To examine the switch from fetal to adult hemoglobin at the cellular level, erythroid progenitor cells from newborn infants and adults were cultured in methyl cellulose with erythropoietin. Individual erythroid colonies were labeled with [3H]leucine at various times, and globin synthesis patterns examined by gel electrophoresis and fluorography. The percent gamma- or beta-globin synthesis was determined from the total of gamma + beta, and the percent G gamma from the total of G gamma + A gamma. The nonparametric correlation coefficients of percent G gamma with percent gamma or beta were obtained. Each group of colonies at each time point was examined separately. In colonies from adult blood, the proportion of G gamma-synthesis did not correlate with the proportion of gamma-synthesis. Colonies from newborn blood fell into two groups. Those that developed from relatively mature progenitor cells, and were seen on day 14, showed a strong negative correlation of G gamma with beta-globin synthesis. However, those newborn colonies that developed from immature progenitors, and were seen later in culture (days 17 and 21), showed no correlation of G gamma with beta-synthesis. These findings are compatible with a clonal model for hemoglobin switching. Fetal progenitors, in which G gamma- and beta-syntheses are negatively correlated, are gradually replaced during ontogeny by adult progenitors. The adult progenitors produce more beta (less gamma), and the proportions of G gamma- and gamma- or beta-synthesis are not correlated.
R S Weinberg, J D Goldberg, J M Schofield, A L Lenes, R Styczynski, B P Alter
Human serum lipoproteins are known to participate in or modify several immunologically relevant responses, including the inhibition of target cell lysis initiated by fluid-phase C5b-7 (reactive lysis). We now report that human high density lipoproteins (HDL) can inhibit the complement (C) lytic mechanism after C5b-7, C5b-8, and even C5b-9 have been bound to the target membrane. This inhibitory activity of serum or plasma copurifies in hydrophobic chromatography with antigenically detected apolipoprotein A-I (apoA-I), the major HDL apoprotein, and with HDL in CsCl density gradient ultracentrifugation. Although HDL is more active than its apoproteins in fluid-phase inhibition of C5b-7-initiated reactive lysis, the HDL apoproteins are more effective after C5b-7, C5b-8, or C5b-9 have become bound to human or sheep erythrocytes (E). Highly purified HDL apoproteins, apoA-I and apoA-II, both have greater inhibitory activity than whole HDL on a protein weight basis, and some evidence has been obtained that apoA-I dissociating spontaneously from HDL may be the principal inhibitory moiety in physiological situations. HDL lipids themselves are inactive. The HDL-related inhibitors are ineffective when incubated with EC5b-7 and removed before C8 and C9 are added, and only minimally effective on cell-bound C5b-8 sites before C9 is added. They exert their most prominent inhibitory activity after C9 has been bound to EC5b-8 at low temperature, but before the final temperature-dependent, Zn++-inhibitable membrane damage steps have occurred. Therefore, HDL or its apoproteins do not act to repair already established transmembrane channels, but might interfere either with insertion of C9 into the lipid bilayer or with polymerization of C9 at C5b-8 sites. This heat-stable inhibitory activity can be demonstrated to modify lysis of erythrocytes in whole serum, i.e., it does not depend upon artificial interruption of the complement membrane attack sequence at any of the above-mentioned stages. Contributions of the target membrane itself to the mechanism of inhibition are suggested by the observations that, in contrast to sheep or normal human E, lysis of guinea pig E or human E from patients with paroxysmal nocturnal hemoglobinuria is inhibited poorly.
