Effect of the parenteral administration of energy substrates in different postoperation phases on the initiation and development of liver regeneration in rats subjected to partial hepatectomy

DNA specific activity in the liver, the total DNA content of the liver and the mitotic index of the hepatocytes were studied after the infusion of glucose or lipid emulsions in female laboratory rats with a mean pre-operation weight of 250 +/- 30 g after partial (65-70%) hepatectomy (PH). The infusions were administered in the early prereplication phase (the 1st to 6th hour after the operation), in the late prereplication phase (the 7th to 12th hour after the operation), or continuously from the 1st to the 12th, or the 1st to the 24th, hour after partial hepatectomy. The effect of these parenterally administered energy substrates on the initiation of liver regeneration was evaluated 18 and 24 hours after partial hepatectomy. The results indicate that the infusion of glucose, in any interval after the operation, inhibited the initial phases of liver DNA synthesis (18 h after PH), but not its further development (24 h after PH). Neither the mitotic index of the hepatocytes, nor the total DNA content of the liver differed from the control groups in the case of rats given a glucose infusion. In the experimental groups given lipid emulsions, inhibition of liver DNA synthesis was recorded 18 h after PH only when the infusions were given from the 1st to the 12th or the 1st to the 18th hour after PH. The total DNA content of the liver 18 h after PH was raised in all the experimental groups.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effect of the parenteral administration of amino acid solutions in different phases after partial hepatectomy on the initiation and development of liver regeneration in rats

Amino acid solutions enriched with branched-chain amino acids or pure branched-chain amino acid solutions were administered parenterally to female laboratory rats (pre-operative weight 230 +/- 30 g) which had been subjected to 65-70% partial hepatectomy (PH), and specific liver DNA activity, the hepatocyte mitotic index and other indicators of the initiation of liver regeneration were studied. Both solutions were infused in an hourly dose of 3.3 ml/kg body weight, during the following postoperative intervals: 1-6, 7-12, 1-12, 1-18 and 1-24 hours. The control rats continued to be fed on the standard laboratory diet after the operation. The results show that the infusion of an amino acid solution enriched with branched-chain amino acids had an inhibitory effect on the onset of DNA synthesis in the liver 18 hours after partial hepatectomy whatever the administration interval. The situation in the case of pure branched-chain amino acid solutions was the same. Twenty-four hours after PH, neither type of solution, irrespective of the infusion interval, was followed by an increase in DNA synthesis compared with the controls fed on the standard laboratory diet. Neither the hepatocyte mitotic index, nor the total liver DNA concentration, showed any changes indicative of stimulation of the initiation of liver regeneration. An infusion stress effect, evaluated from the decrease in the weight of the thymus, was found chiefly in the case of infusions lasting 12 h or longer.     

Course of liver regeneration after partial hepatectomy in rats treated with dialysates obtained 17 hours after partial hepatectomy

Various theories have been put forward to explain the regenerative capacity of liver tissue induce by partial hepatectomy (PH). One of them presumes the existence of humoral factors stimulating proliferation of the liver tissue. We evaluated the course of liver regeneration after 65-70% PH as influenced by dialysates (DIA) of the organs of a rat killed 17 h after PH. In addition to kidney DIA, we were particularly interested in the effect of liver and spleen DIA. The experiments were carried out on rats weighting 310-370 g. Kidney, liver or spleen dialysate was administered subcutaneously and the rats were killed 12 or 24 h later by exsanguination from the abdominal aorta. In further rats, PH was performed 24 h after administering DIA and the rat were killed 18, 24, 30, 48 and 72 h after the operation. The initiation of liver regeneration was stimulated by all the given DIA, but especially by liver DIA. The faster onset of liver regeneration 18 h after PH in rats given spleen DIA is interesting. DIA did not greatly affect the hepatocytes of intact liver, but accelerated the initiation of liver regeneration after PH by synchronizing the cell cycle of proliferating hepatocytes. DIA obtained 17 h after PH contained substances which primarily stimulated liver DNA synthesis. From the changes in inhibition of the migration of spleen macrophages in the medium containing liver antigens, and from the circulating immunocomplex values, we conclude that DIA activation of the immune system, a well as the hepatic stimulator substance contained in the DIA, participates in acceleration of the liver regeneration process.     

