Recombinant bovine somatotropin (rbST) administration to creep-fed beef calves increases muscle mass but does not affect satellite cell number or concentration of myosin light chain-1f mRNA

Our objective in this study was to determine the effect of recombinant bovine somatotropin (rbST) on indices of muscle development in creep-fed beef calves. Crossbred steer calves were assigned to one of two treatment groups: control (sham-injected; n = 12) or rbST-treated (.09 mg x kg(-1) x d(-1); n = 12). Calves were injected every 14 d starting at d 28 of age and were weaned at 205 d of age. Supplemental creep feed was supplied free access to all calves to compensate for an expected increased protein and energy requirement in calves given rbST. Biopsy (d 100) and slaughter (d 206) samples of semitendinosus muscle were evaluated for satellite cell, myofiber nuclei numbers, and myosin light chain (MLC-1f) mRNA quantification. Myofiber nuclei and satellite cell numbers per 100 myofibers and MLC-1f mRNA:rRNA ratios at 100 and 206 d of age were not different (P > .10) between control and rbST-treated calves. Total gain, ADG, quality grade, femur length, percentage kidney, pelvic, and heart fat, dressing percentage, plasma IGF-I, and plasma urea nitrogen concentrations did not differ (P > .10) between control and rbST-treated calves. However, rbST-treated calves had larger longissimus muscle areas (P < .03), less marbling (P < .001), higher carcass conformation scores (P < .04), greater mass of separated muscle (P < .03), more ground meat (P < .01), and heavier carcass weights (P < .05) than control calves. Thus, rbST treatment increased muscle characteristics while nuclei number and MLC-1f mRNA concentrations remained the same, implying that the additional muscle growth was in a normal fashion.     

Determination of low isotopic enrichment of L-[1-13C]valine by gas chromatography/combustion/isotope ratio mass spectrometry: a robust method for measuring protein fractional synthetic rates in vivo

A method was developed for measuring protein fractional synthetic rates using the N-methoxycarbonylmethyl ester (MCM) derivative of L-[1-13C]valine and on-line gas chromatography/combustion/isotope ratio mass spectrometry (GC/C/IRMS). The derivatization procedure can be performed rapidly and GC separation of valine from the other branched-chain amino acids, leucine and isoleucine, is easily obtained. A good linear relationship was observed between the increment of the 13C/12C isotope ratio in CO2 gas derived from the combustion of derivatized valine and the tracer mole ratio of L-[1-13C]valine to unlabelled valine. The limit of quantitation was at an L-[1-13C]valine tracer mole ratio of 0.0002. The method was used to measure the isotopic enrichment of L-[1-13C]valine in standard mixtures and in skeletal muscle of six growing piglets infused with L-[1-13C]valine (2 mg kg-1 h-1 for 6 h). After infusion of L-[1-13C]valine the mean tracer mole ratio in plasma of L-[1-13C]valine at the isotopic steady state was 0.0740 +/- 0.0056 (GC/MS, mean +/- SEM) and the mean tracer mole ratio of valine in muscle protein fraction at 6 h was 0.000236 +/- 0.000038 (GC/C/IRMS). The resulting mean protein fractional synthetic rate in piglet skeletal muscle was 0.052 +/- 0.007% h-1, which is in good agreement with literature data obtained with alternative, more elaborate techniques. By this method protein fractional synthetic rates can be measured at low isotopic enrichment levels using L-[1-13C]valine, the MCM derivative and on-line GC/C/IRMS.     

Effects of combined treatment with recombinant bovine somatotropin and immunization with live oocysts on performance of broiler chicks raised in coccidia-seeded floor pens

In our laboratory, preliminary studies have indicated that recombinant bovine somatotropin (rbST) can stimulate protective immunity against coccidia infection. A floor pen trial on coccidia-seeded litter was run to further test its activity as an adjuvant during immunization of chicks with a live oocyst vaccine. Five hundred day-old male broiler strain chicks were randomly assigned to five experimental Treatments: 1, medicated controls; 2, unimmunized, not treated with rbST; 3, unimmunized, rbST-treated; 4, immunized, not treated with rbST; 5, immunized, rbST-treated. Each treatment consisted of four pens of 25 chicks each. At the end of the growout period (7 wk), the chicks in Treatment 1 (medicated controls) had the highest mean BW, but mean BW of chickens in Treatment 3 (rbST treatment only) were not significantly less. On the other hand, the mean weights of chicks in Treatments 4 (immunized only) and 5 (immunized plus rbST) were significantly reduced, and not different from those of the untreated chickens (Treatment 2). However, when challenged at 3 wk, the chicks in Treatment 5 had a mean combined total lesion score that was significantly lower than that from Treatment 3, indicating that they had developed a higher degree of specific immunity, but of the expense of weight gain. The results suggest that rbST has a potential for use as an adjuvant with live oocyst vaccination, but that the ratio between rbST dose and numbers of oocysts in the live vaccine needs to be carefully controlled.     