Stephen I. Rosenfeld, Charles H. Packman, John P. Leddy
Captopril, 5 mg/kg, administered to pregnant rabbits caused a reduction in mean arterial pressure (MAP) from 106±2 to 87±2 mmHg (P<0.01) without change in cardiac output or renal blood flow. Uterine blood flow fell from 31.9±2.5 to 21.3±3.4 ml/min (P<0.01) as uterine vein prostaglandin E series level (PGE) decreased from 127±23 ng/ml to 26±8 ng/ml (P<0.01). Saralasin also caused a reduction in MAP from 110±5 to 92±4.3 (P<0.01), a reduction in uterine blood flow from 28.8±1.6 to 21.8±1.7 ml/min (P<0.01) as uterine vein PGE decreased from 121.3±14.4 to 63.5±14.2 ng/ml (P<0.01). Plasma renin activity (PRA) was higher in the uterine vein, 11±3 ng/ml per h, than peripheral vein, 6±1.6 ng/ml per h, (P<0.05), before Captopril and rose in the uterine vein to 90±19 ng/ml per h (P<0.01) as peripheral vein PRA rose to 62±15 ng/ml per h (P<0.05) after Captopril. After saralasin uterine vein PRA rose from 4.6±1.5 to 14.8±6.3 ng/ml per h (P<0.05) and peripheral vein PRA rose from 3.7±1 to 6.5±2.1 (P<0.05).
Thomas F. Ferris, Edward K. Weir
Two distinct lipoprotein receptors can be expressed in the dog liver. One is the apolipoprotein (apo-) B,E receptor. This receptor binds apo-B-containing low density lipoproteins (LDL), as well as apo-E-containing lipoproteins, such as the cholesterol-induced high density lipoproteins (HDLc). The second hepatic lipoprotein receptor is the apo-E receptor. It binds apo-E HDLc and chylomicron remnants, but not LDL. The present studies were undertaken to determine whether short-term (acute) regulation of the two receptors can occur in response to perturbations in hepatic cholesterol metabolism. The design used three groups of experimental animals: (a) immature dogs (with both hepatic apo-B,E and apo-E receptors expressed), (b) adult dogs (with predominantly the apo-E receptor expressed and little detectable apo-B,E receptor binding activity), and (c) dogs treated with the bile acid sequestrant cholestyramine or those that have undergone biliary diversion (with apo-E receptors and induced apo-B,E receptors).
Bo Angelin, Carol A. Raviola, Thomas L. Innerarity, Robert W. Mahley
Thrombocytopenia frequently complicates malarial infections but the mechanism has not been elucidated. We studied 28 patients with malarial infections and noted that 16 of 17 thrombocytopenic patients had elevated levels of platelet-associated IgG (PAIgG). In all thrombocytopenic patients studied, the level of PAIgG returned to normal as the platelet count rose to normal levels. To study the mechanism of the elevated platelet-bound IgG, IgG and F(ab')2 from patients with recurrent Plasmodium falciparum infections was purified and radiolabeled. Labeled and unlabeled P. falciparum antigen was also prepared. IgG did not nonspecifically bind to malaria-damaged platelets. Binding studies with 3H-malarial antigen demonstrated platelets have saturable binding sites for malarial antigen. Increasing concentrations of malarial antigen displaced the 125I-IgG antimalarial antibody from the platelets. The binding of 125I-IgG and 125I-F(ab')2 was similar and this excluded significant immune complex binding. The thrombocytopenia that complicates at least some malarial infections is caused by immune mechanisms; specific IgG binds to platelet-bound malaria antigen through the Fab portion of the immunoglobulin molecule.
J G Kelton, J Keystone, J Moore, G Denomme, E Tozman, M Glynn, P B Neame, J Gauldie, J Jensen
The role of muscle in the processing of dietary carbohydrate in nine type I diabetic patients was assessed using combined forearm-indirect calorimetry-glucose meal (100 g) studies performed before and after 72 h of artificial beta-cell directed insulin therapy. On conventional insulin therapy, initially elevated arterial glucose concentrations rose markedly, free insulin increased slightly, and the respiratory quotient (R.Q.) did not change during the study. The forearm glucose extraction rate increased significantly over basal at 60 min. After 72 h of artificial beta-cell therapy and while still on the instrument, arterial glucose increased moderately, and free insulin levels increased markedly. The R.Q. increased significantly at 60 and 120 min. The forearm glucose extraction rate increased significantly over basal at 30 and 60 min. Importantly, forearm glucose extraction rates did not differ during the two studies at each of the measured time points. These observations demonstrate that conventional insulin therapy is effective in facilitating glucose entry into muscle. In addition, they suggest that the marked improvement in glucose processing exhibited by type I diabetic patients after 72 h of artificial beta-cell therapy is primarily attributable to the liver. Finally, the data strongly imply that the primary clinical objective of insulin therapy in type I diabetes mellitus should be reactivation of the hepatic component of the glucose disposal system.
