Effect of insulin on exocrine pancreatic secretion in healthy and diabetic anaesthetised rats

This investigation characterised the effects of exogenous insulin on exocrine pancreatic secretion in anaesthetised healthy and diabetic rats. Animals were rendered diabetic by a single injection of streptozotocin (STZ, 60 mg kg^–1 I.P.). Age-matched controls were injected citrate buffer. Rats were tested for hyperglycaemia 4 days after STZ injection and 7–8 weeks later when they were used for the experiments. Following anaesthesia (1 g kg^–1 urethane I.P.), laparotomy was performed and the pancreatic duct cannulated for collection of pure pancreatic juice. Basal pancreatic juice flow rate in diabetic rats was significantly (p < 0.001) increased whereas protein and amylase outputs were significantly (p < 0.001) decreased compared to control rats. Insulin (1 IU, I.P.) produced in healthy rats significant increases in pancreatic flow rate, amylase secretion and protein output compared to basal (p < 0.05). Insulin action also included a reduction in blood glucose (152.7 ± 16.9 mg dl^–1, n= 6, prior to insulin and 42.0 ± 8.4 mg dl^–1, n= 4, 100 min later). In fact, flow rate and glycaemia showed a strong negative correlation (p < 0.01, Pearson). Pretreatment with atropine (0.2 mg kg^–1, I.V.) abolished the effects of insulin on secretory parameters despite a similar reduction in glycaemia; in this series of experiments the correlation between flow rate and blood glucose was lost. In diabetic rats, insulin (4 IU, I.P.) did not modify exocrine pancreatic secretion. There was a fall in blood glucose (467.6 ± 14.0 mg dl^–1, n= 10, prior to insulin and 386.6 ± 43.6 mg dl^–1, n= 7, 120 min later). Rats, however, did not become hypoglycaemic. Similar results were observed in diabetic atropinized rats. The results of this study indicate that the effects of insulin on exocrine pancreatic secretion in anaesthetised healthy rats are mediated by hypoglycaemia-evoked vagal cholinergic activation. (Mol Cell Biochem 261: 105–110, 2004)     

The effects of insulin-like growth factor binding protein-3 (IGFBP-3) on T47D breast cancer cells enriched for IGFBP-3 binding sites

This study investigated the effects of cholecystokinin-octapeptide (CCK-8) on pancreatic juice flow and its contents, and on cytosolic calcium (Ca2+) and magnesium (Mg2+) levels in streptozotocin (STZ)-induced diabetic rats compared to healthy age-matched controls. Animals were rendered diabetic by a single injection of STZ (60 mg kg(-1), I.P.). Age-matched control rats obtained an equivalent volume of citrate buffer. Seven weeks later, animals were either anaesthetised (1 g kg(-1) urethane; IP) for the measurement of pancreatic juice flow or humanely killed and the pancreas isolated for the measurements of cytosolic Ca2+ and Mg2+ levels. Non-fasting blood glucose levels in control and diabetic rats were 92.40 +/- 2.42 mg dl(-1) (n = 44) and >500 mg dl(-1) (n = 27), respectively. Resting (basal) pancreatic juice flow in control and diabetic anaesthetised rats was 0.56 +/- 0.05 ul min(-1) (n = 10) and 1.28 +/- 0.16 ul min(-1) (n = 8). CCK-8 infusion resulted in a significant (p < 0.05) increase in pancreatic juice flow in control animals compared to a much larger increase in diabetic rats. In contrast, CCK-8 evoked significant (p < 0.05) increases in protein output and amylase secretion in control rats compared to much reduced responses in diabetic animals. Basal [Ca2+]i in control and diabetic fura-2-loaded acinar cells was 109.40 +/- 15.41 nM (n = 15) and 130.62 +/- 17.66 nM (n = 8), respectively. CCK-8 (10(-8)M) induced a peak response of 436.55 +/- 36.54 nM (n = 15) and 409.31 +/- 34.64 nM (n = 8) in control and diabetic cells, respectively. Basal [Mg2+]i in control and diabetic magfura-2-loaded acinar cells was 0.96 +/- 0.06 nM (n = 18) and 0.86 +/- 0.04 nM (n = 10). In the presence of CCK-8 (10(-8)) [Mg2+]i in control and diabetic cells was 0.80 +/- 0.05 nM (n = 18) and 0.60 +/- 0.02 nM (n = 10), respectively. The results indicate that diabetes-induced pancreatic insufficiency may be associated with derangements in cellular Ca2+ and Mg2+ homeostasis.     