Endothelium-dependent effect of perindopril and enalaprilat in rat thoracic aorta

AIM: To study the effect of the angiotensin-converting enzyme (ACE) inhibitors perindopril (Per) and enalaprilat (Ena) on the reactivity of the endothelium in normal rats. METHODS: Male rats were treated intragastrically with Per (2 mg.kg-1.d-1) or placebo (n = 18) for 6 wk. Aorta was isolated for experiment. Another set of isolated aortic rings with and without endothelium were incubated with Ena (0.1 mumol.L-1) for 30 min. Responses to acetylcholine, serotonin, phenylephrine, sodium nitroprusside (SN), and nitroglycerin (Nit) were observed. RESULTS: Endothelium-dependent relaxation to acetylcholine was augmented in aortic rings from rats treated with Per in comparison with control. The IC50 value (95% confidence limits) decreased from 3.8 (0.56-26.1) mumol.L-1 (control group) to 0.98 (0.28-3.41) mumol.L-1 (Per-treated group). The maximal relaxation was augmented from 62 +/- 9% to 78 +/- 10% (P < 0.01). However, the responses to the endothelium-independent vasodilators, SN and Nit, were similar. Serotonin- and phenylephrine-induced contractions were decreased, which were influenced by basal release of endothelium-derived relaxing factor (EDRF). EC50 values was 6.1 (2.6-14.4) nmol.L-1 vs 8.3 (3.6-18.8) nmol.L-1 in comparison with control group and Per-treated group. The maximal contraction was decreased from 2.42 +/- 0.29 g (control group) to 1.96 +/- 0.25 g (treated group) (P < 0.01). Similar results were found in incubation with Ena. CONCLUSION: Ena and Per enhanced the basic release of EDRF from vascular endothelium.     

Transport of LDS-751 from the cytoplasmic leaflet of the plasma membrane by the rhodamine-123-selective site of P-glycoprotein

Hyperfibrinogenemia is a common feature of the nephrotic syndrome, and contributes to increased tendency for thrombosis and atherosclerosis. Its genesis is not certain, but the increase in liver fibrinogen mRNA in nephrotic rats indicates increased synthesis. Data in humans are scarce. We presently compared synthesis rates of fibrinogen and albumin in nephrotic adults (N = 7; plasma albumin 22.3 +/- 0.7 g/liter, proteinuria 12 g/day) and healthy control subjects (N = 8) using a primed/continuous infusion of the stable isotope L-[1-13C]valine for six hours. Absolute synthesis rate (ASR) of fibrinogen was 31 +/- 3 mg/kg/day in nephrotic subjects and 21 +/- 1 mg/kg/day in control subjects (P < 0.05), and positively correlated with plasma fibrinogen (P = 0.0317). The plasma fibrinogen pool was disproportionately increased in the nephrotic patients (271 +/- 30 mg/kg) compared to the controls (126 +/- 8 mg/kg), suggesting decreased fractional catabolic rate as well. The ASR of albumin was increased from 71 +/- 4 mg/kg/day in the controls to 160 +/- 19 mg/kg/day in the patients (P < 0.0001), and strongly correlated with the ASR of fibrinogen (P = 0.0046). Plasma alpha 2-macroglobulin was also elevated and correlated with the albumin synthesis rate, whereas plasma serum amyloid A and C-reactive protein were not elevated. These data suggest that in nephrotic patients the increased albumin synthesis is associated with an increase in synthesis of a specific and coordinated group of proteins, among which is fibrinogen.     