T T Aoki, F V Vlachokosta, M C Foss, M T Meistas
Somatostatin increases absorption of electrolytes and inhibits diarrhea in patients with endocrine tumors and short bowel syndrome. In an attempt to develop a gut-specific somatostatin analog, each amino acid in the somatostatin molecule was replaced with L-alanine, deleted, or substituted with its D-isomer. The potency of each analog to stimulate ion transport in the rabbit ileum was then determined using the modified Ussing chamber technique. The results were compared to the ability of each analog to inhibit the stimulated release of growth hormone from cultured rat anterior pituitary cells and to inhibit the arginine-stimulated release of insulin and glucagon in the rat in vivo. Analogs that showed gut selectivity were then tested for their ion transport properties in the rat colon. Results: (a) Substitution with L-alanine or deletion of the amino acid at position 6, 7, 8, or 9 and deletion of Threonine10-produced analogs with significantly reduced ion transport properties to <4% of somatostatin's action. The substitution also markedly reduced the ability of the compounds to inhibit the release of growth hormone, insulin, and glucagon. (b) Selectivity of intestinal ion transport was achieved by any one of the following alterations: L-alanine substitution at Phenylalanine11, deletion of Phenylalanine11, substitution with D-lysine at Lysine4, or substitution with L-alanine at Lysine4. These compounds had intestinal ion transport properties of 52, 34, 139, and 94%, respectively, while demonstrating little or no inhibition of growth hormone, insulin or glucagon release. Conclusions: (a) Phenylalanine6, Phenylalanine7, Tryptophan8, and Lysine9 are required for the ion transport and other biologic actions of somatostatin, whereas Threonine10 serves as an essential spacer. (b) Alteration at Phenylalanine11 or Lysine4 yields analogs that are selective for ion transport in the rabbit ileum and rat colon. These findings should be taken into consideration when developing a gut-specific somatostatin analog that can be useful in the treatment of diarrhea.
Linda E. Rosenthal, Darrell J. Yamashiro, Jean Rivier, Wylie Vale, Marvin Brown, Kiertisin Dharmsathaphorn
The androgen resistance syndromes are generally felt to be due to quantitative or qualitative abnormalities of the androgen receptor. Some patients with testicular feminization have no demonstrable fibroblast cytosol androgen binding, whereas others have androgen binding in cultured fibrobalsts that is thermolabile or fails to be stabilized by sodium molybdate. I describe here familial incomplete testicular feminization associated with reduced nuclear androgen retention. Fibroblasts, cultured from pubic skin biopsies of two phenotypic female 46XY siblings, were assayed for whole cell and nuclear uptake of [3H]dihydrotestosterone in dispersed, intact cells. Whole cell binding of [3H]dihydrotestosterone at 22°C in the patients' fibroblasts was in the normal range. However, no high affinity, saturable binding of [3H]dihydrotestosterone was demonstrable in crude nuclear pellets prepared from the patients' fibroblasts incubated at 37°C with the hormone. Incubating the patients' cells with [3H]methyltrienolone or examining the nuclear uptake of [3H]dihydrotestosterone in these cells at 22°C did not alter these findings. Although cytosol from the patients' cells revealed a quantitatively diminished 8S peak for [3H]dihydrotestosterone after centrifugation on sodium molybdate-containing sucrose gradients, there was no peak of 3H in the 4S region from 0.3 M KCl nuclear extracts of the patients' cells after they had been incubated with [3H]dihydrotestosterone at 37°C.