Course of liver regeneration after partial hepatectomy in rats treated with dialysates of intact organs

A number of growth phenomena observed in vitro have shown that cells, at high densities, produce and release substances which, when they have reached a given concentration, arrest further growth. In vivo, these possibilities can be studied on the model of rapid regeneration of the rat liver after 65-70% partial hepatectomy (PH). We evaluated the course of liver regeneration after PH in animals treated with dialysates (DIA) of intact rat tissues. In addition to kidney and lymph node DIA, we were particularly interested in the effect of liver and spleen DIA. The experiments were carried out on male rats weighing 210-240 g. The relevant DIA was administered 24 h prior to PH; the controls were given physiological saline. The animals were killed just before PH and 24, 48, 30 and 72 h and 14 days after. DIA obtained from intact liver tissue inhibited the regeneration process induced by PH and its effect persisted 48 h after PH. Compared with the controls and with the rats given kidney DIA, DNA synthesis in the liver 24 h after PH was reduced to 77%. After spleen DIA, several (still hypothetical) factors probably acted together synergically (factors belonging to the immune system--RES--and spleen-produced factors capable of promoting proliferation of the hepatocytes--the "portal blood factor"). We arrived at this conclusion from an evaluation of liver DNA synthesis 24 h after 24h after PH, when synthesis was altogether markedly raised, but attained far higher values after the administration of spleen DIA.(ABSTRACT TRUNCATED AT 250 WORDS)     

脂肪细胞分化相关基因在大鼠再生肝中表达变化

肝脏由多种细胞构成,肝再生与细胞分化密切相关,细胞分化受基因转录水平调控。为在基因转录水平了解脂肪细胞分化基因在大鼠肝再生中作用,本文用搜集网站资料和查阅相关论文等方法获得上述基因,用Rat Genome2302.0芯片检测它们在大鼠肝再生(liver regeneration,LR)中表达情况,将三次检验结果相同或相似、在肝再生中表达变化2倍以上、真手术组和假手术组相比差异显著的基因视为肝再生相关基因。初步证实上述基因中75个基因与肝再生相关。肝再生启动(PH后0.5-4h)、G0/G1过渡(PH后4-6h)、细胞增殖(PH后6-66h)、细胞分化和组织结构功能重建(PH后72-168h)等四个阶段起始表达的基因数为44、13、30和1;基因的总表达次数为88、58、302和90。表明相关基因主要在肝再生启动阶段起始表达,在不同阶段发挥作用。它们共表达上调313次、下调167次,分为43种表达方式。表明肝再生中脂肪细胞发生和分化相关基因活动多样和复杂。根据本文研究结果推测,上述基因不仅调节脂肪细胞分化,而且参与肝再生的生理生化活动。     

Intracellular Na+, K+ and Cl- activities in Ehrlich ascites tumor cells

Ehrlich ascites tumor cell membrane potential (Vm) and intracellular Na+, K+ and Cl- activities were measured under steady-state conditions in normal saline medium (Na+ = 154, K+ = 6, Cl- 150 mequiv./l). Membrane potential was estimated to be -23.3 +/- 0.8 mV using glass microelectrodes. Intracellular ion activities were estimated with similar glass electrodes rendered ion-selective by incorporation of ion-specific ionophores. Measurements of Vm and ion-activity differences were made in the same populations of cells. Under these conditions the intracellular Na+, K+ and Cl- activities are 4.6 +/- 0.5; 68.3 +/- 8.0; and 43.6 +/- 2.1 mequiv./l, respectively. The apparent activity coefficients for Na+ and K+ are 0.18 +/- 0.02 and 0.41 +/- 0.05 respectively. These are significantly lower than the activity coefficients expected for the ions in physiological salt solutions (0.71 and 0.73, respectively). The activity coefficient for intracellular Cl- (0.67 +/- 0.03), however, is close to that of the medium (0.73), and the transmembrane electrochemical potential difference for Cl- is not different from zero. The results establish that the energy available from the Na+ electrochemical gradient is much greater than previously estimated from chemical measurements.     

Potassium transport in nonpigmented epithelial cells of ocular ciliary body: inhibition of a Na+, K+, Cl- cotransporter by protein kinase C.