Characterization of cellular defects of insulin action in type 2 (non-insulin-dependent) diabetes mellitus

Seven non-insulin-dependent diabetes mellitus (NIDDM) patients participated in three clamp studies performed with [3-3H]- and [U-14C]glucose and indirect calorimetry: study I, euglycemic (5.2 +/- 0.1 mM) insulin (269 +/- 39 pM) clamp; study II, hyperglycemic (14.9 +/- 1.2 mM) insulin (259 +/- 19 pM) clamp; study III, euglycemic (5.5 +/- 0.3 mM) hyperinsulinemic (1650 +/- 529 pM) clamp. Seven control subjects received a euglycemic (5.1 +/- 0.2 mM) insulin (258 +/- 24 pM) clamp. Glycolysis and glucose oxidation were quantitated from the rate of appearance of 3H2O and 14CO2; glycogen synthesis was calculated as the difference between body glucose disposal and glycolysis. In study I, glucose uptake was decreased by 54% in NIDDM vs. controls. Glycolysis, glycogen synthesis, and glucose oxidation were reduced in NIDDM patients (P < 0.05-0.001). Nonoxidative glycolysis and lipid oxidation were higher. In studies II and III, glucose uptake in NIDDM was equal to controls (40.7 +/- 2.1 and 40.7 +/- 1.7 mumol/min.kg fat-free mass, respectively). In study II, glycolysis, but not glucose oxidation, was normal (P < 0.01 vs. controls). Nonoxidative glycolysis remained higher (P < 0.05). Glycogen deposition increased (P < 0.05 vs. study I), and lipid oxidation remained higher (P < 0.01). In study III, hyperinsulinemia normalized glycogen formation, glycolysis, and lipid oxidation but did not normalize the elevated nonoxidative glycolysis or the decreased glucose oxidation. Lipid oxidation and glycolysis (r = -0.65; P < 0.01), and glucose oxidation (r = -0.75; P < 0.01) were inversely correlated. In conclusion, in NIDDM: (a) insulin resistance involves glycolysis, glycogen synthesis, and glucose oxidation; (b) hyperglycemia and hyperinsulinemia can normalize total body glucose uptake; (c) marked hyperinsulinemia normalizes glycogen synthesis and total flux through glycolysis, but does not restore a normal distribution between oxidation and nonoxidative glycolysis; (d) hyperglycemia cannot overcome the defects in glucose oxidation and nonoxidative glycolysis; (e) lipid oxidation is elevated and is suppressed only with hyperinsulinemia.     

Pre-exercise branched-chain amino acid administration increases endurance performance in rats

This study investigated the effects of pre-exercise branched-chain amino acid (BCAA) administration on blood ammonia levels and on time to exhaustion during treadmill exercise in rats. Adult female Wistar rats were trained on a motor driven treadmill. After a 24-h fast, rats were injected intraperitoneally (i.p.) with 1 mL of placebo or BCAA (30 mg), 5 min before performing 30 min of submaximal exercise (N = 18) or running to exhaustion (N = 12). In both cases, rats were sacrificed immediately following exercise, and blood was collected for the measurement of glucose, nonesterified fatty acid (NEFA), lactic acid, BCAA, ammonia, and free-tryptophan (free-TRP) levels. Control values were obtained from sedentary rats that were subjected to identical treatments and procedures (N = 30). Plasma BCAA levels increased threefold within 5 min after BCAA administration. Mean run time to exhaustion was significantly longer (P < 0.01) after BCAA administration (99 +/- 9 min) compared with placebo (76 +/- 4 min). During exercise, blood ammonia levels were significantly higher (P < 0.01) in the BCAA treated compared with those in the placebo treated rats both in the 30-min exercise bout (113 +/- 25 mumol.L-1 (BCAA) vs 89 +/- 16 mumol.L-1) and following exercise to exhaustion (186 +/- 44 mumol.L-1 (BCAA) vs 123 +/- 19 mumol.L-1). These data demonstrate that BCAA administration in rats results in enhanced endurance performance and an increase in blood ammonia during exercise.     

Preserved antioxidative defense of lipoproteins in renal failure and during hemodialysis

Contact to artificial surfaces during hemodialysis activates leukocytes, which then form oxidized arachidonic acid products and free radicals. This might promote the oxidative modification of low-density lipoproteins (LDL) that play a key role in the initiation of atherosclerosis. Thus, leukocyte activation could specifically contribute to the high mortality from atherosclerotic complications on long-term hemodialysis. Therefore monitored LDL and high-density lipoprotein (HDL) resistance to copper-stimulated oxidation in patients with end-stage renal disease on maintenance hemodialysis with cellulose acetate or polysulfone membranes (n = 12), in patients with chronic renal failure (n = 13) and in healthy controls (n = 12). Six of the dialysis patients were restudied during a single cuprophane dialysis. Circulating leukocytes were reversibly reduced early in hemodialysis with cellulose acetate (minimum, 83.6% +/- 7.4% of baseline values at 30 minutes after dialysis start), polysulfone (minimum, 80.4% +/- 10.5% at 15 minutes; P < 0.05) and cuprophane (minimum, 24.5% +/- 8.5% at 60 minutes; P < 0.0001). Despite the leukocyte activation, LDL oxidation lag time was not shortened in comparison with healthy controls and was even prolonged at the end of cellulose acetate (P < 0.05) and cuprophane (P < 0.05) dialysis. HDL oxidation lag time increased (12.6% +/- 0.9%; P < 0.0001) 15 to 60 minutes after start of hemodialysis and returned to predialysis values thereafter. In patients with chronic renal failure, the lag time of HDL oxidation was significantly prolonged (13.34 minutes +/- 0.9) compared with healthy controls (10.91 +/- 2.0 minutes; P < 0.01) as well as compared with the dialysis patients at baseline (9.9 minutes +/- 1.4; P < 0.01).(ABSTRACT TRUNCATED AT 250 WORDS)     