The role of magnesium in regulating CCK-8-evoked secretory responses in the exocrine rat pancreas

This study investigates the effect of magnesium (Mg²⁺) on the secretory responses and the mobilization of calcium (Ca²⁺) and Mg²⁺ evoked by cholecystokinin-octapeptide (CCK-8) in the exocrine rat pancreas. In the isolated intact perfused pancreas CCK-8 (10^–10 M) produced marked increases in juice flow and total protein output in zero and normal (1.1 mM) extracellular Mg²⁺ [Mg²⁺]_o compared to a much reduced secretory response in elevated (5 mM and 10 mM) [Mg²⁺]_o Similar effects of perturbation of [Mg²⁺]_o on amylase secretion and ⁴⁵Ca²⁺ uptake (influx) were obtained in isolated pancreatic segments. In pancreatic acinar cells loaded with the fluorescent bioprobe fura-2 acetomethylester (AM), CCK-8 evoked marked increases in cytosolic free Ca²⁺ concentration [Ca²⁺]_i in zero and normal [Mg²⁺]_o compared to a much reduced response in elevated [Mg²⁺]_o Pretreatment of acinar cells with either dibutyryl cyclic AMP (DB₂ cAMP) or forskolin had no effect on the CCK-8 induced changes in [Ca²⁺]_i. In magfura-2-loaded acinar cells CCK-8 (10^–8 M) stimulated an initial transient rise in intracellular free Mg²⁺ concentration [Mg²⁺]_i followed by a more prolonged and sustained decrease. This response was abolished when sodium Na⁺ was replaced with N-methyl-D-glucamine (NMDG). Incubation of acinar cells with 10 mM Mg²⁺ resulted in an elevation in [Mg²⁺]_i. Upon stimulation with CCK-8, [Mg²⁺]_i. decreased only slightly compared with the response obtained in normal [Mg²⁺]_o. CCK-8 caused a net efflux of Mg²⁺ in pancreatic segments; this effect was abolished when extracellular sodium [Na⁺]_o was replaced with either NMDG or choline. The results indicate that Mg²⁺ can regulate CCK-8-evoked secretory responses in the exocrine pancreas possibly via Ca²⁺ mobilization. Moreover, the movement of Mg²⁺ in pancreatic acinar cells is dependent upon extracellular Na⁺.     

Role of Ca2+,Mg2+-ATPases in Diabetes-Induced Alterations in Calcium Homeostasis in Input Neurons of the Nociceptive System

In a rat model of streptozotocin (STZ)-induced diabetes, we earlier showed that under these conditions the concentration of free cytosolic Ca²⁺ in input neurons of the nociceptive system increases, Ca²⁺ signals are prolonged, while Ca²⁺ release from intracellular calcium stores decreases. The aim of our study was to test the hypothesis that changes in the activities of Ca²⁺,Mg²⁺-ATPases of the endoplasmic reticulum (SERCA) and plasmalemma (PMCA) could be responsible for diabetes-induced disorders of calcium homeostasis in nociceptive neurons. We measured the Ca²⁺,Mg²⁺-ATPase activities in microsomal fractions obtained from tissues of the dorsal root ganglia (DRG) and spinal dorsal horn (DH) of control rats and rats with experimentally induced diabetes. The integral specific Ca²⁺,Mg²⁺-ATPase activity in microsomes from diabetic rats was lower than that in the control group. The activity of SERCA in samples of DRG and DH of diabetic rats was reduced by 50 ± 8 and 48 ± 12%, respectively, as compared with the control (P < 0.01). At the same time, the activity of PMCA decreased by 63 ± 6% in DRG and by 60 ± 9% in DH samples (P < 0.01). We conclude that diabetic polyneuropathy is associated with the reduction of the rate of recovery of the Ca²⁺ level in the cytosol of DRG and DH neurons due to down-regulation of the SERCA and PMCA activities.     

Effect of external K+, Ca2+, and Ba2+ on membrane potential and ionic conductance in rat astrocytes

Summary 1. The purpose of this study was (a) to identify if astrocytes show a similar non-Nernstian depolarization in low K⁺ or low Ca²⁺ solutions as previously found in human glial and glioma cells, and (b) to analyze the influence of the K⁺ conductance on the membrane potential of astrocytes.2. The membrane potential (E_m) and the ionic conductance were studied with whole-cell patch-clamp technique in neonatal rat astrocytes (5–9 days in culture) and in human glioma cells (U-251MG).3. In 3.0 mM K⁺, E_m was –75 ± 1.0 mV (mean ± SEM,n=39) in rat astrocytes and –79 ± 0.7 mV (n=5) in U-251MG cells. In both cell types E_m changed linearly to the logarithm of [K⁺]₀ between 3.0 and 160 mM K⁺. K⁺ free medium caused astrocytes to hyperpolarize to –93 ± 2.7 mV (n=21) and U-251MG cells to depolarize to –27 ± 2.1 mV (n=3).4. The I-E curve did not show inward rectification in astrocytes at this developmental stage. The slope conductance (g) exhibited only a small decrease (–19%) in K⁺ free solution and no significant change in 160 mM K⁺.5. Ba²⁺ (1.0 mM) depolarized astrocytes to –45 ± 2.9 mV (n=11), decreasing the slope conductance (g) by 42.4 ± 8.3% (n=11). Ca²⁺ free solution depolarized astrocytes to –53 ± 3.4 mV (n=12) and resulted in a positive shift of the I-E curve, increasing g by 15.3 ± 8.2% (n=8).6. Calculations indicated that a block of K⁺ channels explains the depolarizing effect of Ba²⁺. The effects of K⁺ free or Ca²⁺ free solutions on E_m can be explained by a transformation of K⁺ channels to non-specific leakage channels. That astrocytes show a different reaction to low K⁺ than glioma cells can be related to the lack of inwardly rectifying K⁺ channels in astrocytes at this developmental stage.     

