大耳白兔动脉血和脑脊液酸碱电解质值及其相互关系

３０只正常大耳白兔,经股动脉穿刺插管和枕骨下经皮穿刺入枕骨下池,在严格隔绝空气情况下,分别取得动脉血和脑脊液（ＣＳＦ）标本,用ＡＢＬ３型血气分析仪及ＣＮ６４４型生化分析仪检测主要酸碱变量及电解质值。经统计学处理结果表明：ＣＳＦｐＨｅｙ ｋ＾＋、Ｃａ＾２＋、Ｍｇ＾２＋浓度〈动脉血,ＣＳＦＰＣＯ２及ＨＣＯ３＾－、Ｃｌ＾－Ｎａ＾＿、Ｈ＾＋〉动脉血。另外,ＣＳＦＰＨ与ｐＨａ,ＣＳＦＰＣＯ２与ＰａＣＯ２、Ｃ     

Effects of hypoxia on plasma concentrations and daily elimination of sodium, potassium and chlorine ions

Serum concentrations of Na+, K+ and Cl- are studied, as well as the elimination of these ions in urine, in patients suffering from chronic respiratory insufficiency, being classified in two groups according to the level of hypoxemia: group A (PO2 less than 6.66 KPa) and group B (PO2 less than 8 KPa). A third group C of healthy patients with analogous anthropological characteristics has served as a control group. The concentrations of serum of the three ions are noticeably similar in the three groups, but the daily elimination of Na+, K+ and Cl- is less in those suffering from respiratory insufficiency than in those of the control group, with significant statistical differences in all cases except with K+ in those suffering from pronounced hypoxemia. On analysing the correlation between the rates of elimination of ions in urine, with the plasmatic values of PO2, PCO2 and [H+] of all the patients studied, the highest values of the Pearson coefficient are found on correlating the elimination of ions with the partial pressures of oxygen, therefore suggesting that hypoxia could be the main motor inducing metabolic changes.     

笼养绿尾虹雉血液生理生化指标分析

为了解人工饲养绿尾虹雉(Lophophorus lhuysii)血液生理生化指标及特点,以四川宝兴蜂桶寨国家级自然保护区笼养的9只成年非繁殖期绿尾虹雉为研究对象,测定了34项血液生理生化指标,按性别分组统计进行差异显著性检验。结果表明,绿尾虹雉血液生理指标不同性别间无显著差异(P0.05)。血液生化指标中的血液总蛋白雄性显著低于雌性(P0.05),血清尿素雄性显著高于雌性(P0.05),但血液中的其他有机物(白蛋白、球蛋白、肌酐、葡萄糖、尿素、酶、总胆固醇、甘油三酯等)及无机离子(钾、钠、镁、氯、钙、磷、铁)不同性别之间无显著差异(P0.05)。说明本实验条件下,笼养绿尾虹雉非繁殖期血液生理指标与性别没有相关性,血清总蛋白、血清尿素含量可能与性别有关。     

The Ca,Cl, Mg,Na, and P Mass Fractions in Human Bone Affected by Ewing’s Sarcoma

The Ca, Cl, Mg, Na, and P contents and Ca/P, Ca/Mg, Ca/Na, Cl/Ca, and Cl/Na ratios in samples of intact bone, inflamed bone, and Ewing’s sarcoma tissue were investigated by neutron activation analysis with high-resolution spectrometry of short-lived radionuclides. In Ewing’s sarcoma tissue, the mass fractions of Cl and Na are higher and the mass fractions of Ca and Mg are lower than those of both normal and inflamed bone tissues. It was shown that the levels of Ca and Cl mass fractions and also levels of the Ca/Cl and Cl/Na ratios can be used as an additional test for differential diagnosis between inflamed (or normal) bone and Ewing’s sarcoma.     

