Taisuke Isozaki scite author profile

Low protein diets reverse the urea concentration gradient in the renal inner medulla. To investigate the mechanism(s) for this change, we studied urea transport and cell ultrastructure in initial and terminal inner medullary collecting ducts (IMCD) from rats fed 18% protein or an isocaloric, 8% protein diet for 4 wk. Serum urea, aldosterone, and albumin were significantly lower in rats fed 8% protein, but total protein and potassium were unchanged. Vasopressin stimulated passive urea permeability (P.") threefold (P < 0.05) in initial IMCDs from rats fed 8% protein, but not from rats fed 18% protein. Luminal phloretin reversibly inhibited vasopressin-stimulated P,.However, in terminal IMCDs from rats fed either diet, vasopressin stimulated P,,. Net transepithelial urea flux (measured with identical perfusate and bath solutions) was found only in initial IMCDs from rats fed 8% protein. Reducing the temperature reversibly inhibited it, but phloretin did not. Electron microscopy of initial IMCD principal cells from rats fed 8% protein showed expanded Golgi bodies and prominent autophagic vacuoles, and morphometric analysis demonstrated a marked increase in the surface density and boundary length of the basolateral plasma membrane. These ultrastructural changes were not observed in the terminal IMCD. Thus, 8% dietary protein causes two new urea transport processes to appear in initial but not terminal IMCDs. This is the first demonstration that "active" urea transport can be induced in a mammalian collecting duct segment. (J. Clin. Invest. 1993.

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Protein restriction sequentially induces new urea transport processes in rat initial IMCD

Isozaki

Gillin

Swanson

et al. 1994

American Journal of Physiology-Renal Physiology

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We reported that feeding rats 8% protein for 4 wk induces two new urea transport processes in initial inner medullary collecting ducts (IMCD); neither is present in rats fed 18% protein. In this study, we measured the time course of induction of these transporters in perfused initial IMCD segments from rats fed 8% protein. Net urea flux was induced after 3 wk, whereas vasopressin-stimulated passive urea permeability (P(urea)) was induced after 2 wk. 8-Bromoadenosine 3',5'-cyclic monophosphate (8-BrcAMP) significantly increased P(urea)); adding vasopressin did not increase P(urea) further. In fact, there was no difference in vasopressin-stimulated cAMP production in initial or terminal IMCD segments from rats fed 18% or 8% protein, suggesting that the adaptive response was not due to increased cAMP production. Glucagon did not change cAMP production or P(urea). Specificity of the response was suggested because neither aldose reductase nor sorbitol dehydrogenase activity changed with feeding 8% protein. Thus 1) in initial IMCD segments, vasopressin-stimulated P(urea) is induced after 2 wk, but net urea flux requires 3 wk of feeding 8% protein; 2) this adaptation is not solely due to a higher rate of cAMP production; and 3) specificity of the adaptive response is suggested because activities of enzymes responding to decreases in concentrating ability are unchanged. These results suggest that two distinct urea transporters may be involved in the adaptation to a low-protein diet.

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Sodium-dependent net urea transport in rat initial inner medullary collecting ducts.

Isozaki¹,

Lea²,

Tumlin³

et al. 1994

J. Clin. Invest.

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We reported that feeding rats 8% protein for 3 wk induces net urea transport and morphologic changes in initial inner medullary collecting ducts (IMCDs) which are not present in rats fed 18% protein. In this study, we measured net urea transport in microperfused initial IMCDs from rats fed 8% protein for -3 wk and tested the effect of inhibiting Na+/ K+-ATPase activity and found that adding 1 mM ouabain to the bath reversibly inhibited net urea transport from 14+3 to 6±2 pmol/mm per min (P < 0.01), and that replacing potassium (with sodium) in the bath reversibly inhibited net urea transport from 18±3 to 5±0 pmol/mm per min (P < 0.01). Replacing perfusate sodium with N-methyl-Dglucamine reversibly inhibited net urea transport from 12±2 to 0±1 pmol/mm per min (P < 0.01), whereas replacing bath sodium had no significant effect on net urea transport. Adding 10 nM vasopressin to the bath exerted no significant effect on net urea transport. Finally, we measured Na+/K+-ATPase activity in initial and terminal IMCDs from rats fed 18% or 8% protein and found no significant difference in either subsegment. Thus, net urea transport in initial IMCDs from rats fed 8% protein for 2 3 wk requires sodium in the lumen, is reduced by inhibiting Na+/K+-ATPase, and is unchanged by vasopressin or phloretin. These results suggest that net urea transport may occur via a novel, secondary active, sodium-urea cotransporter. (J.