Momordica charantia fruit juice stimulates glucose and amino acid uptakes in L6 myotubes

The fruit of Momordica charantia (family: Cucurbitacea) is used widely as a hypoglycaemic agent to treat diabetes mellitus (DM). The mechanism of the hypoglycaemic action of M. charantia in vitro is not fully understood. This study investigated the effect of M. charantia juice on either ³H-2-deoxyglucose or N-methyl-amino-a-isobutyric acid (¹⁴C-Me-AIB) uptake in L6 rat muscle cells cultured to the myotube stage. The fresh juice was centrifuged at 5000 rpm and the supernatant lyophilised. L6 myotubes were incubated with either insulin (100 nM), different concentrations (1–10 g ml^–1) of the juice or its chloroform extract or wortmannin (100 nM) over a period of 1–6 h. The results were expressed as pmol min^–1 (mg cell protein)^–1, n= 6–8 for each value. Basal ³H-deoxyglucose and ¹⁴C-Me-AIB uptakes by L6 myotubes after 1 h of incubation were (means ± S.E.M.) 32.14 ± 1.34 and 13.48 ± 1.86 pmol min^–1 (mg cell protein)^–1, respectively. Incubation of L6 myotubes with 100 nM insulin for 1 h resulted in significant (ANOVA, p < 0.05) increases in ³H-deoxyglucose and ¹⁴C-Me-AIB uptakes. Typically, ³H-deoxyglucose and ¹⁴C-Me-AIB uptakes in the presence of insulin were 58.57 ± 4.49 and 29.52 ± 3.41 pmol min^–1 (mg cell protein^–1), respectively. Incubation of L6 myotubes with three different concentrations (1, 5 and 10 g ml^–1) of either the lyophilised juice or its chloroform extract resulted in time-dependent increases in ³H-deoxy-D-glucose and ¹⁴C-Me-AIB uptakes, with maximal uptakes occurring at a concentration of 5 g ml^–1. Incubation of either insulin or the juice in the presence of wortmannin (a phosphatidylinositol 3-kinase inhibitor) resulted in a marked inhibition of ³H-deoxyglucose by L6 myotubes compared to the uptake obtained with either insulin or the juice alone. The results indicate that M. charantia fruit juice acts like insulin to exert its hypoglycaemic effect and moreover, it can stimulate amino acid uptake into skeletal muscle cells just like insulin. (Mol Cell Biochem 261: 99–104, 2004)     

Intracellular potassium activity and the role of potassium in transepithelial salt transport in the human reabsorptive sweat duct