四种生态型芦苇叶中离子分布对生境的生理适应

采用X射线微区分析技术 ,测定了 4种生态型芦苇 (Phragmitesaustralis (CaV .)Trin .exSteud .)叶的表皮泡状细胞、叶肉细胞和叶脉维管束鞘细胞离子的含量。结果表明 :沼泽芦苇的鞘细胞内 ,K 、Na 、Ca2 、Mg2 和Cl-分布均较叶肉细胞和泡状细胞高。沙丘芦苇的泡状细胞中Ca2 分布较叶肉细胞和鞘细胞高 ,而Mg2 在其叶肉细胞 ,以及K 、Na 和Cl- 在其鞘细胞内分布均较高。在轻度盐化草甸芦苇的叶肉细胞内分布较多的Na 和Mg2 ,而在鞘细胞内K 、Ca2 和Cl- 的分布均较叶肉细胞和泡状细胞为高。重度盐化草甸芦苇的泡状细胞内Na 和Mg2 的分布较多 ;同样 ,在叶肉细胞中K 、Ca2 和Cl- 的分布也较多。最后 ,讨论了上述各种离子在不同生态型芦苇叶内分布的状况 ,以及与其环境适应的生理意义。     

Response of the Frog Skin to Steady-State Voltage Clamping : I. The shunt pathway

Properties of the shunt pathway (a pathway in parallel to the Na transport system) in frog skin have been examined. The permeability of this shunt to urea increases markedly when the skin is depolarized to -100 mv (inside negative) but hyperpolarization to +100 mv produces no change in urea permeability compared to short-circuit conditions. The permeability increase at depolarizing potentials is dependent on the external solute concentration and is considerably reduced by the presence of external Ca. Neither urea permeability nor its response to changes in potential difference are affected by complete inhibition of Na transport by ouabain. In ouabain-poisoned skins, movements of Na, K, Cl, and mannitol through the shunt change in parallel with urea movements. Ion fluxes under these conditions and their response to potential can be described by the constant field equation. The selectivity of the shunt is in the order Cl > urea > K > Na > mannitol and this order does not appear to be affected by the absolute magnitude of the shunt permeability. Arguments are presented suggesting that the pathway is mainly between cells and that its permeability may be affected by cell swelling.     

Renal function in the freshwater rainbow trout after dietary cadmium acclimation and waterborne cadmium challenge

Renal function was examined in adult rainbow trout (Oncorhynchus mykiss) after chronic exposure to a sublethal level of dietary Cd (500 mg/kg diet) for 52 d and during a subsequent challenge to waterborne Cd (10 microg/L) for 72 h. Dietary Cd had no major effects on UFR (urine flow rate) and GFR (glomerular filtration rate) but caused increased renal excretion of glucose, protein, and major ions (Mg(2+), Zn(2+), K(+), Na(+), Cl(-) but Ca(2+)). However, dietary Cd did not affect any plasma ions except Na(+) which was significantly elevated in the Cd-acclimated trout. Plasma glucose and ammonia levels fell by 25% and 36% respectively, but neither plasma nor urine urea was affected in Cd-acclimated fish. Dietary Cd exposure resulted in a remarkable increase of Cd load in the plasma (48-fold, approximately 22 ng/mL) and urine (60-fold, 8.9 ng/mL), but Cd excretion via the kidney was negligible on a mass-balance basis. Clearance ratio analysis indicates that all ions, Cd, and metabolites were reabsorbed strongly (58-100%) in both na?ve and dietary Cd exposed fish, except ammonia which was secreted in both groups. Mg(2+), Na(+), Cl(-) and K(+) reabsorption decreased significantly (3-15%) in the Cd-exposed fish relative to the control. Following waterborne Cd challenge, GFR and UFR were affected transiently, and only Mg(2+) and protein excretion remained elevated with no recovery with time in Cd-acclimated trout. Urinary Ca(2+) and Zn(2+) excretion rates dropped with an indication of renal compensation towards plasma declines of both ions. Cadmium challenge did not cause any notable effects on urinary excretion rates of metabolites. However, a significant decrease in Mg(2+) reabsorption but an increase in total ammonia secretion was observed in the Cd-acclimated fish. The study suggests that dietary Cd acclimation involves physiological costs in terms of renal dysfunction and elevated urinary losses.     

Electron probe analysis of vascular smooth muscle. Composition of mitochondria, nuclei, and cytoplasm