The mechanisms by which 86Rb+ (used as a tracer for K+) enters human nonpigmented ciliary epithelial cells were investigated. Ouabain-inhibitable bumetanide-insensitive 86Rb+ transport accounted for approximately 70-80% of total, whereas bumetanide-inhibitable ouabain-insensitive uptake accounted for 15-25% of total. K+ channel blockers such as BaCl2 reduced uptake by approximately 5%. Bumetanide inhibited 86Rb+ uptake with an IC50 of 0.5 microM, while furosemide inhibited with an IC50 of about 20 microM. Bumetanide-inhibitable 86Rb+ uptake was reduced in Na(+)-free or Cl(-)-free media, suggesting that Na+ and Cl- were required for optimal uptake via this mechanism. These characteristics are consistent with a Na+, K+, Cl- cotransporter in NPE cells. Treatment of NPE cells for 15 min with phorbol 12-myristate, 13-acetate (PMA), an activator of protein kinase C, caused a 50-70% decrease in 86Rb+ uptake via the Na+, K+, Cl- cotransporter. Other 86Rb+ uptake mechanisms were not affected. 86Rb+ uptake via the Na+, K+, Cl- cotransporter could be inhibited by other phorbol esters and by dioctanoylglycerol, an analog of diacylglycerol, but not by 4 alpha phorbol didecanoate, an ineffective activator of protein kinase C. Staurosporine, a protein kinase C inhibitor, blocked phorbol ester inhibition of 86Rb+ uptake. These data suggest that a Na+, K+, Cl- cotransporter in NPE cells is inhibited by activation of protein kinase C.     

Effect of realimentation after several days' pure carbohydrate intake on DNA synthesis in regenerating rat liver

The authors studied the effect of realimentation after several days' isolated glucose or fructose intake on DNA synthesis in liver regenerating after partial hepatectomy (PH) (65-70%) or after carbon tetrachloride (CCl4) poisoning 1.5 ml/kg. Two days before PH or the administration of CCl4 and two days after, the experimental rats were given glucose (50% solution) of fructose (50% solution) as the only source of energy. Rats with PH were then fed for one day on a standard laboratory diet (25 cal% protein) or a high protein diet (81 cal% protein). Rats with CCl4 liver damage were fed for one day on the standard laboratory diet only. In the rats given glucose, liver DNA synthesis and the total amount of these nucleic acids in the liver 48 hours after CCl4 administration was lower than in the controls or the rats given fructose. In all the experimental groups (PH and CCl4), stimulation of liver DNA synthesis was observed after one day's realimentation. The total DNA content of the liver of rats with PH rose markedly during realimentation. The experiments indicate that the regenerative activity of damaged liver can be influenced by the nutritional regimen.     

Cl- permeability of the basolateral membrane of the Rana esculenta epithelium: activation of Cl-/HCO3- exchange by alkaline intracellular pH.

We have investigated Cl- transport mechanism(s) located in the basolateral membranes of the frog skin epithelium and in particular activation of Cl-/HCO3- exchange following an alkaline load. We found that 87% of the total 36Cl uptake by the epithelial cells occurs across the basolateral membranes (JbCl-) and submitting the epithelium to an alkaline load (HCO3(-)-Ringer solution, pH 8.1) increased JbCl-. Intracellular Cl- activity (aiCl-), measured with ion-sensitive microelectrodes, increased when the Ringer solution bathing the basolateral membranes was changed from a Ringer solution equilibrated in air (pH 7.4) to one containing CO2/HCO3- (pH 7.4). pHi recovery following an alkaline load was dependent on Cl- since it did not occur in serosal Cl(-)-free media, indicating the presence of a Cl(-)-dependent regulatory mechanism. Acid loading of the epithelial cells (5% CO2, HCO3(-)-free Ringer) produced no change in JbCl- but stimulated an amiloride-sensitive 22Na uptake across the basolateral membranes of the epithelium, compatible with an activation of a Na+/H+ exchanger, previously described in this tissue. JbCl- was partially blocked by SITS (5 x 10(-4) mmol/I), niflumic acid (5 x 10(-5) mmol/I), furosemide or bumetanide. Simultaneous addition of furosemide and niflumic acid produced an inhibition of JbCl- which was not different with furosemide alone. Substitution of Na+ by choline had no effect on JbCl- and furosemide did not block the 22Na+ uptake, suggesting that JbCl- is not a Na(+)-dependent process (cotransport). We conclude that a significant Cl- permeability at the basolateral membranes of the epithelial cells is due to the presence of a Cl-/HCO3- exchanger which is essential for the recovery of pHi following an alkaline load.     