Summary We have measured the intracellular potassium activity, [K⁺]_i and the mechanisms of transcellular K⁺ transport in reabsorptive sweat duct (RSD) using intracellular ion-sensitive microelectrodes (ISMEs). The mean value of [K⁺]_i in RSD is 79.8±4.1mm (n=39). Under conditions of microperfusion, the [K⁺]_i is above equilibrium across both the basolateral membrane, BLM (5.5 times) and the apical membrane, APM (7.8 times). The Na⁺/K⁺ pump inhibitor ouabain reduced [K⁺]_i towards passive distribution across the BLM. However, the [K⁺]_i is insensitive to the Na⁺/K⁺/2 Cl^– cotransport inhibitor bumetanide in the bath. Cl^– substitution in the lumen had no effect on [K⁺]_i. In contrast, Cl^– substitution in the bath (basolateral side) depolarized BLM from –26.0±2.6 mV to –4.7^*±2.4 mV (n=3;^* indicates significant difference) and decreased [K⁺]_i from 76.0±15.2mm to 57.7^* ±12.7mm (n=3). Removal of K⁺ in the bath decreased [K⁺]_i from 76.3±15.0mm to 32.3^*±7.6mm (n=4) while depolarizing the BLM from –32.5±4.1 mV to –28.3^*±3.0 mV (n=4). Raising the [K⁺] in the bath by 10-fold increased [K⁺]_i from 81.7±9.0mm to 95.0^*±13.5mm and depolarized the BLM from –25.7±2.4 mV to –21.3^*±2.9 mV (n=4). The K⁺ conductance inhibitor, Ba²⁺, in the bath also increased [K⁺]_i from 85.8±6.7mm to 107.0^*±11.5mm (n=4) and depolarized BLM from –25.8±2.2 mV to –17.0^*±3.1 mV (n=4). Amiloride at 10^–6 m increased [K⁺]_i from 77.5±18.8mm to 98.8^*±21.6mm (n=4) and hyperpolarized both the BLM (from –35.5±2.6 mV to –47.8^*±4.3 mV) and the APM (from –27.5±1.4 mV to –46.0^* ±3.5 mV,n=4). However, amiloride at 10^–4 m decreased [K⁺]_i from 64.5±0.9mm to 36.0^*±9.9mm and hyperpolarized both the BLM (from –24.7±1.4 mV to –43.5^*±4.2 mV) and APM (from –18.3±0.9 mV to –43.5^*±4.2 mV,n=6). In contrast to the observations at the BLM, substitution of K⁺ or application of Ba²⁺ in the lumen had no effect on the [K⁺]_i or the electrical properties of RSD, indicating the absence of a K⁺ conductance in the APM. Our results indicate that (i) [K⁺]_i is above equilibrium due to the Na⁺/K⁺ pump; (ii) only the BLM has a K⁺ conductance; (iii) [K⁺]_i is subject to modulation by transport status; (iv) K⁺ is probably not involved in carrier-mediated ion transport across the cell membranes; and (v) the RSD does not secrete K⁺ into the lumen.     

Surface charges on the outer side of mollusc neuron membrane

Summary The shifts of current-voltage characteristics of sodium and calcium inward currents produced by changes in the concentration of divalent cations (Mg²⁺, Ca²⁺, Sr²⁺, Ba²⁺) and in pH of the extracellular solution have been measured on isolated neurons of the molluscHelix pomatia intracellularly perfused with potassium-free solutions. On the basis of these shifts and using Stern's theory (O. Stern, 1924.Z. Electrochem. 30508–516), the binding constants for the ions to charged groups of the outer side of the somatic membrane and the density of the surface charges produced by these groups have been calculated. For groups located in the vicinity of sodium channels we obtainedK _Ca=90±10,K _Sr=60±10,K _Ba=25±5 andK _Mg=16±5m ^–1 at pH=7.7 and for groups located in the vicinity of calcium channelsK _Ca=67±10,K _Sr=20±5 andK _Ba=19±5m ^–1 at pH=7.0. The same groups bind H⁺ ions with apparent pK=6.2±0.2 that corresponds toK _H=1.6×10⁶ m ^–1. The density of fixed charges near the sodium channels is 0.17±0.05 e/nm² (pH=7.7) and near the calcium channels is 0.23±0.05 electrons/nm² (pH=7.0). From the comparison of the obtained values with the data about binding constants of the same ions to different negatively charged phospholipids, a suggestion is made that just the phophatidylserine is responsible for the surface potential of the outer side of the somatic membrane. It was also shown that the presence of this potential results in a change in the concentration of carrier ions near the membrane which affects the maximal values of the corresponding transmembrane currents.     

Charybdotoxin blocks with high affinity the Ca-activated K+ channel of Hb A and Hb S red cells: Individual differences in the number of channels

Summary We have investigated the effect of a purified preparation of Charybdotoxin (CTX) on the Ca-activated K⁺ (Ca–K) channel of human red cells (RBC). Cytosolic Ca²⁺ was increased either by ATP depletion or by the Ca ionophore A23187 and incubation in Na⁺ media containing CaCl₂. The Ca–K efflux activated by metabolic depletion was partially (77%) inhibited from 15.8±2.4 mmol/liter cell · hr, to 3.7±1.0 mmol/liter cell · hr by 6nm CTX (n=3). The kinetic of Ca–K efflux was studied by increasing cell ionized Ca²⁺ using A23187 (60 mol/liter cell), and buffering with EGTA or citrate; initial rates of net K⁺ efflux (90 mmol/liter cell K⁺) into Na⁺ medium containing glucose, ouabain, bumetanide at pH 7.4 were measured. Ca–K efflux increased in a sigmoidal fashion (n of Hill 1.8) when Ca²⁺ was raised, with aK _m of 0.37 m and saturating between 2 and 10 m Ca²⁺. Ca–K efflux was partially blocked (71±7.8%, mean ±sd,n=17) by CTX with high affinity (IC₅₀0.8nm), a finding suggesting that is a high affinity ligand of Ca–K channels. CTX also blocked 72% of the Ca-activated K⁺ efflux into 75mm K⁺ medium, which counteracted membrane hyperpolarization, cell acidification and cell shrinkage produced by opening of the K⁺ channel in Na⁺ media. CTX did not block Valinomycin-activated K⁺ efflux into Na⁺ or K⁺ medium and therefore it does not inhibit K⁺ movement coupled to anion conductive permeability.TheV _max, but not theK _m–Ca of Ca–K efflux showed large individual differences varying between 4.8 and 15.8 mmol/liter cell · min (FU). In red cells with Hb A,V _max was 9.36±3.0 FU (mean ±sd,n=17). TheV _max of the CTX-sensitive, Ca–K efflux was 6.27±2.5 FU (range 3.4 to 16.4 FU) in Hb A red cells and it was not significantly different in Hb S (6.75±3.2 FU,n=8). Since there is larger fraction of reticulocytes in Hb S red cells, this finding indicates that cell age might not be an important determinant of theV _max of Ca–K⁺ efflux.Estimation of the number of CTX-sensitive Ca-activated K⁺ channels per cell indicate that there are 1 to 3 channels/per cell either in Hb A or Hb S red cells. The CTX-insensitive K⁺ efflux (2.7±0.9 FU) may reflect the activity of a different channel, nonspecific changes in permeability or coupling to an anion conductive pathway.     