Electron probe analysis of dry cryosections was used to determine the composition of the cytoplasm and organelles of rabbit portal-anterior mesenteric vein (PAMV) smooth muscle. All analytical values given are in mmol/kg wt +/- SEM. Cytoplasmic concentrations in normal, resting muscles were: K, 611 +/- 1.7; Na, 167 +/- 2.7; Cl, 278 +/- 1.0; Mg, 36 +/- 1.1; Ca, 1.9 +/- 0.5; and P, 247 +/- 1.1. Hence, the sum of intracellular Na + K exceeded cytoplasmic Cl by 500 mmol/kg dry wt, while the calculated total, nondiffusible solute was approximately 50 mmol/kg. Cytoplasmic K and Cl were increased in smooth muscles incubated in solutions containing an excess (80 mM) of KCl. Nuclear and cytoplasmic Na and Ca concentrations were not significantly different. The mitochondrial Ca content in normal fibers was low, 0.8 +/- 0.5, and there was no evidence of mitochondrial Ca sequestration in muscles frozen after a K contracture lasint 30 min. Transmitochondrial gradients of K, Na, and Cl were small (0.9--1.2). In damaged fibers, massive mitochondrial Ca accumulation of up to 2 mol/kg dry wt in granule form and associated with P could be demonstrated. Our findings suggest (a) that the nonDonnan distribution of Cl in smooth muscle is not caused by sequestration in organelles, and that considerations of osmotic equilibrium and electroneutrality suggest the existence of unidentified nondiffusible anions in smooth muscle, (b) that nuclei do not contain concentrations of Na or Ca in excess of cytoplasmic levels, (c) that mitochondria in PAMV smooth muscle do not play a major role in regulating cytoplasmic Ca during physiological levels of contraction but can be massively Ca loaded in damaged cells, and (d) that the in situ transmitochondrial gradients of K, Na, and Cl do not show these ions to be distributed according to a large electromotive Donnan force.     

瓦氏雅罗鱼生殖洄游过程中离子调节相关生理变化研究

为了解达里湖瓦氏雅罗鱼(Leuciscus waleckii)生殖洄游过程中血清离子调节相关生理变化, 对比了达里湖和贡格尔河瓦氏雅罗鱼血清离子(Na+、K+、Cl?、Ca2+和Mg2+)水平, 鳃、肠和肾组织Na+/K+-ATPase和鳃Ca2+/Mg2+-ATPase活性、血清催乳素(PRL)、生长激素(GH)和类胰岛素生长因子-1(IGF-1)水平及鳃组织结构差异; 并利用实验生态学方法, 研究达里湖中瓦氏雅罗鱼转入贡格尔河水24h后上述生理参数的响应。研究结果显示, 与达里湖未洄游的瓦氏雅罗鱼相比, 洄游到贡格尔河后其血清Na+含量显著降低(P<0.05), Cl?含量显著升高(P<0.05), 肾脏和肠组织中Na+/K+-ATPase活性显著升高(P<0.05), 而鳃组织中Na+/K+-ATPase活性无显著变化; 血清K+、Ca2+、Mg2+水平和GH、IGF-1、PRL含量无显著变化。将达里湖瓦氏雅罗鱼转入河水中24h后, 其血清Cl?含量显著升高(P<0.05)、K+含量显著降低(P<0.05), 且在鳃、肠和肾组织中Na+/K+-ATPase及鳃Ca2+/Mg2+-ATPase活性均显著升高(P<0.05), 血清PRL和IGF-1水平显著升高(P<0.05); 比较湖中和河中瓦氏雅罗鱼鳃组织形态结构, 显示湖中瓦氏雅罗鱼鳃基底膜分布着大量黏液细胞, 洄游到河水中后黏液细胞数量明显减少, 鳃基底膜上氯细胞体积增大而数量未见明显变化。本研究结果表明: 瓦氏雅罗鱼从达里湖洄游到贡格尔河后通过提高血清PRL和IGF-1水平, 进而介导鳃、肠和肾组织中Na+/K+-ATPase活性增加, 从而维持鱼体较高或稳定的血清离子水平。     

Serum constituents of Suncus murinus

Blood samples were collected by cardiac puncture from nine-week-old suncus, mice and rats those had been fasted for 16 hours, and the serum was assayed for the levels of corticosterone, cortisol, and other constituents. The following results were obtained: The serum levels of corticosterone and cortisol and corticosterone/cortisol ratio of suncus were about the same as those of human. The SGPT, gamma-GT, ALP, LDH, Ca and K values in suncus were all within the normal range of the respective values in human. SGOT, amylase, BUN, Na, Cl, Fe and inorganic phosphate values were higher, and total cholesterol, triglyceride, phospholipid, creatinine, urea, total protein, albumin and bilirubin levels were lower in suncus than the respective normal values in human. The values of SGOT, amylase, ZTT, and K were higher in female than in male suncus, while the values of gamma-GT and ALP were higher in the male. Feeding the animals individually in the individual cages for a week increased the values of direct bilirubin, total cholesterol, ZTT, Na, K and Cl and lowered the value of urea. The values of SGPT, ALP and triglyceride of suncus obtained in 1984 were higher, the value of albumin was lower, than the respective values obtained in 1983. The value of cholinesterase in suncus was very small.     