Charles Eil
We have tested the effect of physiological increases in plasma corticosteroids in conscious dogs on the levels of basal and hypoglycemia-stimulated adrenocorticotropic hormone (ACTH) 2 h later. Increases in plasma corticosteroids, produced by infusion of alpha-1-24 ACTH or corticosteroids for 40 min, suppressed basal and stimulated ACTH levels. The magnitude of inhibition produced by an increase in plasma corticosteroids induced by the infusion of ACTH was equivalent to the inhibition produced by the same increase in plasma corticosteroids induced by corticosteroid infusion. The infusions did not affect basal plasma glucose concentrations or the decrease in plasma glucose concentrations after administration of 0.1 U insulin/kg. Basal ACTH concentration was less sensitive than hypoglycemia-stimulated ACTH concentration to corticosteroid-induced suppression. Basal and stimulated secretion were significantly inhibited in all dogs after approximately half-maximal increases in plasma corticosteroids; maximum inhibition occurred after maximal increases in plasma corticosteroids. Therefore, physiological increments in plasma corticosteroids, similar to those produced by acute stress, are effective suppressors of subsequent stress-induced ACTH secretion.
M E Keller-Wood, J Shinsako, M F Dallman
Previous workers have shown that metabolic acidosis increases the apparent space through which administered bicarbonate is distributed. This finding has been ascribed to the accompanying acidemia and to the consequent availability of a large quantity of hydrogen ion that accumulates on nonbicarbonate tissue buffers during the development of acidosis. To test this hypothesis, bicarbonate space was measured in dogs with a broad range of steady-state plasma [HCO-3] in association with alkalemia as well as with acidemia. Appropriate combinations of pH and plasma [HCO-3] were achieved by pretreating the animals to produce graded degrees of each of the four cardinal, chronic acid-base disorders. Metabolic acidosis (n = 15) was produced by prolonged HCl-feeding; metabolic alkalosis (n = 17) by diuretics and a chloride-free diet; and respiratory acidosis (n = 9) and alkalosis (n = 8) by means of an environmental chamber. Animals with normal acid-base status (n = 4) were also studied. Sodium bicarbonate (5 mmol/kg) was infused over 10 min to the unanesthetized animals; observations were carried out over 90 min. The results obtained from animals with metabolic acid-base disturbances demonstrated an inverse relationship between bicarbonate space and initial plasma pH, confirming the previous findings of others. By contrast, the results obtained in animals with respiratory acid-base disturbances demonstrated a direct relationship between bicarbonate space and initial plasma pH. The pooled data revealed that bicarbonate space is, in fact, quite independent of the initial pH but is highly correlated with the initial level of extracellular [HCO-3]; dogs with low extracellular [HCO-3] (congruent to 10 meq/liter) whether acidemic or alkalemic, have a bicarbonate space that is 25% larger than normal and some 50% larger than in dogs with high extracellular [HCO-3] (congruent to 50 meq/liter). We conclude from these results that the increased bicarbonate space in metabolic acidosis (and respiratory alkalosis) does not reflect the availability of more hydrogen ions for release during bicarbonate administration, but merely evidences the wider range of titration (delta pH) of nonbicarbonate buffers that occurs during alkali loading whenever plasma [HCO-3] is low.
H J Adrogué, J Brensilver, J J Cohen, N E Madias
The effect of 8-L-arginine vasopressin (AVP) on biosynthesis of prostaglandins in human mononuclear phagocytes was examined. AVP, oxytocin, and deamino-(8-D-arginine) vasopressin (dDAVP) affected prostaglandin biosynthesis in a rank order that parallels their pressor but not antidiuretic activity (AVP greater than oxytocin greater than dDAVP). Radioimmunoassay, incorporation studies using [14C]arachidonic acid and radiometric thin-layer chromatography, revealed prostaglandin E2 (PGE2) to be the only prostaglandin synthesized by the mononuclear phagocytes. While high concentrations of PGE2 elevated cytoplasmic levels of cyclic AMP by five- to sevenfold above basal values, low concentrations of PGE2 that are released by the cells in the presence of AVP failed to increase cyclic AMP content in the cells. However, PGE2 at concentrations that do not alter cyclic AMP levels markedly interferes with the activity of AVP. This effect is, however, very time dependent. Addition of PGE2 to the cells 30 min before AVP, was followed by a period of unresponsiveness to the hormone that lasts at least 30 min. Pretreatment of the cells with indomethacin enhanced the AVP-mediated accumulation of intracellular cyclic AMP level. PGE2 did not modify [3H]AVP binding, indicating that its inhibitory effect on the activity of the peptide is not due to downregulation of vasopressin receptors.