Microcalorimetric study of magnesium-adenosine triphosphate ternary complex

Using an original microcalorimetric method, the existence of the Mg₂ATP ternary chelate has been studied. The thermodynamic parameters of this complex are H=7.2±0.5 kJ mole^–1 andK=49±9 M^–1. These values are compared with those previously obtained for binary chelate Mg ATP^2–. A possible regulation role of Mg₂ATP is discussed.     

LHRH-receptor-regulated Ca2+-ATPase activity in murine pituitary gland

Addition of luteinizing hormone releasing hormone (LHRH) in vitro (10^–5–5×10^–9 M) to murine pituitary membranes resulted in a dose-related decrease in Ca²⁺-ATPase activity within 15 min. Inhibitory effects of LHRH (10^–7 M) occurred after 90 sec, and appeared maximal by 120 sec. Eadie-Hofstee analysis at 10^–7 M LHRH, at varying [Ca²⁺]_free, resulted in aK _m=0.89±0.06 M and aV _max=18.8±0.71 nmol/mg per 2 min, compared to aK _m=0.69±0.06 M and aV _max=32.8±1.21 nmol/mg per 2 min for controls. Pre-incubation for 5 min with LHRH antagonist (10^–8 M) significantly attenuated (50%) the inhibitory effects of 10^–7 M LHRH on pituitary Ca²⁺ ATPase activity with aK _m=0.97±0.24 M and aV _max=28.1±2.8 nmol/mg per 2 min. The addition of LHRH (10^–7 M) to pituitary homogenates significantly increased luteinizing hormone (LH) release already at 10 and up to 40 sec compared to basal LH release. Systemic administration of 50 ng LHRH (i.p.), significantly (P<0.05) reduced pituitary Ca²⁺-ATPase after 30, 60 and 90 min, with a return to control levels by 120 min. Pituitary LH content was reduced slightly at 15 min, but was increased significantly at 90 and 120 min post-treatment. Plasma LH levels were elevated by 5 min, reached a peak by 15 min and returned to control within 60 min. The present findings indicate that LHRH receptor activation may influence cytosolic Ca²⁺ transport through effects on membrane Ca²⁺-ATPase activity. These actions may regulate LHRH-induced synthesis, storage and release of LH from pituitary gonadotropes.     

3-(1′,1′-Dimethylbutyl)-1-deoxy-Δ-THC and related compounds: synthesis of selective ligands for the CB2 receptor

The synthesis and pharmacology of 15 1-deoxy-Δ⁸-THC analogues, several of which have high affinity for the CB₂ receptor, are described. The deoxy cannabinoids include 1-deoxy-11-hydroxy-Δ⁸-THC (5), 1-deoxy-Δ⁸-THC (6), 1-deoxy-3-butyl-Δ⁸-THC (7), 1-deoxy-3-hexyl-Δ⁸-THC (8) and a series of 3-(1′,1′-dimethylalkyl)-1-deoxy-Δ⁸-THC analogues (2, n=0–4, 6, 7, where n=the number of carbon atoms in the side chain−2). Three derivatives (17–19) of deoxynabilone (16) were also prepared. The affinities of each compound for the CB₁ and CB₂ receptors were determined employing previously described procedures. Five of the 3-(1′,1′-dimethylalkyl)-1-deoxy-Δ⁸-THC analogues (2, n=1–5) have high affinity (K_i=<20 nM) for the CB₂ receptor. Four of them (2, n=1–4) also have little affinity for the CB₁ receptor (K_i=>295 nM). 3-(1′,1′-Dimethylbutyl)-1-deoxy-Δ⁸-THC (2, n=2) has very high affinity for the CB₂ receptor (K_i=3.4±1.0 nM) and little affinity for the CB₁ receptor (K_i=677±132 nM).