Inhibition of paracrine angiotensin-converting enzyme in vivo: effects on interstitial glucose and lactate concentrations in human skeletal muscle

Microdialysis was used to selectively assess the effect of the paracrine renin-angiotensin system (RAS) on interstitial glucose and lactate concentration profiles in skeletal muscle of healthy volunteers (n = 8) during basal and insulin-stimulated conditions. Paracrine RAS was selectively inhibited by local retrodialysis with enalaprilate. Under basal conditions, local administration of enalaprilate (2 micrograms mL-1) increased interstitial dialysate glucose concentration from 0.71 +/- 0.14 mmol L-1 to 0.84 +/- 0.14 mmol L-1 and decreased the serum interstitial gradient (SIGglu) compared with baseline (P < 0.02). Under clamp conditions, enalaprilate, even at the lowest concentration (0.02 microgram mL-1), increased interstitial dialysate glucose concentration from 0.77 +/- 0.11 mmol L-1 to 1.02 +/- 0.09 mmol L-1 and decreased SIGglu compared with baseline (P < 0.01). Interstitial lactate concentrations slightly increased during basal as well as during clamp conditions (P < 0.05 vs. baseline). Selective inhibition of paracrine muscle angiotensin-converting enzyme (ACE) increases interstitial glucose and lactate concentrations and decreases SIGglu in muscle by facilitating transcapillary glucose transport. This effect is more pronounced during hyperinsulinaemia and may be of clinical relevance in diabetic patients treated with therapeutic doses of enalapril.     

Release, oxidation, and reesterification of fatty acids from infused triglycerides: effect of heparin

We have investigated the effects of heparin on rates of fatty acid (FA) release, oxidation, and reesterification from intravenously (IV) infused triglycerides (TGs) during euglycemic (4.7 mmol.L-1) hyperinsulinemia (approximately 450 pmol.L-1). Four healthy men (aged 31 +/- 3 years; body mass index, 26.1 +/- 0.9 kg/m2) received i.v. TGs (1.02 mmol TG.kg-1.4 h-1), four other men (aged 24.3 +/- 2.8 years: body mass index, 24.7 +/- 1.7 kg/m2) received TGs plus heparin (200-U bolus followed by 0.4 U.kg-1.min-1), and nine men and one woman (aged 28.8 +/- 2.3 years; body mass index, 23.1 +/- 0.9 kg/m2) received saline (controls). Heparin increased lipolysis from infused TGs (to 1.0 +/- 0.1 from 0.3 +/- 0.1 mmol.kg-1.4 h-1, P < .01), increased plasma free fatty acids ([FFA] to 737 +/- 32 from 597 +/- 136 mumol.L-1, P < .05). and increased FA reesterification (to 0.84 +/- 0>14 from 0.18 +/- 0.12 mmol.kg-1.4 h-1, P < .02), but had no effect o n FA oxidation (0.13 +/- 0.02 v 0.12 +/- 0.04 mmol.kg-4 h-1) or net energy gain (167 +/- 42 v 243 +/- 79 kJ.4 h-1). In summary, addition of heparin (1) increased lipolysis (to approximately 98% from approximately 29%) and reesterification (to approximately 82% from approximately 17%) of infused TG, but had no significant effects on fat oxidation (approximately 12%) and net energy gain. We conclude that heparin accelerated removal of infused lipid from the blood and its deposition into endogenous fat depots. Since the doses of heparin and insulin used in this study were higher than those generally used in total parenteral nutrition protocols, our results may not be strictly applicable to the usual clinical situation.     

