Hemodynamic versus adrenergic control of cat right ventricular hypertrophy.

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Abstract

The purpose of this study was to determine whether cardiac hypertrophy in response to hemodynamic overloading is a primary result of the increased load or is instead a secondary result of such other factors as concurrent sympathetic activation. To make this distinction, four experiments were done; the major experimental result, cardiac hypertrophy, was assessed in terms of ventricular mass and cardiocyte cross-sectional area. In the first experiment, the cat right ventricle was loaded differentially by pressure overloading the ventricle, while unloading a constituent papillary muscle; this model was used to ask whether any endogenous or exogenous substance caused uniform hypertrophy, or whether locally appropriate load responses caused ventricular hypertrophy with papillary muscle atrophy. The latter result obtained, both when each aspect of differential loading was simultaneous and when a previously hypertrophied papillary muscle was unloaded in a pressure overloaded right ventricle. In the second experiment, epicardial denervation and then pressure overloading was used to assess the role of local neurogenic catecholamines in the genesis of hypertrophy. The degree of hypertrophy caused by these procedures was the same as that caused by pressure overloading alone. In the third and fourth experiments, beta-adrenoceptor or alpha-adrenoceptor blockade was produced before and maintained during pressure overloading. The hypertrophic response did not differ in either case from that caused by pressure overloading without adrenoceptor blockade. These experiments demonstrate the following: first, cardiac hypertrophy is a local response to increased load, so that any factor serving as a mediator of this response must be either locally generated or selectively active only in those cardiocytes in which stress and/or strain are increased; second, catecholamines are not that mediator, in that adrenergic activation is neither necessary for nor importantly modifies the cardiac hypertrophic response to an increased hemodynamic load.

Authors

G Cooper 4th, R L Kent, C E Uboh, E W Thompson, T A Marino

Polymorphism of theophylline metabolism in man.

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Abstract

To determine whether genetic mechanisms control large interindividual variations in theophylline elimination in normal uninduced human subjects, and, if so, to test the possibility that these genetic factors are transmitted as a simple Mendelian trait, theophylline was administered to 79 unrelated adults, six sets of monozygotic twins, six sets of dizygotic twins, and six two-generation families. Thereafter, in urine collected from each subject at regular intervals for 48 h, concentrations of theophylline and its three principal metabolites were measured and rate constants of formation of these metabolites calculated. The twin study, designed to determine the relative contributions of genetic and environmental factors to large interindividual variation in theophylline elimination, revealed predominantly genetic control. Values for this genetic component, designated heritability (H1(2)), of interindividual variation in rate constants of metabolite formation were 0.61, 0.84, and 0.95 for 3-methylxanthine, 1-methyluric acid, and 1,3-dimethyluric acid, respectively. H1(2) for the overall theophylline elimination rate constant (kel) was lower (0.34). In the 79 unrelated adults, each distribution curve for rate constants of formation of each theophylline metabolite appeared to be trimodal. By contrast, the distribution curve for the overall theophylline elimination rate constant appeared to be either unimodal or bimodal. The extent of interindividual variation was fourfold for theophylline kel and 6-8-fold for the three principal metabolites. High correlations among the three rate constants in individual subjects suggested their regulation by a single shared factor. In six families carefully selected to be under near basal environmental conditions so that hepatic theophylline metabolism of each family member would be neither markedly induced nor inhibited, phenotypes for theophylline metabolite rate constants were assigned. This assignment of phenotype was made by the position of each family member's rate constant on the three distribution curves that were generated from the 79 unrelated subjects. In each family, pedigree analysis of the three phenotypes for each rate constant was consistent with their control by two alleles at a single genetic locus and with autosomal codominant transmission. Frequencies of the two alleles at each genetic locus controlling rate constants of formation of theophylline metabolites were similar (p = 0.49, 0.53, and 0.52). In the three families studied with antipyrine (AP) as well as with theophylline, AP k(el) correlated (r approximately 0.7) with each rate constant of theophylline metabolite formation, as well as with theophylline k(el). While these results are compatible with a common regulatory element in the AP and theophylline polymorphisms, other evidence suggests more than a single genetic polymorphism. This additional evidence includes different gene frequencies for the AP (p approximately 0.1) and theophylline (p approximately 0.5) polymorphisms, different genotype assignments in several families for some theophylline metabolites, different distribution curves for theophylline k(el) from those for the three theophylline metabolites in 79 unrelated subjects, and finally low correlations between AP metabolite rate constants and theophylline metabolite rate constants in the three families receiving both drugs.