R Locher, W Vetter, L H Block
T lymphocytes from control subjects were separated into subsets using monoclonal antibodies of the OKT series and complement lysis and analyzed for ecto-5′-nucleotidase activity both by quantitative radiochemical assay and a histochemical stain. T cells from 15 control subjects contained 54±4% OKT4+ (helper/inducer) cells and 32±3% OKT8+ (cytotoxic/suppressor) cells. Total T cell ecto-5′-nucleotidase activity was 10.9±2.1 nmol/h per 106 cells with 25±7% positive by histochemical stain. Ecto-5′-nucleotidase activity in OKT4-enriched populations was 5.43±1.8 nmol/h per 106 cells with 14±2% positive by histochemical stain; that in OKT8-enriched populations was 17.1±5.9 nmol/h per 106 cells with 35±8% positive by histochemical stain.
Linda F. Thompson, Andrew Saxon, Richard D. O'Connor, Robert I. Fox
Basic lipophilic drugs such as propranolol and lidocaine are strongly bound by α1-acid glycoprotein, also called orosomucoid. Although the liver is known to rapidly clear plasma protein-bound propranolol or lidocaine, it is generally regarded that peripheral tissues, such as brain or heart, are only exposed to the small fraction of drug that is free or dialyzable in vitro. The “free drug” hypothesis is subjected to direct empiric testing in the present studies using human sera and an in vivo rat brain paradigm.
William M. Pardridge, Roland Sakiyama, Gary Fierer
The naturally occurring sulfidopeptide leukotrienes, leukotriene (LT) C4 (LTC4) [5(S)-hydroxy - 6(R) - S - glutathionyl - 7,9 - trans, 11,14 - cis - eicosatetraenoic acid] and its cysteinylglycine (LTD4) and cysteinyl (LTE4) analogs, which are derived by peptide cleavage, differ in the concentrations required to elicit comparable contractions of the guinea pig ileum, with respective potencies of 1.2:5:1. The effect of the ongoing bioconversion of LTC4 and LTD4 on the contractile response of the guinea pig ileum to each was determined by recording the pattern of the contraction and quantitating the initial agonist and its metabolic products. The contraction was elicited by radiolabeled agonist, and its conversion products were sampled at defined intervals and resolved by their retention times on reverse-phase high performance liquid chromatography. After a latent period of 60 s. LTC4 initiated a linear response, followed by a slower, progressive response to a maximum level that was maintained without relaxation. The metabolic conversion of LTC4 was <5% during the linear phase of contraction and complete inhibition of bioconversion of LTC4 to LTD4 by the presence of serine-borate complex did not alter the pattern of the spasmogenic response. As the maximum response in the presence of serine-borate complex was three-quarters of that obtained without the inhibitor of bioconversion, the predominant response was to LTC4 itself. The spasmogenic response of the ileum to LTD4 was immediate, linear to a maximum level, and immediately followed by a marked relaxation. That the failure of LTD4 to sustain a contraction was due to its immediate, rapid, and quantitative conversion to the less potent LTE4 was established by pharmacologically inhibiting and anatomically deleting the converting activity. In the presence of L-cysteine the conversion of LTD4 to LTE4 was largely inhibited and the maximum contractile response was well maintained. After anatomic removal of the mucosa that contained the LTD4 dipeptidase activity, the longitudinal smooth muscle preparation gave a maximal response to LTD4 that was fully maintained. Thus, bioconversion is not a prerequisite for the spasmogenic activity of LTC4 and accounts for the transient response of the ileum to LTD4.