Leucine metabolism during chronic ethanol consumption

Chronic ethanol consumption is known to increase plasma concentrations of branched-chain amino acids (BCAA) in rats and man, but the mechanisms of this effect are not known. Chronic ethanol consumption may increase levels of BCAA by altering protein turnover and/or by affecting the oxidation of BCAA. These possibilities were investigated in rats pair-fed liquid diets containing either 0% or 36% of total calories as ethanol for 21 days. In the fed state, ethanol-treated rats had a plasma ethanol level of 20 +/- 5 mmol/L and twofold increases in BCAA concentrations in plasma. There were also significant increases (37% to 63%) in muscle, liver, and jejunal mucosa BCAA concentrations. Chronic ethanol consumption significantly increased whole-body rates (mumol/100 g/h) of leucine turnover (73.8 +/- 7.5 v 104 +/- 5.6, P < .01) and oxidation (12.0 +/- 1.7 v 17.7 +/- 1.1, P < .05). In contrast, it significantly decreased leucine incorporation (nmol/mg protein/240 min) into both muscle (0.61 +/- 0.07 v 0.35 +/- 0.05, P < .01) and liver (13.25 +/- 1.40 v 6.78 +/- 0.98, P < .01) proteins. Incorporation of leucine into the mucosal proteins of jejunum (17.42 +/- 1.42 v 15.85 +/- 1.90, P = NS) was not significantly altered by ethanol. These results suggest that reduced protein synthesis and/or increased protein breakdown may account for the elevated tissue BCAA concentrations in chronic ethanol consumption. The consequences of these increased tissue concentrations are increases in tissue oxidation and plasma concentrations of BCAA.     

Bepridil reducing levothyroxine-induced enhancement of mitochondria Ca2+ Mg(2+)-ATPase activity in rat cerebrum

AIM: To study if bepridil (Bep) could affect the enhancement of activity of cerebral mitochondria Ca2+ Mg(2+)-ATPase caused by levothyroxine (Lev) in relation to ischemic overload calcium cerebrum injury. METHODS: The experimental hyperthyroidism model with ischemic cerebrum was developed in rats by ig Lev 1 mg.kg-1.d-1 for 7 d. Ca2+ Mg(2+)-ATPase activity and its kinetic parameters were assayed. RESULTS: The activity, Vmax and Km of cerebral mitochondria Ca2+ Mg(2+)-ATPase in control rats were 3.1 +/- 0.8, 5.1 +/- 2.3 mmol.P(i).h-1/g protein and 0.81 +/- 0.08 mmol.L-1 (ATP) respectively, whereas those of hyperthyroid rats were significantly altered to 4.6 +/- 0.5, 8.5 +/- 1.9 mmol.P(i).h-1/g protein and 0.49 +/- 0.11 mmol.L-1 (ATP) respectively. After treated with Bep 10 or 20 mg.kg-1.d-1 ig for 3 d, allabove 3 parameters of the enzyme were very significantly reduced vs those of either control or hyperthyroid. CONCLUSION: Bep, via decreasing Ca2+ Mg(2+)-ATPase activity and increasing the affinity of Ca2+ Mg(2+)-ATPase to ATP, could prevent rat cerebrum from ATP depletion and ischemic overload calcium injury.     

Preoperative fasting improves survival after 90% hepatectomy

OBJECTIVE: To assess whether alterations in preoperative fatty acid oxidation and gluconeogenesis induced by fasting will affect survival and liver regeneration following 90% hepatectomy in the rat. DESIGN: In a randomized, controlled trial, Wistar rats (N = 157) were separated into two groups. Rats in the first group fasted for 24 hours. Rats in the second group were allowed to eat ad libitum until the time of operation. These groups were further randomized to receive either 20% glucose or tap water ad libitum postoperatively. INTERVENTIONS: Ninety percent hepatectomy; 24-hour fast; 5% glucose feeding. MAIN OUTCOME MEASURES: Survival, DNA synthesis in the hepatic remnant along with glucokinase activity (GKA) and glycogen content, serum ketone bodies (KB), free fatty acid (FFA), glucose, and ad libitum glucose consumption (GC) were serially quantified. RESULTS: Fasting rats that were offered glucose (fasted/glucose) after hepatectomy demonstrated better survival at 48 hours than the rats that were fed before the procedure and given glucose following hepatectomy (fed/glucose), 95% vs 52% (P < .05). The fasted/glucose group also had a greater peak rate of DNA synthesis (550 +/- 110 vs 275 +/- 40 disintegrations per minute per 0.001 mg of DNA, P < .05). Survival was poor in both groups when only tap water was offered to the animals after hepatectomy (31% vs 12%). In the fasted/glucose group, GC 1 hour after hepatectomy was greater than that for fed rats (1.3 +/- 0.175 vs 0.73 +/- 0.176 g/h, P < .05), yet GKA was suppressed (3.4 +/- 0.42 vs 8.05 +/- 2.77 nmol/min per milligrams of protein, P < .05). Fasting before hepatectomy and consuming glucose after causes elevations in both FFA (1.26 +/- 0.19 vs 0.82 +/- 0.13 mol/mL., P < .05) and KB (18.96 +/- 2.82 vs 11.4 +/- 3.94 mmol/mL, P < .05). Normal glucose was maintained in the fasted/glucose group, but fell to 63 +/- 14 mg/dL at 8 hours after hepatectomy in the fed/glucose group. CONCLUSIONS: Fasting before hepatectomy shifts energy utilization to fat oxidation and gluconeogenesis, which appears to ameliorate liver failure after hepatectomy in this severe model of hepatic resection.     