Authors

C A Miller, L B Slusher, E S Vesell

Direct and indirect effects of calcium entry blocking agents on isovolumic left ventricular relaxation in conscious dogs.

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Abstract

To assess the direct and indirect effects of the commonly used calcium entry blockers (CEB) upon the major determinants of isovolumic left ventricular relaxation, we administered equidepressant intracoronary (IC, n = 7) and equihypotensive intravenous (n = 12) dosages of diltiazem (16 +/- 3 SE micrograms/kg IC and 63 +/- 9 micrograms/kg i.v.), verapamil (10 +/- 2 and 57 +/- 5 micrograms/kg), and nifedipine (1 +/- 0.1 and 8 +/- 0.3 micrograms/kg) to preinstrumented awake dogs with normal ventricular function. The time constant of left ventricle (LV) relaxation, analyzed by two methods (T1, from the linear relation of the natural logarithm of LV pressure and time; T2, from the linear relation of LV pressure and negative high fidelity LV pressure), was significantly and equivalently prolonged by IC diltiazem (T1 + 48%, P less than 0.02), verapamil (T1 + 43%, P less than 0.001), and nifedipine (T1 + 30%, P less than 0.03). Lesser amounts of each CEB that did not affect rate of LV pressure development or extent of shortening produced no change in T1 or T2. By contrast, intravenous calcium entry blockade either produced no significant change (diltiazem and verapamil) or shortened (nifedipine T1 - 18%, P less than 0.01) LV isovolumic relaxation. However, after beta adrenergic blockade with propranolol (2 mg/kg i.v., n = 6) no change in ventricular relaxation was observed during nifedipine and the time constant was significantly prolonged by verapamil (T1 + 15%, P less than 0.05). We conclude that calcium entry blockade directly impairs normal left ventricular relaxation: This effect is closely linked to the negative inotropic properties of these drugs. The prolongation of isovolumic relaxation produced by calcium blockade is attenuated or even reversed by reflex sympathetic stimulation and favorably altered loading conditions during systemic administration.

Authors

R A Walsh, R A O'Rourke

Rabbits immunized with thyroid-stimulating hormone produce autoantiidiotypic thyroid-stimulating antibodies.

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Abstract

We immunized rabbits with thyroid-stimulating hormone (TSH) to investigate the hypothesis that such immunization could result in production of thyroid-stimulating autoantiidiotypic antibodies to anti-TSH. Thyroid-stimulating immunoglobulin (TSI) appeared in the serum of several rabbits after immunization. At 160 d, TSI equivalent to 6-18 microU TSH/1.5 mg IgG was present in two of six human (h)TSH-, two of six hTSH beta chain-, and two of the four surviving bovine (b)TSH-immunized animals. Control (human serum albumin-immunized rabbits) serum TSI was 4.3 +/- 0.4 (mean +/- SD) at this time. Antiidiotypic antibodies that could bind to monoclonal anti-hTSH were found in the sera of the bTSH-immunized rabbits. The peak TSI activity occurred 3 mo after a TSH booster immunization and declined gradually during subsequent weeks. Evidence that antiidiotypic antibodies to anti-TSH can cause thyroid stimulation strengthens the notion that such antibodies may be the cause of Graves' hyperthyroidism.

Authors

G N Beall, B Rapoport, I J Chopra, S R Kruger

Aluminum deposition at the osteoid-bone interface. An epiphenomenon of the osteomalacic state in vitamin D-deficient dogs.