Cell volume regulation by Amphiuma red blood cells. The role of Ca+2 as a modulator of alkali metal/H+ exchange

In response to osmotic perturbation, the Amphiuma red blood cell regulates volume back to "normal" levels. After osmotic swelling, the cells lose K, Cl, and osmotically obliged H2O (regulatory volume decrease [RVD] ). After osmotic shrinkage, cell volume is regulated as a result of Na, Cl, and H2O uptake (regulatory volume increase [RVI] ). As previously shown (Cala, 1980 alpha), ion fluxes responsible for volume regulation are electroneutral, with alkali metal ions obligatorily counter-coupled to H, whereas net Cl flux is in exchange for HCO3. When they were exposed to the Ca ionophore A23187, Amphiuma red blood cells lost K, Cl, and H2O with kinetics (time course) similar to those observed during RVD. In contrast, when cells were osmotically swollen in Ca-free media, net K loss during RVD was inhibited by approximately 60%. A role for Ca in the activation of K/H exchange during RVD was suggested from these experiments, but interpretation was complicated by the fact that an increase in cellular Ca resulted in an increase in the membrane conductance to K (GK). To determine the relative contributions of conductive K flux and K/H exchange to total K flux, electrical studies were performed and the correspondence of net K flux to thermodynamic models for conductive vs. K/H exchange was evaluated. These studies led to the conclusion that although Ca activates both conductive and electroneutral K flux pathways, only the latter pathways contribute significantly to net K flux. On the basis of observations that A23187 did not activate K loss from cells during RVI (when the Na/H exchange was functioning) and that amiloride inhibited K/H exchange by swollen cells only when cells had previously been shrunk in the presence of amiloride, I concluded that Na/H and K/H exchange are mediated by the same membrane transport moiety.     

Unusual physiology of scale-less carp,Gymnocypris przewalskii,in Lake Qinghai: a high altitude alkaline saline lake

The scale-less carp (Gymnocypris przewalskii) inhabits Lake Qinghai located on the Qinghai-Tibet plateau (elevation, 3200 m) in western China. The lake waters are alkaline (pH 9.4, titratable alkalinity=30 mmol l(-1)), Mg(2+)-rich (18.7 mmol l(-1)), Ca(2+)-poor (0.30 mmol l(-1)) and saline (9 per thousand ). These fish make annual spawning migrations into freshwater rivers. We investigated the physiology of nitrogen excretion and ionoregulation of fish from the lake and river. Fish from both waters were ammonotelic, although ammonia-N excretion rates were lower in lake fish (175 vs. 344 micromol kg(-1) h(-1), P<0.05) resulting in unusually high levels of ammonia in blood plasma (2.23 vs. 0.32 mmol l(-1)), bile, liver, muscle and brain. Exposure to 0.4 mmol l(-1) total ammonia in lake water ([NH(3)]=0.16 mmol l(-1)) killed fish within 8 h. River fish survived exposure to 1.0 mmol l(-1) total ammonia in river water at pH 8.0 ([NH(3)]=0.023 mmol l(-1)) for 24 h suggesting high ammonia tolerance in lake fish. High glutamate dehydrogenase and glutamine synthetase activities in tissues probably allow the fish to alleviate ammonia toxicity by amino acid accumulation. Neither lake nor river fish relied on urea excretion to remove excess N. Urea-N excretion rates were below 20 micromol kg(-1) h(-1) for both groups, and levels of urea in plasma and tissues were moderate. When exposed to elevated ammonia, urea-N excretion increased slightly (approximately 50 micromol kg(-1) h(-1)) and liver and muscle urea levels increased in the river fish. Plasma ion levels were within the range typical of cyprinids, but river fish had significantly higher plasma [Na(+)] and [Cl(-)] and lower [K(+)] than fish from the lake. During 48-h lake-to-river water transfer, plasma Na(+) and Cl(-) levels rose significantly. Significantly higher Na(+)/K(+)-ATPase activity in the gills of river fish may be related to the higher plasma ion levels. Plasma [Mg(2+)] and [Ca(2+)] were tightly regulated despite the great differences in the lake and river water levels.     