Electron probe microanalysis of the subcellular compartments of bovine adrenal chromaffin cells. Comparison of chromaffin granules in situ and in vitro

The elemental and water content of cultured bovine adrenal chromaffin cells and their secretory chromaffin granules have been measured and compared with isolated chromaffin granules using quick freezing, ultracryomicrotomy, and electron microprobe analysis methods. In units of millimole/kilogram dry weight (+/- S.E.) granules in situ contained: P, 523 +/- 32; K+, 124 +/- 9; S, 82 +/- 3; Cl-, 74 +/- 9; Ca2+, 13 +/- 2; Mg2+, 6 +/- 2; and Na+, -2 +/- 2. Following routine isolation in isotonic sucrose buffer, granule K and Cl- had decreased while granule Na+ increased. Cl- exhibited a consistent decrease to 35-40 mmol/kg dry weight. Granule Na+ and K+ concentrations ranged from 43 to 12 mmol/kg and 28 to 60 mmol/kg dry weight, respectively, depending on the Na+ and K+ content of the buffer. Despite the redistribution of monovalent ions, granule Ca2+, granule P, being in the form of ATP, and granule S, being in the form of protein, were not significantly changed. The stability of these elements is consistent with the existence of a stable storage complex for Ca2+, ATP, and protein. Using the granule as an internal standard with a water content of 66%, the water contents of external space, nucleus, cytoplasm, and mitochondria were estimated to be 89, 88, 82, and 70%, respectively. Wet weight concentrations for each element were calculated for granules and cytoplasm from which the transgranular concentration gradients for K+, Cl-, and Na+ were determined. Cl-, a permeant anion, was 2-fold higher in the granule than in the cytoplasm while K+, a slightly permeant cation, had an opposite distribution ratio slightly less than two. Together, the K+ and Cl- data suggest the presence of an inside-positive granule membrane potential of approximately 10-16 mV. The surprising lack of Na+ from the granule matrix suggests a hugh inward gradient for Na+ even though the Na+ content of chromaffin cell cytoplasm is low at 5 mmol/kg water. The lack of an outward Na+ gradient is important in that it indicates that the previously described electroneutral Na+-Ca2+ exchange system, by which isolated granules accumulate Ca2+, does not operate in mature granules in situ. Consequently, if chromaffin granules regulate internal calcium during stimulus secretion coupling, a mechanism other that Na+-Ca2+ exchange is necessary.     

Na+,K+ pump and Na+-coupled ion carriers in isolated mammalian kidney epithelial cells: regulation by protein kinase C.

This review updates our current knowledge on the regulation of Na+/H+ exchanger, Na+,K+,Cl- cotransporter, Na+,Pi cotransporter, and Na+,K+ pump in isolated epithelial cells from mammalian kidney by protein kinase C (PKC). In cells derived from different tubule segments, an activator of PKC, 4beta-phorbol 12-myristate 13-acetate (PMA), inhibits apical Na+/H+ exchanger (NHE3), Na+,Pi cotransport, and basolateral Na+,K+ cotransport (NKCCl) and augments Na+,K+ pump. In PMA-treated proximal tubules, activation of Na+,K+ pump probably plays a major role in increased reabsorption of salt and osmotically obliged water. In Madin-Darby canine kidney (MDCK) cells, which are highly abundant with intercalated cells from the collecting duct, PMA completely blocks Na+,K+,Cl- cotransport and decreases the activity of Na+,Pi cotransport by 30-40%. In these cells, agonists of P2 purinoceptors inhibit Na+,K+,Cl- and Na+,Pi cotransport by 50-70% via a PKC-independent pathway. In contrast with MDCK cells, in epithelial cells derived from proximal and distal tubules of the rabbit kidney, Na+,K+,Cl- cotransport is inhibited by PMA but is insensitive to P2 receptor activation. In proximal tubules, PKC-induced inhibition of NHE3 and Na+,Pi cotransporter can be triggered by parathyroid hormone. Both PKC and cAMP signaling contribute to dopaminergic inhibition of NHE3 and Na+,K+ pump. The receptors triggering PKC-mediated activation of Na+,K+ pump remain unknown. Recent data suggest that the PKC signaling system is involved in abnormalities of dopaminergic regulation of renal ion transport in hypertension and in the development of diabetic complications. The physiological and pathophysiological implications of PKC-independent regulation of renal ion transporters by P2 purinoceptors has not yet been examined.     

