• 미생물학회지
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• 제30권4호
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• pp.269-277
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• 1992

Several insertion mutants of Escherichia coli in the ant gene, coding for $Na^{+}$ $H^{+}$ antiport activity, showed littel, if any, reduction in the antiport activity. $Na^{+}$ dependent transport activity also remained at wild type level. These facts led to the idea that E. coli has evolved at least two distinct systems for extrusion of $Na^{+}$ The antiport activities were studied under various conditions to reveal different properties of these systems. For convenience these activities are referred to as major and minor activities. The distinguishing properties of the two systems include : kinetics (Km, Vm) at pH 7.8, competition pattern between $Na^{+}$ and Li$^{+}$ , pH profiles, pattern of the change in kinetic parameters as a function of pH, and sensitivity to protease, chemicals and heat.

• The Korean Journal of Physiology and Pharmacology
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• 제2권1호
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• pp.69-76
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• 1998

Cis-diamminedichloroplatinum II (cisplatin), an effective antitumor agent, induces acute renal failure by unknown mechanisms. To investigate direct toxic effects of cisplatin in the renal proximal tubular transport system, OK cell line was selected as a cell model and $Na^+/H^+$ antiport activity was evaluated during a course of cisplatin treatment. The cells grown to confluence were treated with cisplatin for 1 hour, washed, and incubated for up to 48 hours. At appropriate intervals, cells were examined for $Na^+/H^+$ antiport activity by measuring the recovery of intracellular pH (pHi) after acid loading. Cisplatin of less than 50 ${\mu}M$ induced no significant changes in cell viability in 24 hours, but it decreased the viability markedly after 48 hours. In cells exposed to 50 ${\mu}M$ cisplatin for 24 hours, the $Na^+-dependent$ pHi recovery (i.e., $Na^+/H^+$ antiport) was drastically inhibited with no changes in the $Na^+-independent$ recovery. Kinetic analysis of the $Na^+-dependent$ pHi recovery indicated that the Vmax was reduced, but the apparent Km was not altered. The cellular $Na^+$ and $K^+$ contents determined immediately before the transport measurement appeared to be similar in the control and cisplatin group, thus, the driving force for $Na^+-coupled$ transport was not different. These results indicate that cisplatin exposure impairs the $Na^+/H^+$ antiport capacity in OK cells. It is, therefore, possible that in patients treated with a high dose of cisplatin, proximal tubular mechanism for proton secretion (hence $HCO_3^-$ reabsorption) could be attenuated, leading to a metabolic acidosis (proximal renal tubular acidosis).

• The Korean Journal of Physiology and Pharmacology
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• 제6권1호
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• pp.41-46
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• 2002

Effect of cadmium (Cd) intoxication on renal acid-base regulation was studied in adult male Sprague-Dawley rats. Cd intoxication was induced by subcutaneous injections of $CdCl_2$ at a dose of 2 mg Cd/kg/day for $3{\sim}4$ weeks. In Cd-intoxicated animals, arterial pH, $PCO_2$ and plasma bicarbonate concentration decreased, showing a metabolic acidosis. Urine pH and urinary bicarbonate excretion increased and titratable acid excretion decreased with no change in ammonium excretion. In renal cortical brush-border membrane vesicles derived from Cd-exposed animals, the $Na^+/H^+$ antiporter activity was significantly attenuated. These results indicate that chronic exposures to Cd impair the proximal tubular mechanism for $H^+$ secretion (i.e., $Na^+/H^+$ antiport), leading to a metabolic acidosis.

• The Korean Journal of Physiology and Pharmacology
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• 제1권4호
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• pp.425-434
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• 1997