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Abstract

Although aluminum excess is an apparent pathogenetic factor underlying osteomalacia in dialysis-treated patients with chronic renal failure, the mechanism by which aluminum impairs bone mineralization is unclear. However, the observation that aluminum is present at osteoid-bone interfaces in bone biopsies of affected patients suggests that its presence at calcification fronts disturbs the cellular and/or physiochemical processes underlying normal mineralization. Alternatively, aluminum at osteoid-bone interfaces may reflect deposition in preexistent osteomalacic bone without direct effects on the mineralization process. We investigated whether aluminum accumulates preferentially in osteomalacic bone and, if so, whether deposition of aluminum occurs at calcification fronts and specifically inhibits mineralization. Aluminum chloride (1 mg/kg) was administered intravenously three times per week for 3 wk to five normal and five vitamin D-deficient osteomalacic dogs. Before administration of aluminum the vitamin D-deficient dogs had biochemical and bone biopsy evidence of osteomalacia. Bone aluminum content in the osteomalacic dogs (15.1 +/- 2.2 micrograms/g) and the plasma aluminum concentration (10.4 +/- 2.1 micrograms/liter) were no different than those of normal dogs (10.5 +/- 3.5 micrograms/g and 11.9 +/- 1.2 microgram/liter, respectively). After the 3 wk of aluminum administration the plasma phosphorus, parathyroid hormone, and 25-hydroxyvitamin D concentrations were unchanged in normal and vitamin D-deficient dogs. Similarly, no alteration in bone histology occurred in either group. In contrast, bone aluminum content increased to a greater extent in the vitamin D-deficient dogs (390.3 +/- 24.3 micrograms/g) than in the normal dogs (73.6 +/- 10.6 micrograms/g). Moreover, aluminum localized at the osteoid-bone interfaces of the osteomalacic bone in the vitamin D-deficient dogs, covering 42.9 +/- 9.2% of the osteoid-bone surface. Further, in spite of continued aluminum chloride administration (1 mg/kg two times per week), vitamin D repletion of the vitamin D-deficient dogs for 11 wk resulted in normalization of their biochemistries. In addition, while normal dogs maintained normal bone histology during the period of continued aluminum administration, vitamin D repletion of the vitamin D-deficient dogs induced healing of their bones. Indeed, the appearance of aluminum in the cement lines of the healed bones indicated that mineralization had occurred at sites of prior aluminum deposition. These observations illustrate that aluminum deposition in osteomalacic bone may be a secondary event that does not influence bone mineralization. Thus, although aluminum may cause osteomalacia in chronic renal failure, its presence at mineralization fronts may not be the mechanism underlying this derangement.

Authors

L D Quarles, V W Dennis, H J Gitelman, J M Harrelson, M K Drezner

Carbohydrate fermentation in the human colon and its relation to acetate concentrations in venous blood.

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Abstract

There is now substantial evidence that some dietary polysaccharides, notably dietary fiber, escape absorption in the small bowel and are then broken down in the large intestine of man. The main end products of this colonic digestive process, which is anerobic, are short chain fatty acids (SCFA), and acetic, propionic, and butyric acids. Although these acids are known to be absorbed from the colon, their subsequent fate and significance is unknown. We have measured venous blood SCFA levels in healthy subjects after a 16-h fast, and then following oral doses of either 50 mmol SCFA, 5, 10, or 20 g doses of the fermentable carbohydrate lactulose, or 20 g of pectin. Fasting venous blood acetate was 53.8 +/- 4.4 mumol/liter (SEM) (n = 14). Fasting arterial blood acetate, taken simultaneously with venous blood in six subjects, was higher; 125.6 +/- 13.5 mumol/liter (arterial) vs. 61.1 +/- 6.9 mumol/liter (venous). Significant levels of propionate or butyrate were not detected in any blood samples. Following an oral dose of 50 mmol mixed SCFA, venous blood acetate reached a peak of 194.1 +/- 57.9 mumol/liter at 45 min and returned to fasting levels at 2 h. Blood acetate also rose in response to lactulose, peak levels occurring 2-4 h after the dose: 5 g, 98.6 +/- 23.1 mumol/liter; 10 g, 127.3 +/- 18.2 mumol/liter; and 20 g, 181.3 +/- 23.9 mumol/liter. Pectin fermentation was much slower, with blood acetate levels starting to rise after 6 h and remaining elevated at about twice fasting levels for the subsequent 18 h. However, areas under the blood acetate curves were closely related (r = 0.97; n = 5), whatever the source of acetate. These studies show that the large intestine makes an important contribution to blood acetate levels in man and that fermentation may influence metabolic processes well beyond the wall of this organ.

Authors

E W Pomare, W J Branch, J H Cummings

Differing effects of antiinsulin serum and antiinsulin receptor serum on 123I-insulin metabolism in rats.