Agonist-specific regulation of [Na+]i in pancreatic acinar cells

In a companion paper (Zhao, H., and S. Muallem. 1995), we describe the relationship between the major Na+,K+, and Cl- transporters in resting pancreatic acinar cells. The present study evaluated the role of the different transporters in regulating [Na+]i and electrolyte secretion during agonist stimulation. Cell stimulation increased [Na+]i and 86Rb influx in an agonist-specific manner. Ca(2+)-mobilizing agonists, such as carbachol and cholecystokinin, activated Na+ influx by a tetraethylammonium-sensitive channel and the Na+/H+ exchanger to rapidly increase [Na+]i from approximately 11.7 mM to between 34 and 39 mM. As a consequence, the NaK2Cl cotransporter was largely inhibited and the activity of the Na+ pump increased to mediate most of the 86Rb(K+) uptake into the cells. Secretin, which increases cAMP, activated the NaK2Cl cotransporter and the Na+/H+ exchanger to slowly increase [Na+]i from approximately 11.7 mM to an average of 24.6 mM. Accordingly, secretin increased total 86Rb uptake more than the Ca(2+)- mobilizing agonists and the apparent coupling between the NaK2Cl cotransport and the Na+ pump. All the effects of secretin could be attributed to an increase in cAMP, since forskolin affected [Na+]i and 86Rb fluxes similar to secretin. The signaling pathways mediating the effects of the Ca(2+)-mobilizing agonists were less clear. Although an increase in [Ca2+]i was required, it was not sufficient to account for the effect of the agonists. Activation of protein kinase C stimulated the NaK2Cl cotransporter to increase [Na+]i and 86Rb fluxes without preventing the inhibition of the cotransporter by Ca(2+)-mobilizing agonists. The effects of the agonists were not mediated by changes in cell volume, since cell swelling and shrinkage did not reproduce the effect of the agonists on [Na+]i and 86Rb fluxes. The overall findings of the relationships between the various Na+,K+, and Cl- transporters in resting and stimulated pancreatic acinar cells are discussed in terms of possible models of fluid and electrolyte secretion by these cells.     

ON THE EQUILIBRIUM CONDITION BETWEEN BLOOD SERUM AND SEROUS CAVITY FLUIDS

1. Comparative studies of blood serum and edema fluid from the same individual indicate that, regardless of the pathological condition present, whether the fluid be "transudate" or "exudate," certain definite qualitative chemical relations obtain. 2. The chief feature of these relations is that the edema fluid contains more Cl and less K than the blood serum; while the Na, HCO₃, Ca, urea, glucose, and non-protein nitrogen exist in approximately the same concentrations in the serum and in the edema fluid. The freezing point is also the same in both fluids, while the specific conductivity is constantly higher in the edema fluid. 3. The above mentioned variations between the edema fluid and the serum appear to be related to the difference in the concentration of protein in the two solutions. 4. The relationships between blood serum and edema fluid seem to result from a simple membrane equilibrium, influenced in part by the proteins present.     

Physiological effects of dietary cadmium acclimation and waterborne cadmium challenge in rainbow trout: respiratory, ionoregulatory, and stress parameters

A suite of respiratory, acid-base, ionoregulatory, hematological, and stress parameters were examined in adult rainbow trout (Oncorhynchus mykiss) after chronic exposure to a sublethal level of dietary Cd (500 mg/kg diet) for 45 days and during a subsequent challenge to waterborne Cd (10 microg/L) for 72 h. Blood sampling via an indwelling arterial catheter revealed that dietary Cd had no major effects on blood gases, acid-base balance, and plasma ions (Ca(2+), Mg(2+), K(+), Na(+), and Cl(-)) in trout. The most notable effects were an increase in hematocrit (49%) and hemoglobin (74%), and a decrease in the plasma total ammonia (43%) and glucose (49%) of the dietary Cd-exposed fish relative to the nonexposed controls. Dietary Cd resulted in a 26-fold increase of plasma Cd level over 45 days (approximately 24 ng/mL). The fish exposed to dietary Cd showed acclimation with increased protection against the effects of waterborne Cd on arterial blood P(aCO2) and pH, plasma ions, and stress indices. After waterborne Cd challenge, nonacclimated fish, but not Cd-acclimated fish, exhibited respiratory acidosis. Plasma Ca(2+) levels declined from the prechallenge level, but the effect was more pronounced in nonacclimated fish (44%) than in Cd-acclimated fish (14%) by 72 h. Plasma K(+) was elevated only in the nonacclimated fish. Similarly, waterborne Cd caused an elevation of all four traditional stress parameters (plasma total ammonia, cortisol, glucose, and lactate) only in the nonacclimated fish. Thus, chronic exposure to dietary Cd protects rainbow trout against physiological stress caused by waterborne Cd and both dietary and waterborne Cd should be considered in determining the extent of Cd toxicity to fish.     