Many reports represent that angiotensin II (ANG II) caused a dose dependent biphasic effects on fluid transport in the proximal tubule. However, respective roles of different signaling pathways in mediating these effects remain unsettled. The aim of the present study was to examine signaling pathways at high doses of ANG II on the $Na^+$ uptake of primary cultured rabbit renal proximal tubule cells(PTCs) in hormonally defined serum-free medium. High concentrations of ANG II $(>10^{-9}\;M)$ inhibited $Na^+$ uptake and increased $[Ca^{2+}]_i\;level$ in the PTCs. However, low concentrations of $(<10^{-11}\;ANG\;II)$ stimulated $Na^+$ uptake and did not affect $[Ca^{2+}]_i\;level$. 8-(N, N-diethylamino)-octyl-3,3,5- trimethoxybenzoate (TMB-8), ethylene glycol-bis$({/beta}-amino\;ethyl ether)-N,N,N'$, N'-tetra acetic acid (EGTA), and nifedifine partially blocked the inhibitory effects of ANG II on $Na^+$ uptake. When ANG II and bradykinin (BK) were treated together, $Na^+$ uptake was further reduced $(88.47{\pm}1.98%\;of\;that\;of\;ANG\;II,\;81.85{\pm}1.84%\;of\;that\;of\;BK)$. In addition, W-7 and KN-62 blocked the ANG II-induced inhibition of $Na^+$ uptake. Arachidonic acid reduced $Na^+$ uptake in a dose-dependent manner. When ANG II and arachidonic acid were treated together, inhibitory effects on $Na^+$ uptake significantly exhibited greater reduction than that of each group, respectively. When PTCs were treated by mepacrine $(10^{-6}\;M)$ and AACOCF3 $(10^{-5}\;M)$ for 1 hr before the addition of $(<10^{-9}\;ANG\;II)$, the inhibitory effect of ANG II was reversed. In addition, econazole $(>10^{-6}\;M)$ blocked ANG II-induced inhibition of $Na^+$ uptake. In conclusion, the $[Ca^{2+}]_i$ (calcium-calmodulin-dependent kinase) and phospholipase $A_2\;(PLA_2)$ metabolites are involved in the inhibitory effects of ANG II on $Na^+$ uptake in the PTCs.

• The Korean Journal of Physiology and Pharmacology
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• 제3권2호
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• pp.191-198
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• 1999

This study was undertaken to examine the effect of ethanol on $Na^+-dependent$ transport systems (glucose, phosphate, and dicarboxylate) in renal brush-border membrane vesicles (BBMV). Ethanol inhibited $Na^+-dependent$ uptakes of glucose, phosphate, and succinate in a dose-dependent manner, but not the uptakes of $Na^+-dependent.$ The $H^+/TEA$ antiport was reduced by 8% ethanol. Kinetic analysis showed that ethanol caused a decrease in $V_{max}$ of three transport systems, leaving $K_m$ values unchanged. Ethanol decreased phlorizin binding, which was closely correlated with the decrease in $V_{max}$ of $Na^+-glucose$ uptake. These results indicate that ethanol inhibits $Na^+-dependent$ uptakes of glucose, phosphate, and dicaboxylate and that the reduction in $V_{max}$ of $Na^+-glucose$ uptake is caused by a decrease in the number of active carrier proteins in the membrane.

• The Korean Journal of Physiology and Pharmacology
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• 제1권4호
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• pp.413-423
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• 1997

The importance of the kidney in the development of hypertension was first demonstrated by Goldblatt and his colleagues more than fifty years ago. Many hormones and other regulatory factors have been proposed to play a major role in the development of hypertension. Among these factors angiotensia II (ANG II) is closely involved in renal hypertension development since it directly regulates $Na^+$ reabsorption in the renal proximal tubule. Thus the aim of the present study was to examine signaling pathways of low dose of ANC II on the $Na^+$ uptake of primary cultured rabbit renal proximal tubule cells (PTCs) in hormonally defined seum-free medium. The results were as follows: 1) $10^{-11}$ M ANG II has a significant stimulatory effect on growth as compared with control. Alkaline phosphatase exhibited significantly increased activity. However, leucine aminopeptidase and ${\gamma}-glutamyl$ transpeptidase activity were not significant as compared with control. In contrast to $10^{-11}$ M ANG II stimulated $Na^+$ uptake $(108.03{\pm}2.16% of that of control)$, $10^{-9}$ M ANG II inhibited ($92.42{\mu}2.23%$ of that of control). The stimulatory effect of ANG II on $Na^+$ uptake was amiloride-sensitive and inhibited by losartan (ANG II receptor subtype 1 antagonist) and not by PD123319 (ANG II receptor subtype 2 antagonist). 2) Pertussis toxin (PTX) alone inhibited $Na^+$ uptake by $85.52{\pm}3.52%$ of that of control. In addition, PTX pretreatment prevented the AMG II-induced stimulation of $Na^+$ uptake. 8-Bromoadenosine 3',5'-cyclic monophosphate (8-Br-cAMP), forskolin, and isobutylmethylxanthine (IBMX) alone inhibited $Na^+$ uptake by $88.79{\pm}2.56,\;80.63{\pm}4.38,\;and\;84.47{\pm}4.74%$ of that of control, respectively, and prevented the ANG II-induced stimulation of $Na^+$ uptake. However, $10^{-11}$ M ANG II did not stimulate cAMP production. 3) The addition of 12-O-te-tradecanoylphorbol-13-acetate (TPA, 0.01 ng/ml) to the PTCs produced significant increase in $Na^+$ uptake ($114.43{\pm}4.05%$ of that of control). When ANG II and TPA were added together to the PTCs, there was no additive effect on $Na^+$ uptake. Staurosporine alone had no effect on $Na^+$ uptake, but led to a complete inhibition of ANG II- or TPA-induced stimulation of Na'uptake. ANG II treatment resulted in a $111.83{\mu}4.51%$ increase in total protein kinase C (PKC) activity. In conclusion, the PTX-sensitive PKC pathway is the main signaling cascade involved in the stimulatory effects of ANG II on $Na^+$ uptake in the PTCs.