Scheme 3. (a) (C₆H₅)₃PCH₃⁺ Br⁻, n-BuLi/THF, 65°C; (b) LiAlH₄/THF, 25°C; (c) KBH(sec-Bu)₃/THF, −78 to 25°C then H₂O₂/NaOH.     

Effects of halothane,isoflurane, sevoflurane and desflurane on contraction of ventricular myocytes from streptozotocin-induced diabetic rats

Various clinically used volatile general anaesthetics (e.g. sevoflurane, halothane, isoflurane and desflurane) have been shown to have significant negative inotropic effects on normal ventricular muscle. However, little is known about their effects in ventricular tissue from diabetic animals. Streptozotocin (STZ)-induced diabetes is known to induce changes in the amplitude and time course of shortening and one report suggests that the inotropic effects of anaesthetics are ameliorated in papillary muscles from diabetic animals. The aim of these studies was to investigate this further in electrically stimulated (1 Hz) ventricular myocytes. Cells were superfused with either normal Tyrode (NT) solution or NT containing anaesthetic (1 mM) for a period of 2 min (at 30–32°C). Myocytes from STZ rats were shown to have a significantly longer time to peak shortening (p > 0.001, n= 50) and the amplitude of shortening tended to be greater but this was not significant (p= 0.13, n= 50). Halothane, isoflurane, desflurane and sevoflurane significantly (p < 0.05) reduced the magnitude of shortening of control cells by 72.5 ± 3.2%, 46.5 ± 9.7%, 28.9 ± 4.3% and 22.8 ± 5.6%, respectively (n > 11 per group) but their steady-state negative inotropic effect was found to be no different in cells from STZ-treated rats (73.0 ± 4.8%, 40.7 ± 4.7%, 25.0 ± 5.2% and 19.8 ± 5.2%, respectively, n > 10 per group). Therefore, we conclude that the inotropic effects of volatile anaesthetics were not altered by STZ treatment. (Mol Cell Biochem 261: 209–215, 2004)     

Effect of osmotic gradient on ADH-induced intramembranous particle aggregates in toad bladder

Summary Paired toad urinary bladders were prepared without or with an osmotic gradient (175 mosm) across them, stimulated for 2.5 (n=6), 5 (n=6), 30 (n=6) or 60 (n=6) min with ADH (20 mU/ml), and studied by freeze-fracture electron microscopy. Water permeability at these times was assessed in additional bladders (n=6 for each case) after tissue fixation according to the technique of Eggena. After both 60 and 30 min of ADH stimulation, the presence of a gradient compared with the absence of one was associated with fewer aggregates (242±35vs. 382±14 ×235 m^–2 at 60 min,P<0.01; 279±36vs. 470±51 ×235 m^–2 at 30 min,P<0.01) and lower water permeability (8.4±1.1vs. 18.8±1.8g×min^–1×cm^–1 ×mosm ^–1 at60min,P<0.005; 9.2±1.0vs. 22.0±2.1 g ×min^–1×cm^–2×mosm ^–1 at 30 min,P<0.001). In addition, with a gradient both maximum water permeability and maximum aggregate frequency were reached nearly together; a similar correspondence occurred without a gradient. We conclude that in the presence of an osmotic gradient both the ADH-associated aggregates and the water permeability response to ADH are prevented from reaching the higher levels observed in bladders not exposed to a gradient.     

Diversity of K+ channels in the basolateral membrane of restingnecturus oxyntic cells

Summary Patch-clamp techniques have been applied to characterize the channels in the basolateral membrane of resting (cimetidine-treated, nonacid secreting) oxyntic cells isolated from the gastric mucosa ofNecturus maculosa. In cell-attached patches with pipette solution containing 100mm KCl, four major classes of K⁺ channels can be distinguished on the basis of their kinetic behavior and conductance: (1) 40% of the patches contained either voltage-independent (a) or hyperpolarization-activated (b), inward-rectifying channels with short mean open times (16 msec fora, and 8 msec forb). Some channels showed subconductance levels. The maximal inward conductanceg _max was 31±5 pS (n=13) and the reversal potentialE _rev was atV _p=–34±6 mV (n=9). (2) 10% of the patches contained depolarization-activated and inward-rectifying channels withg _max=40 ±18 pS (n=3) andE _rev was atV _p=–31±5 mV (n=3). With hyperpolarization, the channels open in bursts with rapid flickerings within bursts. Addition of carbachol (1mm) to the bath solution in cell-attached patches increased the open probabilityP _o of these channels. (3) 10% of the patches contained voltage-independent inward-rectifying channels withg _max=21±3 pS (n=4) andE _rev was atV _p=–24±9 mV (n=4). These channels exhibited very high open probability (P _o=0.9) and long mean open time (1.6 sec) at the resting potential. (4) 20% of the patches contained voltage-independent channels with limiting inward conductance of 26±2 pS (n=3) andE _rev atV _p=–33±3 mV (n=3). The channels opened in bursts consisting of sequential activation of multiple channels with very brief mean open times (10 msec). In addition, channels with conductances less than 6 pS were observed in 20% of the patches. In all nine experiments with K⁺ in the pipette solution replaced by Na⁺, unitary currents were outward, and inward currents were observed only for large hyperpolarizing potentials. This indicates that the channels are more selective for K⁺ over Na⁺ and Cl^–. A variety of K⁺ channels contributes to the basolateral K⁺ conductance of resting oxyntic cells.     