Water chloride provides partial protection during chronic exposure to waterborne silver in rainbow trout (Oncorhynchus mykiss) embryos and larvae

Rainbow trout embryos and larvae were continuously exposed (at 12.5 degrees C) to waterborne silver in a flow-through setup, from fertilization to swim-up, at nominal silver concentrations of 0, 0.1, or 1.0 microg/L total silver (as AgNO(3)) at three different water Cl(-) levels (30, 300, and 3,000 microM, added as KCl). Exposures were conducted in synthetic soft water (hardness 20 mg CaCO(3)/L generated from reconstituted reverse osmosis freshwater). Continuous exposure to 1.0 microg/L total silver for 58 d at 30 microM water Cl(-) resulted in a pronounced ionoregulatory disturbance (as indicated by a reduction in whole body Na(+),K(+)-ATPase activity, unidirectional Na(+) uptake [Jin Na(+)], and whole body Na(+) and Cl(-) levels) and a reduction in extractable protein and wet weight. Thus, the mechanism of chronic silver toxicity appears to be similar to that observed during acute silver exposure in juvenile and adult fish, specifically an ionoregulatory disturbance. Higher water Cl(-) levels (300 and 3,000 microM Cl(-)) offered some degree of protection from the ionoregulatory disturbance, with only minor protective effects in terms of mortality. The protective effects of water Cl(-) on the toxicity of silver (as AgNO(3)) appear to be far less during chronic than during acute exposure. Mortality and larval Na(+) concentration, Jin Na(+), and Na(+),K(+)-ATPase activity all appear to be correlated with silver body burden and calculated water Ag(+) during chronic silver exposure. Thus, there appears to be potential to model chronic toxicity but not simply by recalibration of an acute model. A chronic model must be based on real chronic data because the protective effects of various ligands appear to be quantitatively very different from those in the acute situation.     

Cardiovascular function in adrenalectomized Pekin ducks (Anas platyrhynchos)

Cardiovascular function was progressively impaired in Pekin ducks following surgical adrenalectomy. Diastolic and systolic arterial pressures (Pa) were respectively 45% and 28% lower in adrenalectomized (ADX) ducks than in sham-operated (SHAM) controls within 3 days after surgery. Adrenalectomy caused cardiac frequency (fH) to approximately double, diminished cardiac stroke volume, decreased body weight, and decreased plasma norepinephrine, epinephrine, osmolal, Na and Cl concentrations. Adrenalectomy did not alter blood volume, hematocrit, or plasma concentrations of Ca and Mg. Administration of a synthetic glucocorticoid, betamethasone, prevented hypotension and prolonged the survival of ADX ducks. ADX and SHAM ducks maintained with betamethasone for up to 8 days did not differ in Pa, body weight, hematocrit, or plasma concentrations of Na and K. These experiments demonstrate the critical importance of glucocorticoid activity for blood pressure, Na and Cl regulation in birds.     

Renal alpha-adrenergic receptor alterations: a cause of essential hypertension?

Based on a review of literature in various fields of research related to hypertension, we develop a new working hypothesis on the pathophysiology of genetically determined increases in blood pressure. According to our hypothesis, the primary defect is located in the kidneys. Renal alpha-adrenergic receptor density is increased in the early stages of the disease, before increases in blood pressure occur. Most renal alpha-adrenergic receptors are located in the proximal tubules and enhance Na+ reabsorption. A genetically determined increase of alpha 1- or alpha 2- or of both alpha-adrenergic receptor subtypes would impair Na+ excretion and, together with increased Na+ intake, would lead to positive Na+ balance. Subsequently, various mechanisms would be activated to restore a neutral Na+ balance, including the secretion of a natriuretic factor that inhibits Na+/K+-ATPase. Inhibition of Na+/K+-ATPase in extrarenal tissues would increase the intracellular concentration of Na+ and, via Na+/Ca2+ exchange, of Ca2+. Elevated intracellular Ca2+ would enhance vascular smooth muscle contractility and neuronal transmitter release, thereby leading to vasoconstriction and to increases in blood pressure. We thus hypothesize that hypertension is a homeostatic response designed to protect blood volume from a genetically determined renal alpha-adrenergic receptor-mediated increase in Na+ retention.     

