Steven Coon scite author profile

. Na-glucose and Na-neutral amino acid cotransport are uniquely regulated by constitutive nitric oxide in rabbit small intestinal villus cells. Am J Physiol Gastrointest Liver Physiol 289: G1030 -G1035, 2005. First published August 11, 2005; doi:10.1152/ajpgi.00124.2005.-Na-nutrient cotransport processes are not only important for the assimilation of essential nutrients but also for the absorption of Na in the mammalian small intestine. The effect of constitutive nitric oxide (cNO) on Na-glucose (SGLT-1) and Na-amino acid cotransport (NAcT) in the mammalian small intestine is unknown. Inhibition of cNO synthase with N G -nitro-L-arginine methyl ester (L-NAME) resulted in the inhibition of Na-stimulated 3 H-O-methyl-D-glucose uptake in villus cells. However, Na-stimulated alanine uptake was not affected in these cells. The L-NAME-induced reduction in SGLT-1 in villus cells was not secondary to an alteration in basolateral membrane Na-K-ATPase activity, which provides the favorable Na gradient for this cotransport process. In fact, SGLT-1 was inhibited in villus cell brush-border membrane (BBM) vesicles prepared from animals treated with L-NAME. Kinetic studies demonstrated that the mechanism of inhibition of SGLT-1 was secondary to a decrease in the affinity for glucose without a change in the maximal rate of uptake of glucose. Northern blot studies demonstrated no change in the mRNA levels of SGLT-1. Western blot studies demonstrated no significant change in the immunoreactive protein levels of SGLT-1 in ileal villus cell BBM from L-NAME-treated rabbits. These studies indicate that inhibition of cNO production inhibits SGLT-1 but not NAcT in the rabbit small intestine. Therefore, whereas cNO promotes Na-glucose cotransport, it does not affect NAcT in the mammalian small intestine. mucosal blood flow; glucose absorption; sodium absorption; intestinal absorption; regulation of intestinal glucose; amino acid absorption NITRIC OXIDE (NO) has been demonstrated to alter gastrointestinal functions in normal and pathophysiological states. In the normal gastrointestinal tract, NO has been demonstrated to alter motility, mucosal blood flow, mucus secretion, and intestinal electrolyte and fluid transport (18,26). We have previously demonstrated that inhibition of constitutive nitric oxide (cNO) synthase with N G -nitro-L-arginine methyl ester (L-NAME) resulted in the unique regulation of the three functionally different rabbit enterocyte brush border membrane (BBM) anion/HCO 3 exchangers. It did not affect villus cell BBM Cl/HCO 3 exchange; stimulated crypt cell BBM Cl/HCO 3 exchange; and inhibited villus cell BBM short-chain fatty acid (SCFA)/HCO 3 exchange. Furthermore, kinetic studies demonstrated that the mechanism of inhibition of crypt cell BBM Cl/HCO 3 exchange is secondary to a decrease in the maximal rate of uptake of Cl, without an alteration in the affinity of the transporter for Cl. However, in contrast, the mechanism of stimulation of villus cell BBM SCFA/HCO 3 exchange is secondary to an increase in the affin...

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Neutral Na-amino acid cotransport is differentially regulated by glucocorticoids in the normal and chronically inflamed rabbit small intestine

Sundaram

Wisel²,

Coon³

2007

American Journal of Physiology-Gastrointestinal and Liver Physi

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Neutral Na-amino acid cotransport by system ATB(0) [e.g., Na-alanine cotransport (NAcT)] is an important means of assimilation of amino acids in the intestine. NAcT is inhibited during chronic intestinal inflammation by an alteration in the affinity for the amino acid. How glucocorticoids, a standard of treatment for diseases characterized by chronic intestinal inflammation, may affect NAcT during chronic enteritis is not known. Thus we first demonstrated that methylprednisolone (MP) stimulated NAcT in the normal intestine. The mechanism of stimulation was secondary to an increase in cotransporter numbers without an alteration in the affinity for the amino acid. Treatment with MP reversed the reduction in NAcT in villus cells from the chronically inflamed intestine. MP also alleviated the decrease in Na-K-ATPase activity in villus cells during chronic enteritis. However, MP treatment reversed the NAcT inhibition in villus cell brush border membrane vesicles from the inflamed intestine, which suggested an effect of MP at the level of the cotransporter itself. Kinetic studies demonstrated that the reversal of NAcT inhibition by MP was secondary to restoration in the affinity for the amino acid without a change in the V(max). Unaltered steady-state mRNA and immunoreactive protein levels of NAcT also indicated that the number of cotransporters was unchanged after MP treatment in the chronically inflamed intestine. These results indicated that MP reversed NAcT inhibition in the chronically inflamed intestine by restoring the affinity of the transporter for the amino acid while it stimulated NAcT in the normal intestine by increasing the cotransporter numbers. Therefore, MP differentially regulates NAcT in the normal and chronically inflamed intestine.