• 대한수의학회지
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• 제38권3호
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• pp.518-524
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• 1998

신장 근위세뇨관세포들은 사구체에서 여과된 물질의 재흡수, 분비 및 대사에 관여하는 여러 호르몬들의 수용체들을 가지고 있다. 이들중에서 dopamine(DA)과 angiotensin II(ANG II)가 $Na^{+}/H^{+}$ 상호운반계 조절에 중요한 역할을 하고 있다. 본 연구는 초대배양한 토끼 신장 근위세뇨관세포의 $Na^+$ uptake에 있어서 DA과 ANG II의 상호관계를 알아보고자 실시하였다. DA은 농도의존적으로 $Na^+$ uptake를 유의성 있게 억제하였다($10^{-6}M$ ; $83.2{\pm}7.2%$, $10^{-3}M$ ; $67.2{\pm}3.8%$ vs. control)(p<0.05). $DA_1$ 작동제(SKF 38393, $10^{-6}M$)는 대조군의 $81.4{\pm}6.7%$ 까지 $Na^+$ uptake를 유의성 있게 억제하였으나(p < 0.05) $DA_2$ 작동제는 영향을 미치지 않았다. $DA_1$ 길항제(SCH 23390, $10^{-6}M$)에 의해 DA의 $Na^+$ uptake 억제효과는 차단되었으나 $DA_2$ 길항제(spiperone, $10^{-6}M$)에 의해서는 영향을 받지 않았다. DA과 대조적으로 $10^{-11}M$ ANG II는 $AT_1$ 수용체를 통하여 대조군의 $120.7{\pm}4.9%$까지 $Na^+$ uptake를 유의성 있게 촉진하였다. (p < 0.05). DA 및 $10^{-11}M$ ANG II를 병합처리하였을 때 DA은 농도의존적으로 ANG II에 유도된 $Na^+$ uptake 촉진효과를 유의성 있게 차단하였다(p<0.05). 한편 ANG II에 의해 유도된 $Na^+$ uptake촉진작용은 $DA_1$ 또는 $DA_2$ 작동제에 의해 차단되었으나 DA에 의한 차단 효과는 $DA_1$ 및 $DA_2$ 길항제를 병합처리하였을 때만 반전되었다. 결론적으로 DA은 $DA_1$ 수용체를 통하여 $Na^+$ uptake를 억제하였으나 ANG II에 의한 $Na^+$ uptake 촉진작용의 억제에는 $DA_1$ 및 $DA_2$ 수용체 모두가 관여하였다.

• Journal of Pharmaceutical Investigation
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• 제27권1호
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• pp.57-64
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• 1997

$Amino-{\beta}-lactam$ antibiotics are absorbed by the dipeptide transporter in the small intestine. These uptakes are coupled to a proton influx. The inward proton gradient is partly induced by the $Na^+/H^+$ exchanger and calcium ion is involved in control of this antiport. Interaction between ampicillin which is one of the $Amino-{\beta}-lactam$ antibiotics and nifedipine which is one of calcium channel blocking agents was studied in rats in vivo and with rabbit jejunum mounted on the Sweetana/Grass diffusion cells in vitro. Bioavailability of ampicillin was increased significantly when nifedipine was co-administered orally in rats. There were no differences in the distribution phase and the elimination phase when ampicillin was given either alone or with nifedipine intravenously. Conditions for in vitro experiments were determined. The lift rate of $O_2/CO_2$ gas was controlled to 3 bubbles/sec and ampicillin was stable in the Kreb's buffer at pH 6.0. Absorption of ampicillin was the greatest when the completely-stripped serosal membrane was used. Transport of ampicillin from mucosal to serosal side in the rabbit jejunum was enhanced by 32% in the presence of nifedipine (p=0.059). Above results suggest that nifedipine might increase the plasma level of ampicillin via the improved absorption in the intestine rather than the reduction in the elimination or/and alteration in the distribution.