2020
DOI: 10.1093/ndt/gfaa156
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Evidence of an intestinal phosphate transporter alternative to type IIb sodium-dependent phosphate transporter in rats with chronic kidney disease

Abstract: Background Phosphate is absorbed in the small intestine via passive flow and active transport.NaPi-IIb, a type II sodium-dependent phosphate transporter, is considered to mediate active phosphate transport in rodents. To study the regulation of intestinal phosphate transport in chronic kidney disease (CKD), we analyzed the expression levels of NaPi-IIb, pituitary-specific transcription factor 1 (PiT-1) and PiT-2 and the kinetics of intestinal phosphate transport using two CKD models. … Show more

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Cited by 16 publications
(24 citation statements)
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“…9 Taken together, the results of these studies suggest a limited effect of NaPi-IIb inhibitors for the treatment of hyperphosphatemia in CKD patients. This lack of effect may be due to the decreased NaPi-IIb intestinal expression in advanced CKD as suggested by a recent experimental study; this suggests that other alternative phosphate transporter may predominate in the setting of advance kidney disease 10 Thus, low-affinity transporters, such as PiT-1 or PiT-2 gain importance for intestinal phosphate absorption; inhibition of these transporters might represent a novel therapeutic approach to ameliorate hyperphosphatemia in kidney diseases.…”
Section: Correspondencementioning
confidence: 99%
“…9 Taken together, the results of these studies suggest a limited effect of NaPi-IIb inhibitors for the treatment of hyperphosphatemia in CKD patients. This lack of effect may be due to the decreased NaPi-IIb intestinal expression in advanced CKD as suggested by a recent experimental study; this suggests that other alternative phosphate transporter may predominate in the setting of advance kidney disease 10 Thus, low-affinity transporters, such as PiT-1 or PiT-2 gain importance for intestinal phosphate absorption; inhibition of these transporters might represent a novel therapeutic approach to ameliorate hyperphosphatemia in kidney diseases.…”
Section: Correspondencementioning
confidence: 99%
“…133 An association between reduced calcitriol and reduced intestinal phosphate absorption has been shown in animal models. 134 Increased PTH leads to higher bone turnover, releasing calcium and phosphate, 9,135 and increased FGF23…”
Section: Disclosurementioning
confidence: 99%
“…However, the relative contribution of PiT1 and PiT2 to intestinal phosphate absorption is still a matter for deliberation. The expression of PiT1 is segment-specific and comparable to NPT2B, with strong expression in the duodenum and jejunum [ 62 , 63 ], whereas, PiT2 is expressed all along the intestine at low levels [ 64 ]. Historically, a role for the SLC20 transporters in transcellular sodium-dependent phosphate absorption by the intestine has generally been dismissed, as SLC34A2 deletion reduces transcellular phosphate absorption by ~90% [ 27 ].…”
Section: Phosphate Transporters: Knowledge From Animal Models and Human Physiologymentioning
confidence: 99%
“…A recent study however, suggests that SLC20 sodium phosphate co-transporters may well participate in intestinal phosphate absorption, as the use of the pan inhibitor, EOS789, in a rat model of CKD, had a stronger effect on reducing hyperphosphatemia than the use of a NPT2B-specific inhibitor alone [ 66 ]. In addition, the same group has also reported that whereas the contribution of NPT2B to transcellular absorption is dominant under normal conditions, SLC20-associated transcellular phosphate transport is likely to play a key role in intestinal phosphate absorption in rats with CKD [ 64 ]. Based on the relative expression levels of SLC20 proteins, the authors suggest that PiT1 rather than PiT2 is responsible for the low affinity phosphate absorption observed in rats with CKD [ 64 ].…”
Section: Phosphate Transporters: Knowledge From Animal Models and Human Physiologymentioning
confidence: 99%
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