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Presence of Streptococcus mutans strains harbouring the cnm gene correlates with dental caries status and IgA nephropathy conditions

Misaki

Naka

Hatakeyama

et al. 2016

Sci Rep

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Streptococcus mutans is a major pathogen of human dental caries. Strains harbouring the cnm gene, which encodes Cnm, a collagen-binding protein, contribute to the development of several systemic diseases. In this study, we analysed S. mutans strains isolated from the oral cavity of immunoglobulin (Ig)A nephropathy (IgAN) patients to determine potential relationships between cnm and caries status as well as IgAN conditions. Saliva specimens were collected from 109 IgAN patients and the cnm status of isolated S. mutans strains was determined using PCR. In addition, the dental caries status (decayed, missing or filled teeth [DMFT] index) in patients who agreed to dental consultation (n = 49) was evaluated. The DMFT index and urinary protein levels in the cnm-positive group were significantly higher than those in the cnm-negative group (p < 0.05). Moreover, the urinary protein levels in the high DMFT (≥15) group were significantly higher than those in the low DMFT (<15) group (p < 0.05). Our results show that isolation of cnm-positive S. mutans strains from the oral cavity may be associated with urinary protein levels in IgAN patients, especially those with a high dental caries status.

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Urea transport in initial IMCD of rats fed a low-protein diet: functional properties and mRNA abundance

Ashkar

Martial

Isozaki

et al. 1995

American Journal of Physiology-Renal Physiology

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Feeding rats a low-protein (8%) diet (LPD) for 2 wk induces a facilitated urea transporter in rat initial inner medullary collecting ducts (IMCDs). To determine whether this is preceded by an increase in mRNA abundance, we designed degenerate polymerase chain reaction primers to the rabbit facilitated urea transporter (UT2; G. You, C. P. Smith, Y. Kanai, W.-S. Lee, M. Stelzner, and M. A. Hediger. Nature Lond. 365: 844-847, 1993) and amplified a 716-bp cDNA fragment to perform Northern analysis of the base or tip of rat inner medulla. In the base, the predominant transcript was a 2.9-kb band, which increased 55% after 1 wk on an LPD; there was no change in a 4-kb band. In the tip, the 4-kb band predominated, but neither band varied with an LPD. Next, we functionally characterized the induced urea transporter using microperfused initial IMCDs from rats fed an LPD for 2 wk. First, 100 pM arginine vasopressin (AVP) stimulated urea permeability (Purea); 10 nM AVP increased Purea further. Second, raising perfusate and bath osmolality to 690 mosmol/kgH2O (NaCl added) stimulated Purea; adding AVP (10 nM) increased Purea further. Third, thiourea reversibly inhibited AVP-stimulated Purea.(ABSTRACT TRUNCATED AT 250 WORDS)

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Taisuke Isozaki

Low protein diet alters urea transport and cell structure in rat initial inner medullary collecting duct.

Protein restriction sequentially induces new urea transport processes in rat initial IMCD

Sodium-dependent net urea transport in rat initial inner medullary collecting ducts.

Presence of Streptococcus mutans strains harbouring the cnm gene correlates with dental caries status and IgA nephropathy conditions

Urea transport in initial IMCD of rats fed a low-protein diet: functional properties and mRNA abundance

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