of anion exchangers have a measurable oxalate affinity and are expressed along the gut, apically and basolaterally. Mouse Slc26a6 (PAT1) targets to the apical membrane of enterocytes in the small intestine, and its deletion results in net oxalate absorption and hyperoxaluria. Apical exchangers of the Slc26a family that mediate oxalate absorption have not been established, yet the Slc26a3 [downregulated in adenoma (DRA)] protein is a candidate mediator of oxalate uptake. We evaluated the role of DRA in intestinal oxalate and Cl Ϫ transport by comparing unidirectional and net ion fluxes across short-circuited segments of small (ileum) and large (cecum and distal colon) intestine from wild-type (WT) and DRA knockout (KO) mice. In WT mice, all segments demonstrated net oxalate and Cl Ϫ absorption to varying degrees. In KO mice, however, all segments exhibited net anion secretion, which was consistently, and solely, due to a significant reduction in the absorptive unidirectional fluxes. In KO mice, daily urinary oxalate excretion was reduced 66% compared with that in WT mice, while urinary creatinine excretion was unchanged. We conclude that DRA mediates a predominance of the apical uptake of oxalate and Cl Ϫ absorbed in the small and large intestine of mice under short-circuit conditions. The large reductions in urinary oxalate excretion underscore the importance of transcellular intestinal oxalate absorption, in general, and, more specifically, the importance of the DRA exchanger in oxalate homeostasis. large intestine; small intestine; kidney stones; anion exchange; hyperoxaluria; chloride-losing diarrhea; nephrolithiasis THE MAMMALIAN INTESTINE PLAYS an important role in systemic oxalate homeostasis as a source for dietary oxalate absorption and as an extrarenal avenue for oxalate excretion (17-19). Like most solutes, transepithelial oxalate transport occurs through transcellular and paracellular pathways to produce net oxalate absorption or secretion, often in a segment-specific manner (18,19). On the basis of stilbene sensitivity of transepithelial oxalate transport and ion-substitution experiments, our earlier studies using rat and rabbit intestine (18,19) suggest that absorptive and secretory pathways involve ion-exchange mechanisms at the apical and basolateral poles of the enterocyte. These views were consistent with numerous studies utilizing apical and basolateral membrane vesicles of intestinal and renal epithelia (28), further indicating a multiplicity of anion-exchange mechanisms mediating oxalate transport. However, because ...

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Section: Discussionsupporting

confidence: 82%

Section: Dra Mediates Oxalate and CLcontrasting

confidence: 65%

Section: Methodsmentioning

confidence: 99%

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Transcellular oxalate and Cl⁻absorption in mouse intestine is mediated by the DRA anion exchanger Slc26a3, and DRA deletion decreases urinary oxalate

Freel

Whittamore

Hatch

2013

American Journal of Physiology-Gastrointestinal and Liver Physi

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“…Three microbial enzymes are known to participate in the catabolism of oxalate: an oxalate:formate antiporter, which allows oxalate to enter the bacterial cell; formyl-CoA transferase, which converts oxalate to oxalyl-CoA; and oxalyl-CoA decarboxylase, which yields formyl-CoA. Oxalobacter formigenes is one of the key bacteria responsible for this reaction: (a) it can use oxalate as a sole carbon source (27); (b) lack of O. formigenes is associated with increased risk of hyperoxaluria and kidney stones (28); and (c) administration of O. formigenes reduces urinary oxalate concentrations (29,30).…”

Section: R E V I E W S E R I E S : G U T M I C R O B I O M Ementioning

confidence: 99%

Host-microbial interactions in the metabolism of therapeutic and diet-derived xenobiotics

Carmody¹,

Turnbaugh²

2014

J. Clin. Invest.

214

145

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“…The hoped-for net effect is to increase gut and decrease urinary oxalate elimination. Studies in a mouse model of type 1 PH support the possible effect of this strategy (35). Indeed, in a small unblinded pilot study of four PH patients, urine oxalate excretion fell up to 50% during 4 weeks on an oral preparation of O. formigenes (36).…”

Section: Oxalobacter and Oxalate Metabolismmentioning

confidence: 97%

Probiotics for prevention of urinary stones

Lieske

2017

Ann. Transl. Med.

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Background: Urinary supersaturation is one key determinant of calcium oxalate (CaOx) urinary stone formation, and urinary excretions of oxalate and citrate are two key determinants. Each is influenced by gastrointestinal processes.Methods: Open label and randomized placebo studies have examined the effect of oral probiotic preparations on urinary supersaturation and oxalate excretion. Cross sectional studies in humans have studied the association of Oxalobacter formigenes colonization status and urinary oxalate excretion and prevalence of urinary stones. The intestinal microbiome of representative animals adapted to a high oxalate diet has been defined. Results:The fecal content of O. formigenes, the best studied oxalate-degrader, varies depending on stone status.However, trials with probiotics designed to degrade oxalate including those containing O. formigenes, Lactobacillus, and/or Bifidobacterium spp., have been disappointing. Multiple intestinal segments of animals on a high oxalate diet contains diverse communities of microorganisms that can function together to degrade and detoxify a large oxalate load.Conclusions: Although the intestinal microbiome seems likely to play a role to modify gastrointestinal absorption of lithogenic substances and hence urinary stone risk, whether we can develop tools to manipulate it and decrease this kidney stone risk remains to be determined.

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Enteric oxalate elimination is induced and oxalate is normalized in a mouse model of primary hyperoxaluria following intestinal colonization withOxalobacter

Cited by 130 publications

References 27 publications

Transcellular oxalate and Cl⁻absorption in mouse intestine is mediated by the DRA anion exchanger Slc26a3, and DRA deletion decreases urinary oxalate

Transcellular oxalate and Cl⁻absorption in mouse intestine is mediated by the DRA anion exchanger Slc26a3, and DRA deletion decreases urinary oxalate

Host-microbial interactions in the metabolism of therapeutic and diet-derived xenobiotics

Probiotics for prevention of urinary stones

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Enteric oxalate elimination is induced and oxalate is normalized in a mouse model of primary hyperoxaluria following intestinal colonization withOxalobacter

Cited by 130 publications

References 27 publications

Transcellular oxalate and Cl−absorption in mouse intestine is mediated by the DRA anion exchanger Slc26a3, and DRA deletion decreases urinary oxalate

Transcellular oxalate and Cl−absorption in mouse intestine is mediated by the DRA anion exchanger Slc26a3, and DRA deletion decreases urinary oxalate

Host-microbial interactions in the metabolism of therapeutic and diet-derived xenobiotics

Probiotics for prevention of urinary stones

Contact Info

Product

Resources

About

Transcellular oxalate and Cl⁻absorption in mouse intestine is mediated by the DRA anion exchanger Slc26a3, and DRA deletion decreases urinary oxalate

Transcellular oxalate and Cl⁻absorption in mouse intestine is mediated by the DRA anion exchanger Slc26a3, and DRA deletion decreases urinary oxalate