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Abstract

Anesthetized rats were treated with saline, antiinsulin receptor serum, or antiinsulin serum, and the biodistribution of high pressure liquid chromatography-purified 123I-Tyr A14-insulin was studied by scintillation scanning. Time activity curves over organs of interest were calibrated by sacrificing the rats at the end of the experiment and directly determining the radioactivity in the blood, liver, and kidneys. Saline-treated rats exhibited normal insulin biodistribution. The highest concentration of 123I-insulin was found in the liver, and reached 30% of total injected dose between 3 and 5 min after injection. After this peak, activity rapidly decreased with a t1/2 of 6 min. Activity of 123I-insulin in kidney showed a more gradual rise and fall and was approximately 15% of injected dose at its maximum. In rats treated with antiinsulin antiserum, insulin biodistribution was markedly altered. Peak liver activity increased with increasing antibody concentration with up to 90% of injected dose appearing in the liver. In addition, there was no clearance of the liver 123I-insulin over 30 min. Autoradiographic studies demonstrated that in contrast to the normal rats in which radioactivity was associated with hepatocytes, in rats passively immunized with anti-insulin serum, 125I-insulin was associated primarily with the Kuppfer cells. In contrast, antibodies to the insulin receptor markedly inhibited 123I-insulin uptake by the liver. Kidney activity increased, reflecting the amount of free 123I-insulin that reached this organ. This is similar to the pattern observed when insulin receptors are saturated with a high concentration of unlabeled insulin. Thus, both insulin antibodies and anti-receptor antibodies alter the distribution of insulin, but with very different patterns. The use of 123I-insulin and scintillation scanning allows one to study specific alterations in insulin distribution in animal models of insulin-resistant states, and should also be useful in human disease states.

Authors

J C Sodoyez, F Sodoyez Goffaux, R von Frenckell, C J De Vos, S Treves, C R Kahn

Cleavage of blood coagulation factor XIII and fibrinogen by thrombin during in vitro clotting.

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Abstract

Thrombin cleavage of blood coagulation Factor XIII (a2b2) and fibrinogen was studied during in vitro clotting to determine the physiologic sequence of these events. First, the time course of fibrin formation and cleavage of Factor XIII was measured in platelet-rich plasma. Cleavage of fibrinogen was measured by using a radioimmunoassay for fibrinopeptide A. Conversion of trace amounts of radioiodinated a-chains of 125I-Factor XIII to thrombin-modified a-chains was measured in unreduced 10% sodium dodecyl sulfate-polyacrylamide gels. During spontaneous clotting, a similar percentage of 125I-Factor XIII and fibrinogen was cleaved at each time point. Visible gelation of polymerized fibrin monomer occurred when 24 +/- 8% of fibrinogen was cleaved and 21 +/- 6% of Factor XIII was converted to Factor XIII'. Thrombin cleavage of Factor XIII and fibrinogen was also studied in platelet-poor plasma to which thrombin was added. In order to measure Factor XIIIa activity, fibrin polymerization was completely inhibited by the addition of Gly-Pro-Arg-Pro. Factor XIIIa formation was measured by the incorporation of [3H]putrescine into casein. The concentration of added thrombin required to cleave 50% of fibrinogen and Factor XIII was 0.65 U/ml and 0.35 U/ml, respectively. The rate of cleavage of fibrinogen by thrombin was 43-fold greater than cleavage of Factor XIII. Lower Gly-Pro-Arg-Pro concentrations were used to determine the effects of incompletely inhibiting fibrin polymerization on cleavage of Factor XIII and fibrinogen. Thrombin cleavage of Factor XIII but not fibrinogen was dependent on the extent of fibrin polymerization. The more marked the degree of inhibition of fibrin polymerization, the slower the rate of Factor XIIIa formation. Thus, in platelet-rich plasma, thrombin cleavage of Factor XIII and fibrinogen are closely related events during spontaneous clotting. Furthermore, cleavage of Factor XIII during clotting is enhanced by fibrin polymerization in platelet-poor plasma.

Authors

C S Greenberg, C C Miraglia, F R Rickles, M A Shuman

Pancreatic enzyme response to a liquid meal and to hormonal stimulation. Correlation with plasma secretin and cholecystokinin levels.