Albumin synthesis rates in cirrhosis: correlation with Child-Turcotte classification

Albumin-synthesis rates were measured in nine patients with stable cirrhosis and compared with those of eight healthy volunteers by means of a new technique using stable isotopes. Four grams of L-[1-13C]leucine was injected over 10 min, and blood samples were drawn at intervals. Serum free [13C]leucine enrichment, taken to be the precursor for albumin synthesis, and 13C enrichment of leucine in albumin, isolated with differential solubility in absolute ethanol from trichloracetic acid-precipitated serum proteins, were measured on mass spectrometry. Albumin synthesis, expressed as a fractional rate, was 7.9% +/- 0.3%/day in the controls and 7.9% +/- 1.1%/day in the cirrhotic patients. Albumin synthesis, expressed as an absolute rate, was lower in the cirrhotic group (cirrhotic, 119 +/- 17 mg/kg/day; controls, 146 +/- 8 mg/kg/day), but because of the relatively small number of patients the difference was not significant. However, the absolute rate of albumin synthesis significantly correlated with the Child-Turcotte score (p = 0.024) and its Pugh modification (p = 0.027). The rate of albumin synthesis also correlated with serum phenylalanine concentration but not with serum albumin concentration and intravascular albumin mass or with other clinical indexes of liver function or integrity when taken separately. However, the significant correlation between albumin synthesis and Child score suggests that albumin synthesis might be useful for the clinical judgment of patients with cirrhosis.     

Retinal pigment epithelium abnormalities in mice with adenomatous polyposis coli gene disruption

In order to assess the effects of dihydropyridine calcium antagonist on sympathetic nerve activity (SNA) in experimental chronic heart failure (CHF), felodipine was given to rats with CHF induced by coronary artery ligation. Anesthetized CHF (n = 7) and sham-operated (n = 9) rats were injected with a bolus dose of felodipine (20 microg/kg) and then infused with felodipine (30 microg/kg/h) for 3 hours. Control CHF rats (n = 8) were given vehicle in the same way. After felodipine treatment, mean blood pressure (MBP) rapidly decreased to 75-85 mmHg, and there was a reflex tachycardia and reflex activation of renal SNA. The heart rate (HR) had returned to baseline level after 3 hours of continuous felodipine infusion, and the SNA returned to baseline level after 2 hours of infusion. At the end of the experiment, renal SNA was 65.4 +/- 11.5% of the baseline level in CHF rats receiving felodipine (P < 0.05) and 94.1 +/- 22.8% in CHF rats receiving vehicle (P > 0.05), but there was no statistical difference between the two groups. Arterial baroreceptor sensitivity (assessed by phenylephrine infusion), which was impaired in CHF rats (-2.7 +/- 0.2 SNA%/mmHg in all CHF rats together vs. -3.6 +/- 0.4 in sham-operated rats, P < 0.5) did not differ significantly from that in sham-operated rats during felodipine infusion (-3.2 +/- 0.4 in felodipine-treated CHF rats vs. -3.7 +/- 0.6 in sham-operated rats) but deteriorated without felodipine treatment (-2.1 +/- 0.3 in CHF rats receiving vehicle, P < 0.05). The biphasic renal SNA response during felodipine infusion suggests that felodipine does not cause persistent sympathetic activation and relatively improves baroreceptor sensitivity in CHF rats.     

