In vivo fractional Pi absorption and NaPi-II mRNA expression in rainbow trout are upregulated by dietary P restriction

Shozo H. Sugiura; Nichole K. McDaniel; Ronaldo Ferraris

In vivo fractional P_i absorption and NaP_i-II mRNA expression in rainbow trout are upregulated by dietary P restriction

Shozo H. Sugiura, Nichole K. McDaniel, Ronaldo Ferraris

New Jersey Medical School (NJMS), Pharmacology

Rutgers, The State University

Research output: Contribution to journal › Article

43 Citations (Scopus)

Abstract

Mammalian type II sodium-phosphate cotransporter (NaP_i-II) and inorganic phosphate uptake stimulator (P_iUS) genes are upregulated by dietary phosphorus (P) restriction to increase intestinal and renal P transport, but little is known about NaP_i-II and P_iUS regulation in other vertebrates. We studied the 1) the tissue distribution and dietary regulation of NaP_i-II, P_iUS, and sodium-glucose cotransporter (SGLT1) mRNA and NaP_i-II protein in juvenile rainbow trout (Oncorhynchus mykiss) and 2) effects of dietary P on intestinal P _i absorption in vivo. NaP_i-II, P_iUS, and SGLT1 mRNA were found in the proximal and distal intestine, pyloric ceca, and kidney. P_iUS mRNA was also found in the heart, gill, blood, stomach, liver, skin, and muscle. Tissue distribution of NaP_i-II protein correlated with that of NaP_i-II mRNA except in gill ionocytes where NaP _i-II antibodies recognized related epitopes. Chronic consumption of a low-P diet increased NaP_i-II and P_iUS but not SGLT1 mRNA abundance in the intestine and kidney. Unlike mammals, there was no detectable shift in tissue or cellular localization of NaP_i-II protein in response to dietary P restriction. Regulation of NaP_i and P_iUS mRNA expression was observed only in fish grown under optimal aqueous oxygen concentrations. In vivo fractional absorption of P_i by the intestine decreased in fish fed high-P diets. Decreases in absorption were less pronounced in fish previously fed low-P diets, suggesting that diet history modulates acute regulation of P absorption. Regulation of dietary P _i absorption in vivo may involve a specific change in intestinal NaP_i-II and P_iUS gene expression.

Original language	English (US)
Journal	American Journal of Physiology - Regulatory Integrative and Comparative Physiology
Volume	285
Issue number	4 54-4
State	Published - Oct 1 2003

Fingerprint

Oncorhynchus mykiss

Phosphates

Messenger RNA

Diet

Intestines

Fishes

Tissue Distribution

Kidney

Sodium-Phosphate Cotransporter Proteins

Sodium-Glucose Transport Proteins

Dietary Phosphorus

Proteins

Cecum

Vertebrates

Epitopes

Mammals

Stomach

Oxygen

Gene Expression

Muscles

All Science Journal Classification (ASJC) codes

Physiology (medical)
Physiology

Cite this

Sugiura, S. H., McDaniel, N. K., & Ferraris, R. (2003). In vivo fractional P_i absorption and NaP_i-II mRNA expression in rainbow trout are upregulated by dietary P restriction. American Journal of Physiology - Regulatory Integrative and Comparative Physiology, 285(4 54-4).

Sugiura, Shozo H. ; McDaniel, Nichole K. ; Ferraris, Ronaldo. / In vivo fractional P_i absorption and NaP_i-II mRNA expression in rainbow trout are upregulated by dietary P restriction. In: American Journal of Physiology - Regulatory Integrative and Comparative Physiology. 2003 ; Vol. 285, No. 4 54-4.

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title = "In vivo fractional Pi absorption and NaPi-II mRNA expression in rainbow trout are upregulated by dietary P restriction",

abstract = "Mammalian type II sodium-phosphate cotransporter (NaPi-II) and inorganic phosphate uptake stimulator (PiUS) genes are upregulated by dietary phosphorus (P) restriction to increase intestinal and renal P transport, but little is known about NaPi-II and PiUS regulation in other vertebrates. We studied the 1) the tissue distribution and dietary regulation of NaPi-II, PiUS, and sodium-glucose cotransporter (SGLT1) mRNA and NaPi-II protein in juvenile rainbow trout (Oncorhynchus mykiss) and 2) effects of dietary P on intestinal P i absorption in vivo. NaPi-II, PiUS, and SGLT1 mRNA were found in the proximal and distal intestine, pyloric ceca, and kidney. PiUS mRNA was also found in the heart, gill, blood, stomach, liver, skin, and muscle. Tissue distribution of NaPi-II protein correlated with that of NaPi-II mRNA except in gill ionocytes where NaP i-II antibodies recognized related epitopes. Chronic consumption of a low-P diet increased NaPi-II and PiUS but not SGLT1 mRNA abundance in the intestine and kidney. Unlike mammals, there was no detectable shift in tissue or cellular localization of NaPi-II protein in response to dietary P restriction. Regulation of NaPi and PiUS mRNA expression was observed only in fish grown under optimal aqueous oxygen concentrations. In vivo fractional absorption of Pi by the intestine decreased in fish fed high-P diets. Decreases in absorption were less pronounced in fish previously fed low-P diets, suggesting that diet history modulates acute regulation of P absorption. Regulation of dietary P i absorption in vivo may involve a specific change in intestinal NaPi-II and PiUS gene expression.",

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Sugiura, SH, McDaniel, NK & Ferraris, R 2003, 'In vivo fractional P_i absorption and NaP_i-II mRNA expression in rainbow trout are upregulated by dietary P restriction', American Journal of Physiology - Regulatory Integrative and Comparative Physiology, vol. 285, no. 4 54-4.

In vivo fractional P_i absorption and NaP_i-II mRNA expression in rainbow trout are upregulated by dietary P restriction. / Sugiura, Shozo H.; McDaniel, Nichole K.; Ferraris, Ronaldo.

In: American Journal of Physiology - Regulatory Integrative and Comparative Physiology, Vol. 285, No. 4 54-4, 01.10.2003.

Research output: Contribution to journal › Article

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