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Abstract

Pancreatic trypsin output and plasma secretin and cholecystokinin (CCK) levels were measured in five healthy volunteers to investigate the mechanisms involved in regulating postprandial pancreatic secretion. The pancreas was stimulated by a liquid test meal or by either intravenous secretin (1-82 pmol/kg-1 per h-1) or caerulein, a CCK analogue (2.3-37 pmol/kg-1 per h-1), or by a combination of secretin and caerulein. Pancreatic secretion was assessed by a marker perfusion technique (polyethylene glycol [PEG 4000]), plasma secretin, and CCK by specific radioimmunoassays. Increasing doses of secretin produced increasing bicarbonate output (P less than 0.01), whereas trypsin was not stimulated over basal. Graded caerulein produced a stepwise increase in trypsin and bicarbonate output (P less than 0.01). Potentiation occurred for bicarbonate secretion between secretin and caerulein, but not for trypsin output. Postprandial trypsin secretion averaged 29.1 IU/min-1 over 150 min (equal to 55% of maximal response to caerulein). The peak trypsin response amounted to 90% of maximal caerulein. Significant increases of plasma secretion (P less than 0.05) and CCK (P less than 0.01) were observed after the meal. Comparison of enzyme and CCK responses to the testmeal or to exogenous caerulein suggested that the amount of CCK released after the meal could account for the postprandial trypsin secretion. We conclude that (a) the postprandial enzyme response in man is submaximal in comparison to maximal exogenous hormone stimulation; (b) CCK is a major stimulatory mechanism of postprandial trypsin secretion, whereas secretin is not involved; and (c) Potentiation of enzyme secretion is not a regulatory mechanism of the postprandial secretory response.

Authors

C Beglinger, M Fried, I Whitehouse, J B Jansen, C B Lamers, K Gyr

Mechanism of preservation of glomerular perfusion and filtration during acute extracellular fluid volume depletion. Importance of intrarenal vasopressin-prostaglandin interaction for protecting kidneys from constrictor action of vasopressin.

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Abstract

Glomerular circulatory dynamics were assessed in 60 adult anesthetized rats, which were either deprived or not deprived of water for 24-48 h. Water-deprived rats (n = 21) were characterized by a depressed level of single nephron glomerular filtration rate (SNGFR) when compared with nonwater-deprived controls (n = 8) (23.2 +/- 1.3 vs. 44.8 +/- 4.1 nl/min). This was primarily due to decreased glomerular plasma flow rate (71 +/- 5 vs. 169 +/- 23 nl/min) and glomerular capillary ultrafiltration coefficient (0.028 +/- 0.003 vs. 0.087 +/- 0.011 nl/[s . mmHg]). Infusion of saralasin to these water-deprived rats resulted in significant increases in plasma flow rate and ultrafiltration coefficient, and decline in arteriolar resistances. Consequently, SNGFR increased by approximately 50% from pre-saralasin levels. When water-deprived saralasin-treated rats were given a specific antagonist to the vascular action of arginine vasopressin (AVP), d(CH2)5Tyr(Me)AVP, a fall in systemic blood pressure occurred, on average from 102 +/- 5 to 80 +/- 5 mmHg, unaccompanied by dilation of renal arterioles, so that both plasma flow rate (129 +/- 8 vs. 85 +/- 13 nl/min) and SNGFR (31.0 +/- 2.9 vs. 18.2 +/- 4.4 nl/min) decreased. This more selective extrarenal constrictor action of AVP was further documented in additional studies in which cardiac output and whole kidney blood flow rate were simultaneously measured. In water-diuretic rats, administration of a moderately pressor dose of AVP (4 mU/kg per min) resulted in a significant rise in kidney blood flow rate (from 8.8 +/- 1.2 to 9.6 +/- 1.3 ml/min). The higher kidney blood flow rate occurred despite a fall in cardiac output (from 111 +/- 7 to 98 +/- 9 ml/min), and was associated with a significant increase in the ratio of systemic vascular to renal vascular resistance (on average from 0.083 +/- 0.014 to 0.106 +/- 0.019). Furthermore, infusion of d(CH2)5Tyr(Me)AVP to water-deprived animals (n = 6) to antagonize endogenous AVP resulted in systemic but not renal vasodilation, so that kidney blood flow rate fell (by approximately 30%), as did systemic-to-renal resistance ratio (by approximately 30%). When the above two experiments were repeated in indomethacin-treated animals, exogenous AVP administration in water-diuretic rats (n = 6) and antagonism of endogenous AVP in water-deprived rats (n = 7) caused, respectively, parallel constriction and dilation in systemic and renal vasculatures. The net effect was unaltered systemic to renal vascular resistance ratio in both cases. These results indicate that (1) unlike angiotensin II, AVP maintains glomerular perfusion and filtration in acute extracellular fluid volume depletion by a more selective constriction of the extrarenal vasculature. (2) The relative renal insensitivity to the vasoconstrictor action of AVP appears to be due to an AVP-induced release of a potent renal vasodilator, sensitive to indomethacin, presumably prostaglandins.

Authors

A Yared, V Kon, I Ichikawa