Cation distributions across the larval and pupal midgut of the lepidopteran, Hyalophora cecropia, in vivo.

1. The levels of potassium, sodium, magnesium and calcium in leaves, midgut contents, midgut tissue, and blood were analysed in seven developmental stages between feeding, fourth-instar larvae and new pupae of the Cecropia silkworm. 2. Three dramatic changes in cation levels were found: the K level in the contents drops from 284 /+- 51 mEquiv./1 tissue water in the fifth-instar larva to 51 +/- 6 mEquiv./1 in the new pupa; the Mg level in the midgut tissue increases from 28 +/- 3 mEquiv./1 at the time of gut evacuation to 1093 +/- 104 mEquiv./1 in the new pupa; and the Ca level in the contents drops temporarily from 56 +/- 12 mEquiv./1 in the feeding fourth instar larva to 17 +/- 5 mEquiv./1 in the new fifth instar larva. The Na level was nerve higher than 2.8 +/- 0.5 mEquiv./1. 3. The relative levels of the four cations were different for each tissue studied, but each tissue maintained the same relative levels during the developmental stages studied. The sequences are: leaf, Ca greater than K GREATEr than Mg greater than Na; midgut contents, K greater than Ca greater than Mg greater than Na; midgut tissue, K GREATEr than Mg greater than Ca greater than Na; and blood, Mg greater than K greater than Ca greater than Na. 4. There were three large concentration gradients across the midgut; the K level in the midgut contents is approximately 10 times the level in blood; the Mg level in contents is one-half to one-sixth the level in blood; and the Ca level in contents is 3-4 times the level in blood. The K gradient and the Ca gradient are opposed and the Mg gradient is favoured by the electrical gradient across the larval midgut, the contents being 100 mV positive with respect to the blood. The K gradient and the electrical gradient are not present across the pupal midgut while the Mg gradient and the Ca gradient persist. 5. The K gradient is presumably maintained by the midgut K pump, the Mg gradient is aided by the midgut Mg pump, and the Ca gradient suggests that the midgut may possess a Ca pump.     

Influence of soil oxygen and soil water on the accumulation of nutrients in avocado seedlings (Persea Americana mill.)

Summary This experiment was conducted in a greenhouse to study the influence of 2 soil-oxygen levels and 4 irrigation levels on the plant response, root decay, concentrations of 12 nutrients, as well as on total amounts of nutrients per avocado seedling (Persea americana Mill.).Reduced soil-oxygen supply to the roots significantly reduced the amount of dry weight per seedling, increased percentage of root decay, and reduced the concentrations of N, P, K, Ca, Mg, and B in the tops, while Na and Fe were increased. Concentrations of K, Mg, Na, and Cl in the roots were decreased, while N and Ca were increased with decreased soil oxygen supply to the roots. Total amounts of N, P, Ca, Mg, Na, and Cl per seedling were decreased with the low soil-oxygen supply to the roots.Only slight differences in dry weight of the tops of seedlings were found. The highest degree of root decay was caused by the irrigation treatment where a water table was present. In the tops, concentrations of N, P, K, Mg, Na, Zn, Cu, Mn, B, and Fe were significantly influenced by differential irrigation treatments; in the roots, concentrations of P, K, Ca, Mg, Na, and Cl were also significantly influenced; and total amounts of N, P, Mg, and Cl the whole seedling were likewise significantly influenced.Significant interactions were noted between the soil-oxygen and irrigation treatments on the dry weight of tops, roots, and total amounts of dry weight produced per seedling. The lowest amount of dry weight of roots and the highest degree of root decay were found in the avocado seedlings grown under low soil-oxygen supply and the irrigation treatment where a water table was present. Several significant interactions between soil oxygen and irrigation on the concentrations of N, P, K, Ca, Zn, and Mn are discussed.University of California, Citrus Research Center and Agricultural Experiment Station, Riverside, California. The research reported in this paper was supported in part by NSF Grant GB-5753x.