Mechanism of the cerebrocortical vasodilatation during anoxia.

The possible role of cerebrocortical ion homeostasis, NAD/NADH redox state and of cortical oxygen tension was investigated in the initiation of hypoxic cortical vasodilatation. In addition, changes in cerebrocortical extracellular concentrations of Na+, K+, and Cl- during anoxia were studied. The results were as follows. a) The cerebrocortical reflectance decrease, e.g. cerebral vasodilatation, lagged behind the cortical pO2 decrease by 1-2 sec, but preceded the decrease of arterial blood pressure and ECoG as well as the extracellular Na+, K+, Cl- increases by 20-30 sec. Since the cortical pO2 decreased first and the ion changes lagged behind the onset of vasodilatation by 20-30 sec, it is suggested that the CBF increase in hypoxia is mediated via the cortical pO2 decrease. b) A significant NAD reduction was already present after 20 sec. of nitrogen breathing. Since the ECoG and MABP decreased, and K+ activity increased much later than this, it is presumed that the NAD reduction during the first 30-40 sec of anoxia indicates an increased rate of glycolysis, but not mitochondrial hypoxia. c) In the predepolarization phase a 17% K+, 4% Na+, 5% Cl- increase is probably the result of a reduction of the extracellular spaces caused by water movement and by the migration of Na+ and Cl- from the extracellular to the intracellular space. The large K+, Na+, Cl- changes during terminal depolarization can be interpreted as a result of the failure of the membrane bound Na+ -K+ pump and of the altered ion permeability of the cell membranes.     

Effect of the infusion of glucose, itralipid and nutramin on the initiation of rat liver regeneration after partial hepatectomy

Rats were subjected to 67% hepatectomy and immediately after the operation were given a 4-hour infusion containing 5 ml saline solution, 28% glucose, 10% Intralipid, 8% glucose or 8% Nutramin. The rats were killed 18, 21, 24 and 30 h after partial hepatectomy. The effect of the tested solutions on the rate of liver regeneration was evaluated from changes in DNA specific activity and the mitotic activity of the hepatocytes. The infusion of 28% and 8% glucose markedly inhibited the onset of regeneration after partial hepatectomy. Nutramin likewise had an inhibitory effect, but not so pronounced as that of glucose. Conversely, the infusion of a lipid emulsion (Intralipid) and saline stimulated the initiation of liver regeneration compared with glucose and/or Nutramin. The possible mechanisms of the effect of infusion of the individual tested solutions on the onset of liver regeneration are discussed.     

Regulatory interaction of ATP Na+ and Cl- in the turnover cycle of the NaK2Cl cotransporter

To probe the mechanism by which intracellular ATP, Na+, and Cl- influence the activity of the NaK2Cl cotransporter, we measured bumetanide-sensitive (BS) 86Rb fluxes in the osteosarcoma cell line UMR- 106-01. Under physiological gradients of Na+, K+, and Cl-, depleting cellular ATP by incubation with deoxyglucose and antimycin A (DOG/AA) for 20 min at 37 degrees C reduced BS 86Rb uptake from 6 to 1 nmol/mg protein per min. Similar incubation with 0.5 mM ouabain to inhibit the Na+ pump had no effect on the uptake, excluding the possibility that DOG/AA inhibited the uptake by modifying the cellular Na+ and K+ gradients. Loading the cells with Na+ and depleting them of K+ by a 2-3- h incubation with ouabain or DOG/AA increased the rate of BS 86Rb uptake to approximately 12 nmol/mg protein per min. The unidirectional BS 86Rb influx into control cells was approximately 10 times faster than the unidirectional BS 86Rb efflux. On the other hand, at steady state the unidirectional BS 86Rb influx and efflux in ouabain-treated cells were similar, suggesting that most of the BS 86Rb uptake into the ouabain-treated cells is due to K+/K+ exchange. The entire BS 86Rb uptake into ouabain-treated cells was insensitive to depletion of cellular ATP. However, the influx could be converted to ATP-sensitive influx by reducing cellular Cl- and/or Na+ in ouabain-treated cells to impose conditions for net uptake of the ions. The BS 86Rb uptake in ouabain-treated cells required the presence of Na+, K+, and Cl- in the extracellular medium. Thus, loading the cells with Na+ induced rapid 86Rb (K+) influx and efflux which, unlike net uptake, were insensitive to cellular ATP. Therefore, we suggest that ATP regulates a step in the turnover cycle of the cotransporter that is required for net but not K+/K+ exchange fluxes. Depleting control cells of Cl- increased BS 86Rb uptake from medium-containing physiological Na+ and K+ concentrations from 6 to approximately 15 nmol/mg protein per min. The uptake was blocked by depletion of cellular ATP with DOG/AA and required the presence of all three ions in the external medium. Thus, intracellular Cl- appears to influence net uptake by the cotransporter. Depletion of intracellular Na+ was as effective as depletion of Cl- in stimulating BS 86Rb uptake.(ABSTRACT TRUNCATED AT 400 WORDS)     