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Unique regulation of anion/HCO₃^- exchangers by constitutive nitric oxide in rabbit small intestine

Coon

Sundaram

2003

American Journal of Physiology-Gastrointestinal and Liver Physi

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In the rabbit small intestine, there are three functionally different brush-border membrane (BBM) anion/HCO3- exchangers: 1) Cl/HCO3- exchange on the BBM of villus cells responsible for coupled NaCl absorption; 2) Cl/HCO3- exchange on the BBM of crypt cells possibly involved in HCO3- secretion; and 3) short-chain fatty acid (SCFA)/HCO3- exchange on the BBM of villus cells, which facilitates SCFA absorption. Although constitutive nitric oxide (cNO) has been postulated to alter many gastrointestinal tract functions, how cNO may specifically alter these three transporters is unknown. Inhibition of cNO synthase with NG-nitro-L-arginine methyl ester (L-NAME) 1) did not affect villus cell BBM Cl/HCO3 change, 2) stimulated crypt cell BBM Cl/HCO3- exchange, and 3) inhibited villus cell BBM SCFA/HCO3- exchange. D-NAME, an inactive analog of L-NAME, and L-N6-(1-iminoethyl)lysine, a more selective inhibitor of inducible NO, did not affect these transport processes. Kinetic studies demonstrated that 1) the mechanism of inhibition of crypt cell BBM Cl/HCO3- exchange is secondary to a decrease in the maximal rate of uptake of Cl, without an alteration in the affinity of the transporter for Cl, and 2) the mechanism of stimulation of villus cell BBM SCFA/HCO3- exchange is secondary to an increase in the affinity of the transporter for SCFA without an alteration in the maximal rate of uptake of SCFA. These results indicate that cNO uniquely regulates the three BBM anion/HCO3- transporters in the rabbit small intestine.

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Racial differences in serum prostate‐specific antigen (PSA) doubling time, histopathological variables and long‐term PSA recurrence between African‐American and white American men undergoing radical prostatectomy for clinically localized prostate cancer

et al. 2005

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OBJECTIVETo determine if there are significant differences in biochemical characteristics, biopsy variables, histopathological data, and rates of prostate-specific antigen (PSA) recurrence between African-American (AA) and white American (WA) men undergoing radical prostatectomy (RP), as AA men are twice as likely to die from prostate cancer than their white counterparts. PATIENTS AND METHODSWe established a cohort of 1058 patients (402 AA, 646 WA) who had RP and were followed for PSA recurrence. Age, race, serum PSA, biopsy Gleason score, clinical stage, pathological stage, and PSA recurrence data were available for the cohort. The chi-square test of proportions and t -tests were used to assess basic associations with race, and logrank tests and Cox regression models for time to PSA recurrence. Forward stepwise variable selection was used to assess the effect on the risk of PSA recurrence for race, adjusted by the other variables added one at a time. RESULTSThe AA men had higher baseline PSA levels, more high-grade prostatic intraepithelial neoplasia (HGPIN) in the biopsy, and more HGPIN in the pathology specimen than WA men. The AA men also had a shorter mean ( SD ) PSA doubling time before RP, at 4.2 (4.7) vs 5.2 (5.9) years. However, race was not an independent predictor of PSA recurrence

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Steven Coon

Neuronal enhancers are hotspots for DNA single-strand break repair

Na-glucose and Na-neutral amino acid cotransport are uniquely regulated by constitutive nitric oxide in rabbit small intestinal villus cells

Neutral Na-amino acid cotransport is differentially regulated by glucocorticoids in the normal and chronically inflamed rabbit small intestine

Unique regulation of anion/HCO₃^- exchangers by constitutive nitric oxide in rabbit small intestine

Racial differences in serum prostate‐specific antigen (PSA) doubling time, histopathological variables and long‐term PSA recurrence between African‐American and white American men undergoing radical prostatectomy for clinically localized prostate cancer

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Steven Coon

Neuronal enhancers are hotspots for DNA single-strand break repair

Na-glucose and Na-neutral amino acid cotransport are uniquely regulated by constitutive nitric oxide in rabbit small intestinal villus cells

Neutral Na-amino acid cotransport is differentially regulated by glucocorticoids in the normal and chronically inflamed rabbit small intestine

Unique regulation of anion/HCO3- exchangers by constitutive nitric oxide in rabbit small intestine

Racial differences in serum prostate‐specific antigen (PSA) doubling time, histopathological variables and long‐term PSA recurrence between African‐American and white American men undergoing radical prostatectomy for clinically localized prostate cancer

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Unique regulation of anion/HCO₃^- exchangers by constitutive nitric oxide in rabbit small intestine