A Galanin Receptor Subtype 1 Specific Agonist

The chimeric peptide M617, galanin(1–13)-Gln¹⁴-bradykinin(2–9)amide, is a novel galanin receptor ligand with increased subtype specificity for GalR1 and agonistic activity in cultured cells as well as in vivo. Displacement studies on cell membranes expressing hGalR1 or hGalR2 show the presence of a high affinity binding site for M617 on GalR1 (K_i=0.23±.12 nM) while lower affinity was seen towards GalR2 (K_i=5.71±1.28 nM) resulting in 25-fold specificity for GalR1. Activation of GalR1 upon stimulation with M617 is further confirmed by internalization of a GalR1-EGFP conjugate. Intracellular signaling studies show the ability of M617 to inhibit forskolin stimulated cAMP formation with 57% and to produce a 5-fold increase in inositol phosphate (IP) accumulation. Agonistic effects on signal transduction are shown on both receptors studied after treatment with M617 in the presence of galanin. In noradrenergic locus coeruleus neurons, M617 induces an outward current even in the presence of TTX plus Ca²⁺, high Mg²⁺, suggesting a postsynaptic effect. Intracerebroventricular (i.c.v.) administration of M617 dose-dependently stimulates food uptake in rats while, in contrast, M35 completely fails to affect the feeding behavior. Spinal cord flexor reflex is facilitated by intrathecal (i.t.) administration of M617 as well as galanin with no significant change upon pre-treatment with M617. M617 dose dependently antagonizes the spinal cord hyperexcitablility induced by C-fiber conditioning stimulus and does neither enhance nor antagonize the effect of galanin. These data demonstrate a novel galanin receptor ligand with subtype specificity for GalR1 and agonistic activity, both in vitro and in vivo.     

Effect of melatonin on phagocytic activity and intracellular free calcium concentration in testicular macrophages from normal and streptozotocin-induced diabetic rats

This study examined the effect of melatonin (MLT) on in vitro phagocytosis of testicular macrophages taken from control and streptozotocin (STZ)-induced diabetic rats and the possible mechanism of its action. The phagocytic activity was measured as a number of latex beads ingested by 100 macrophages (PI, phagocytic index) in consecutive time points of the incubation. Changes in intracellular free calcium level [Ca²⁺]_i in isolated macrophages in vitro were measured with the use of ratio-image fluorescence microscopy (fluorescent dye: Fura2/AM). Phagocytic index in macrophages isolated from healthy rats was 20% higher than in those from diabetic animals. Melatonin in physiological concentration (10⁻⁷ M) significantly (p < 0.05) increased the PI in testicular macrophages from control animals (PI = 68 ± 5 with MLT compared to PI = 46 ± 7 without MLT) while no such effect was observed in the cells from diabetic rats (PI = 36 ± 23 with MLT compared to PI = 31 ± 11 without MLT). Basal [Ca²⁺]_i was significantly (p < 0.01) higher in macrophages from diabetic rats compared to control. Stimulation of both control and diabetic testicular macrophages with 10⁻⁷ M MLT resulted in a significant (p < 0.05) increase in [Ca²⁺]_i in cells incubated in 2.5 mM calcium solution while no such response was observed in calcium-free Tyrode solution. However, MLT evoked [Ca²⁺]_i response in macrophages isolated from diabetic animals was much lower than in macrophages isolated from age-matched controls and the time needed for maximal response was much longer. Lack of response in calcium-free solution suggests that extracellular calcium may be necessary to trigger MLT response and in its progression.     