Energetics of coupled Na+ and Cl- entry into epithelial cells of bullfrog small intestine.

Na+, K+ and Cl- concentrations (cij) and activities (aij), and mucosal membrane potentials (Em) were measured in epithelial cells of isolated bullfrog (Rana catesbeiana) small intestine. Segments of intestine were stripped of their external muscle layers, and bathed (at 25 degrees C and pH 7.2) in oxygenated Ringer solutions containing 105 mM Na+ and Cl- and 5.4 mM K+. Na+ and K+ concentrations were determined by atomic absorption spectrometry and Cl- concentrations by conductometric titration following extraction of the dried tissue with 0.1 M HNO3. 14C-labelled inulin was used to determine extracellular volume. Em was measured with conventional open tip microelectrodes, aiCl with solid-state Cl-selective silver microelectrodes and aiNa and aiK with Na+ and K+-selective liquid ion-exchanger microelectrodes. The average Em recorded was -34mV. ciNa, ciK and ciCl were 51, 105 and 52 mM. The corresponding values for aiNa, aiK and aiCl were 18, 80 and 33 mM. These results suggest that a large fraction of the cytoplasmic Na+ is 'bound' or sequestered in an osmotically inactive form, that all, or virtually all the cytoplasmic K+ behaves as if in free solution, and that there is probably some binding of cytoplasmic Cl-. aiCl significantly exceeds the level corresponding to electrochemical equilibrium across the mucosal and baso-lateral cell membranes. Earlier studies showed that coupled mucosal entry of Na+ and Cl- is implicated in intracellular Cl- accumulation in this tissue. This study permitted estimation of the steady-state transapical Na+ and Cl- electrochemical potential differences (deltamuNa and deltamuCl). deltamuNa (-7000 J . mol-1; cell minus mucosal medium) was energetically more than sufficient to account for deltamuCl (1000--2000 J . mol-1).     

Transmural potential differences and short-circuit current intensity in the posterior intestine of Blennius parvicornis

Simultaneous measurements of the transmural potential difference (PD) and the short-circuit current intensity (Isc) in the posterior intestine of the fish Blennius parvicornis were made in normal Ringer and in solutions of different ionic composition. The ouabain effects on these two parameters were also tested in normal Ringer solution. The absence of K+ from the Ringer solution on both the mucosal and serosal sides has no apparent effect on the PD and Isc within the first 15 min, but it makes them null after 30 min. When Na+ is substituted in both compartments, using Tris as substitute, a serosal negativity increase is initially observed, but it gradually decreases to zero after 30 min of experimentation. Similarly the PD and Isc drop to zero in the absence of Cl- (sulfate as substitute). Ouabain diminishes the serosa negative potential difference to zero after 30 min presenting a lineal relation to the Isc. A likely transport mechanism for Cl- dependent on the Na+ - K+ pump, is discussed.     