Upregulation of atrial natriuretic peptide gene expression in remnant kidney of rats with reduced renal mass

Atrial natriuretic peptide (ANP) is synthesized in the kidney but its physiologic significance there is unclear. To determine whether renal expression of the ANP gene is regulated, renal ANP mRNA expression was assessed in remnant kidneys after 5/6 nephrectomy in Munich-Wistar rats. In normal sodium intake groups, ANP mRNA expression in the remnant kidney was significantly increased by 5.0 +/- 0.8-fold (n = 7, mean +/- SEM) at 4 d when compared with sham-operated controls (n = 6, all sham-operated groups) (*P < 0.001 by Scheffe's test) and by 28.3 +/- 5.1-fold at 14 d. This latter response was markedly diminished to 7.6 +/- 2.1-fold (n = 7, versus sham) in rats maintained on a low sodium diet. At 4 d, on the other hand, no significant downregulation was observed with dietary sodium restriction. Because natriuretic peptides have previously been shown by us to play a major role in the adaptive responses of remnant nephrons to renal mass ablation, these data suggest that ANP of renal origin may contribute to the overall mechanism for enhancing sodium excretion in the face of declining nephron number.     

Albumin synthesis and bone collagen formation in human immunodeficiency virus-positive subjects: differential effects of growth hormone administration

Loss of lean tissue often accompanies human immunodeficiency virus (HIV) infection. Exogenous human recombinant GH (hrGH) has been shown to be beneficial in reversing this wasting. However, catabolic effects of hrGH on muscle protein metabolism have also been reported. Therefore, the responsiveness of other GH-sensitive tissues, including bone formation and albumin synthesis, has been examined. Anabolic activity in bone, from serum levels of carboxy-terminal propeptide of type I collagen, was stimulated by 2 weeks of hrGH in controls (56 +/- 15%, P = 0.002), patients with asymptomatic HIV (24 +/- 10%, not significant), patients with AIDS (47 +/- 7%, P < 0.001), and patients with AIDS and > 10% weight loss (21 +/- 12%, P = 0.02). Albumin synthesis, determined from the incorporation of L-[2H5]phenylalanine, was increased in response to hrGH in controls (23 +/- 7%, P < 0.05), HIV+ subjects (39 +/- 16%, P < 0.05), and patients with AIDS (25 +/- 7%, P < 0.01). Patients with AIDS and weight loss, however, did not increase albumin synthesis (-0.6 +/- 12%) in response to hrGH. The results indicate variable anabolic responses to hrGH. Bone collagen synthesis remained sensitive to hrGH, whereas, the anabolic action of hrGH on the synthesis of albumin diminished with severity of disease. However unlike muscle protein synthesis, albumin synthesis was not depressed below basal levels by hrGH.     

Inhibitory effect of aldosterone on the natriuretic response to atrial natriuretic peptide in hypocapnic rats

1. Previous studies have shown that acute hypocapnia blunts the natriuretic effect of atrial natriuretic peptide (ANP) independently of the renal nerves and that the effect of ANP is restored by total adrenalectomy. We investigated the natriuretic response to ANP in potassium canrenoate (aldosterone receptor antagonist)-treated rats to clarify whether aldosterone contributes to the attenuated natriuretic response to ANP during hypocapnia. 2. Wistar rats, challenged with either canrenoate or saline vehicle, were infused with 10 micrograms/kg per h ANP during acute hypocapnia achieved by mechanical ventilation. 3. In saline-treated hypocapnic rats, ANP infusion failed to increase the fractional excretion of sodium (FENa) (from 3.49 +/- 0.26 to 5.03 +/- 0.42%, respectively; n = 6) which was similar to values for time control rats (from 3.00 +/- 0.61 to 4.41 +/- 0.68%; n = 6). The hyporesponsiveness to ANP during hypocapnia was also evident when the FENa was compared with that of normocapnic rats (from 3.92 +/- 0.69 to 7.87 +/- 0.45%; P < 0.05; n = 6). In canrenoate-treated rats, ANP infusion caused greater increases in sodium excretion (FENA from 3.05 +/- 0.71 to 7.21 +/- 0.45%; P < 0.05; n = 8) than saline infusion (FENA from 4.16 +/- 1.11 to 5.47 +/- 0.66%; n = 6), despite the hypocapnia. The increase in FENA after ANP infusion during hypocapnia (4.16 +/- 0.86%) was similar to the increase seen during normocapnia (3.89 +/- 0.86%; n = 9). 4. In conclusion: (i) acute hypocapnia blunts the natriuretic effects of ANP; and (ii) this attenuation is restored by potassium canrenoate treatment. The data suggest that aldosterone plays an important role by limiting the renal actions of ANP during acute hypocapnia.     