Beneficial effects and mechanism of action of Momordica charantia juice in the treatment of streptozotocin-induced diabetes mellitus in rat

This study investigated the beneficial effects and mechanism of action of the juice of Momordica charantia in streptozotocin (STZ)-induced diabetes mellitus in rats. Diabetes mellitus was associated with significant (p < 0.01) time course reductions in body weight, plasma insulin and the number of insulin positive cells per islet and significant (p < 0.01) time course elevation in blood glucose and osmolarity and systolic blood pressure compared to age-matched healthy controls. Oral intake of M. charantia juice by STZ-induced diabetic rats partially reversed all the diabetes-induced effects measured. Daily oral administration of M. charantia juice to STZ-induced diabetic rates significantly (p < 0.01) reduced the Na⁺- and K⁺ -dependent absorptions of glucose by the brush border membrane vesicles of the jejunum compared to the responses obtained in STZ-induced diabetic rat. Either insulin (100 MM) or the fruit juice lyophilised extract (5 g · ml^–1) can stimulate ¹⁴C-D-glucose uptake in L6 myotubes. These effects were completely blocked by wortmannin, an inhibitor of phosphatidylinositol 3-kinase. High concentrations (10–200 g · ml^-1) of M. charantia juice extract inhibited ¹⁴C-D-glucose uptake in L6 myotubes compared to the control response. The effect of M. charantia treatment was also investigated on myelinated fibre abnormalities in the tibial nerve of STZ-induced diabetic and control rats. The results show that diabetes was associated with significant (p < 0.05) reduction in the mean cross-sectional myelinated nerve fibres, axonal area, myelin area and maximal fibre area compared to end controls. Treatment of STZ-induced diabetic rats with M. charantia juice normalised the structural abnormalities of peripheral nerves. The results indicate that M. charantia can exert marked beneficial effects in diabetic rats, and moreover, it can regulate glucose uptake into jejunum membrane brush border vesicles and stimulate glucose uptake into skeletal muscle cells similar to the response obtained with insulin. (Mol Cell Biochem 261: 63–70, 2004)     

Evidence for permanent water channels in the basolateral membrane of an ADH-sensitive epithelium

Summary The transepithelial water permeability in frog urinary bladder is believed to be essentially dependent on the ADH-regulated apical water permeability. To get a better understanding of the transmural water movement, the diffusional water permeability (P _d) of the basolateral membrane of urinary bladder was studied. Access to this post-luminal barrier was made possible by perforating the apical membrane with amphotericin B. The addition of this antibiotic increasedP _d from 1.12±0.10×10^–4 cm/sec (n=7) to 4.08±0.33×10^–4 cm/sec (n=7). The effect of mercuric sulfhydryl reagents, which are commonly used to characterize water channels, was tested on amphotericin B-treated bladders. HgCl₂ (10^–3 m) decreasedP _d by 52% andpara-chloromercuribenzoic acid (pCMB) (1.4×10^–4 m) by 34%. The activation energy for the diffusional water transport was found to increase from 4.52±0.23 kcal/mol (n=3), in the control situation, to 9.99±0.91 kcal/mol (n=4) in the presence of 1.4×10^–4 m pCMB. Our second approach was to measure the kinetics of water efflux, by stop-flow light scattering, on isolated epithelial cells from urinary bladders.pCMB (0.5 or 1.4×10^–4 m) was found to inhibit water exit by 91±2%. These data strongly support the existence of proteins responsible for water transport across the basolateral membrane, which are permanently present.     

Preliminary compositional nutrient diagnosis norms for cowpea (Vigna unguiculata (L.) Walp.) grown on desert calcareous soil

This study calculated the compositional nutrient diagnosis (CND) norms of cowpea (Vigna unguiculata (L.) Walp.), as well as identified significant nutrient interactions of this crop growing in an irrigated calcareous desert soil. Three genotypes were distributed in rows in a 2-ha field. The soil showed high heterogeneity in its chemical properties. For statistical analysis, 86 foliar composite samples from healthy plants were used. Preliminary CND norms were developed using a cumulative variance ratio function and the ² distribution function. Means and standard deviations of row-centered log ratios V_X of five nutrients (N, P, K, Ca, and Mg) and a filling value R, which included all nutrients not chemically analyzed. Preliminary CND norms are: V_N^*=0.174±0.095, V_P^*=–2.172±0.234, V_K^*=–0.007±0.267, V_Ca^*=–0.022±0.146, V_Mg^*=–1.710±0.132, and V_R5^*=3.728±0.084. These CND norms are associated with dry bean yields higher than 1.88 t ha^–1, and are associated with the following foliar concentrations: 26.2 g N kg^–1, 2.5 g P kg^–1, 22.9 g K kg^–1, 21.6 g Ca kg^–1, and 4 g Mg kg^–1. Cowpea plants growing in desert calcareous soils took up lower amounts of N, P, and K than those considered as optimum in a previous report. Six interactions were strongly indicated for cowpea through principal component analyses: positive for Ca–Mg, and negative for N–Ca, N–Mg, Ca–P, Mg–P, and K–P. Furthermore, two interactions were identified using simple correlations, negative N–P and positive K–Ca.