Solute concentrations of the pulmonary epithelial lining fluid of anesthetized rats

Uncertainty persists concerning the best method of estimating the volume and solute concentrations of the pulmonary epithelial lining fluid (ELF) recovered during bronchoalveolar lavage (BAL). In the present study, measurements were made of the BAL-to-plasma concentration ratios of a variety of solutes in an anesthetized rat model. One minute after an intravenous injection of labeled Na+ and urea, 5 ml of isotonic mannitol, saline, or glucose were injected into the trachea and an initial aliquot of the BAL was immediately removed. Initial BAL-to-plasma concentration ratios of urea, Na+, Cl-, Ca2+, and total protein were similar (ranging from 0.013 to 0.017) after BAL with mannitol, but albumin and transferrin ratios were approximately 60% lower and K+ ratios were five times greater. Lavage with saline yielded BAL-to-plasma urea concentration ratios similar to those obtained with mannitol lavage. The BAL-to-plasma specific activity of urea was about twice that of Na+, indicating that urea diffused into the ELF more rapidly than Na+ during the 70 s that elapsed between the time the radioactive urea and Na+ were injected into the circulation and the time when lavage was complete. Subsequent lavage samples also indicated that urea rapidly diffuses into the fluid-filled lungs. These experiments suggest that isotonic mannitol may be a useful solution for lavage, because it allows use of Na+ and perhaps Cl- as additional indicators of ELF dilution by BAL.(ABSTRACT TRUNCATED AT 250 WORDS)     

The regulation of intracellular pH in monkey kidney epithelial cells (BSC-1). Roles of Na+/H+ antiport, Na+-HCO3(-)-(NaCO3-) symport, and Cl-/HCO3- exchange

Using the pH-sensitive absorbance of 5 (and 6)-carboxy-4',5'- dimethylfluorescein, we investigated the regulation of cytoplasmic pH (pHi) in monkey kidney epithelial cells (BSC-1). In the absence of HCO3-, pHi is 7.15 +/- 0.1, which is not significantly different from pHi in 28 mM HCO3-, 5% CO2 (7.21 +/- 0.07). After an acid load, the cells regulate pHi in the absence of HCO3- by a Na+ (or Li+)-dependent, amiloride-inhibitable mechanism (indicative of Na+/H+ antiport). In 28 mM HCO3-, while still dependent on Na+, this regulation is only blocked in part by 1 mM amiloride. A partial block is also observed with 4,4'-diisothiocyanostilbene-2,2'-disulfonic acid (DIDS) (1 mM). With cells pretreated with DIDS, 1 mM amiloride nearly totally inhibits this regulation. Cl- had no effect on pHi regulation in the acidic range. In HCO3(-)-free saline, Na+ removal leads to an amiloride-insensitive acidification, which is dependent on Ca2+. In 28 mM HCO3-, Na+ (and Ca2+) removal led to a pronounced reversible and DIDS-sensitive acidification. When HCO3- was lowered from 46 to 10 mM at constant pCO2 (5%), pHi dropped by a DIDS-sensitive mechanism. Identical changes in pHo (7.6 to 6.9) in the nominal absence of HCO3- led to smaller changes of pHi. In the presence but not in the absence of HCO3-, removal of Cl- led to a DIDS-sensitive alkalinization. This was also observed in the nominal absence of Na+, which leads to a sustained acidification. It is concluded that in nominally bicarbonate-free saline, the amiloride-sensitive Na+/H+ antiport is the predominant mechanism of pHi regulation at acidic pHi, while being relatively inactive at physiological values of pHi. In bicarbonate saline, two other mechanisms effect pHi regulation: a DIDS-sensitive Na+-HCO3- symport, which contributes to cytoplasmic alkalinization, and a DIDS-sensitive Cl-/HCO3- exchange, which is apparently independent of Na+.     

Method for determination of sodium, potassium, calcium, magnesium, chloride, and phosphate in the rat choroid plexus by flame atomic absorption and visible spectroscopy

A rapid simple technique for the measurement of Na+, K+, Mg2+, Ca2+, PO4(3-), and Cl- was developed to analyze ion contents in the choroid plexus of the rat. The technique involves digestion in piperidine, precipitation of proteins with HClO4, and analysis of Na+, K+, Ca2+, and Mg2+ by atomic absorption spectroscopy and Cl- and PO4(3-) by visible spectroscopy. The coefficient of variation for the measurement of eight replicates was 1-3% for all ions. Analysis of choroid plexuses from eight rats yielded coefficients of variation of about 6% and the values for Na+, K+, and Cl- compared favorably to previous works. The analytical procedure described in this paper allows the determination of six major physiologic ions in rat choroid plexus (4 mg wet wt).