Intra-hippocampal administration of cycloheximide attenuates the restraint-induced exploratory deficit of an elevated plus maze

Rats submitted to 2 h of restraint stress show a reduced open arm exploration in the elevated plus maze 24 h later. The stress-induced exploratory deficit is prevented by i.c.v. pre-stress administration of cycloheximide (CHX), a protein synthesis inhibitor. The objective of the present work was to determine if the hippocampus could be involved in this effect. CHX (4 or 8 microg) was injected into the dorsal hippocampus of male Wistar rats (200-250 g), immediately before (n = 9-20 animals/group) a 2 h period of forced restraint. After 24 h the animals were tested in the elevated plus maze. Non-stressed, control groups, received saline (SAL) or cycloheximide (CHX, n = 6-12/group) and were tested 1 or 24 h later in the maze. Pre-stress microinjections of cycloheximide increased exploration of open arms in the elevated plus maze (percentage of entries, SAL = 10.3 +/- 2.7, CHX 4 microg = 24.5 +/- 4.6, CHX 8 microg = 28.2 +/- 4.8, percentage of time spent, SAL = 2.0 +/- 0.6, CHX 4 microg = 8.4 +/- 2.3, CHX 8 microg = 9.6 +/- 2.6, Duncan test, P < 0.05). No drug effect was observed in non stressed animals. These results suggest that blockade of protein synthesis in the dorsal hippocampus during the restraint period may attenuate the behavioural consequences of stress.     

Integrated nutritional, hormonal, and metabolic effects of recombinant human growth hormone (rhGH) supplementation in trauma patients

An anabolic stimulus is needed in addition to conventional nutritional support in the catabolic "flow" phase of severe trauma. One promising therapy appears to be rhGH infusion which has direct as well as hormonal mediated substrate effects. We investigated on a whole-body level, the basic metabolic effects of trauma within 48-60 h after injury in 20 severely injured (injury severity score [ISS] = 31 +/- 2), highly catabolic (N loss = 19 +/- 2 g/d), hypermetabolic (resting energy expenditure [REE] = 141 +/- 5% basal energy expenditure [BEE]), adult (age 46 +/- 5 y) multiple-trauma victims, before starting nutrition therapy and its modification after 1 wk of rhGH supplementation with TPN (1.1 x REE calories, 250 mg N.kg-1.d-1). Group H (n = 10) randomly received at 8:00 a.m. on a daily basis rhGH (0.15 mg.kg-1.d-1) and Group C (n = 10) received the vehicle of infusion. Protein metabolism (turnover, synthesis and breakdown rates, and N balance); glucose kinetics (production, oxidation, and recycling); lipid metabolism, (lipolysis and fat oxidation rates), daily metabolic and fuel substrate oxidation rate (indirect calorimetry); and plasma levels of hormones, substrates, and amino acids were quantified. In group H compared to group C: N balance is less negative (-41 +/- 18 vs -121 +/- 19 mg N.kg-1.d-1, P = 0.001); whole body protein synthesis rate is 28 +/- 2% (P = 0.05) higher; protein synthesis efficiency is higher (62 +/- 2% vs 48 +/- 3%, P = 0.010); plasma glucose level is significantly elevated (256 +/- 25 vs 202 +/- 17 mg/dL, P = 0.05) without affecting hepatic glucose output (1.51 +/- 0.20 vs 1.56 +/- 0.6 mg N.kg-1.min-1), glucose oxidation and recycling rates; significantly enhanced rate of lipolysis (P = 0.006) and free fatty acid reesterification (P = 0.05); significantly elevated plasma levels of anabolic GH, IGF-1, IGFBP-3, and insulin; trauma induced counter-regulatory hormone (cortisol, glucagon, catecholamines) levels are not altered; trauma induced hypoaminoacidemia is normalized (P < 0.05) and 3-methylhistidine excretion is significantly low (P < 0.001). Improved plasma IGF-1 levels in Group H compared with Group C account for protein anabolic effects of adjuvant rhGH and may be helpful in promoting tissue repair and early recovery. Skeletal muscle protein is spared by rhGH resulting in the stimulation of visceral protein breakdown. The hyperglycemic, hyperinsulinemia observed during rhGH supplementation may be due to defective nonoxidative glucose disposal, as well as inhibition of glucose transport activity into tissue cells. The simultaneous operation of increased lipolytic and reesterification processes may allow the adipocyte to respond rapidly to changes in peripheral metabolic fuel requirements during injury. This integral approach helps us to better understand the mechanism of the metabolic effects of rhGH.