Steven Krilis, Robert A. Lewis, E. J. Corey, K. Frank Austen
Daily carbohydrate intake of seven men with normal weight was limited to 220-265 g/d for 6 d and then increased to 620-770 g/d for 20 d, while intake of protein, fat, and sodium remained constant. Carbohydrate overfeeding increased body weight by 4.8%, basal oxygen consumption (VO2) by 7.4%, BMR by 11.5%, and serum triiodothyronine levels by 32%. Overfeeding did not affect the thermic effect of a standard meal. Intravenous propranolol reduced the thermic effect of a meal by 22% during the base-line feeding period, and by 13% during carbohydrate overfeeding, but did not affect preprandial VO2. Overfeeding attenuated the rise in plasma glucose and FFA levels induced by infusion of norepinephrine, but had no effect on the increase in VO2 induced by norepinephrine. Overfeeding did not alter 24-h urinary excretion of vanillylmandelic acid, supine plasma catecholamine levels (pre- and postprandial), blood pressure, or plasma renin activity, but increased peak standing plasma norepinephrine levels by 45% and resting pulse rate by 9%. Even though short-term carbohydrate overfeeding may produce modest stimulation of sympathetic nervous system activity in man, the increase in thermogenesis induced by such overfeeding is neither suppressed by beta adrenergic blockade nor accompanied by an increased sensitivity to the thermogenic effects of norepinephrine. These data do not support an important role for the sympathetic nervous system in mediating the thermogenic response to carbohydrate overfeeding.
S Welle, R G Campbell
The plasma clearance kinetics of the amyloid-related high density lipoprotein (HDL) apoprotein serum amyloid protein (apoSAA) was examined in BALB/c mice by two different methods, using labeled 125I-apoSAA-rich HDL and unlabeled plasma apoSAA (clearance monitored by radioimmunoassay). The plasma half-life of apoSAA, estimated by both methods, was on the order of 75-80 min, as compared with a value of approximately 11 h for mouse apoA-I. In trace-labeling studies, the rapid plasma clearance of both major 125I-labeled apoSAA isotypes was observed; this metabolic behavior was unique to these polypeptides among HDL apoproteins. The property of rapid plasma clearance was lost upon purification and reconstitution of 125I-apoSAA with HDL, indicating that this property is labile to denaturing conditions. Studies aimed at determining the metabolic fate of 125I-apoSAA gave no evidence for either the selective excretion of 125I-apoSAA or clearance to unique tissue sites as compared with other 125I-HDL apoproteins.
J S Hoffman, E P Benditt
These studies were performed to test the hypothesis that ether link cleavage (ELC) is an important pathway for the metabolism of thyroxine (T4) in the phagocytosing human leukocyte. When tyrosyl ring-labeled [125I]T4([Tyr125I]T4) was incubated with phagocytosing leukocytes, 50% of the degraded label was converted into [125I]3,5-diiodotyrosine ([125I]DIT). Of the remaining [Tyr125I]T4 that was degraded, two-thirds was recovered as [125I]-nonextractable iodine ([125I]NEI), and one-third as [125I]iodide. The production of [125I]DIT was not observed when phenolic ring-labeled [125I]T4 ([Phen125I]T4) was used, although [125I]NEI and [125I]iodide were produced. None of these iodinated compounds were formed in leukocytes that were not carrying out phagocytosis.
Albert G. Burger, Dennis Engler, Ulrich Buergi, Michael Weissel, Gertraud Steiger, Sidney H. Ingbar, Richard E. Rosin, Bernard M. Babior
Low density lipoprotein (LDL) catabolism occurs by LDL receptor-dependent and LDL receptor-independent pathways. We have shown previously that nonenzymatic glucosylation of LDL in the presence of cyanoborohydride irreversibly blocks the lysine residues of LDL. Glucosylated LDL (GLC-LDL) was not degraded by the LDL receptor of fibroblasts, and its degradation by macrophages was similar to that of native LDL. This suggested that GLC-LDL should be a good tracer of LDL receptor-independent catabolism, and if combined with a tracer of total LDL catabolism, should enable one to calculate the extent of LDL receptor-dependent catabolism.
Y. Antero Kesaniemi, Joseph L. Witztum, Urs P. Steinbrecher
We previously showed that glucosylation of lysine residues of low density lipoproteins (LDL) blocks high-affinity degradation by cultured human fibroblasts, and markedly slows LDL turnover in guinea pigs. The present studies were done to evaluate glucosylated (GLC) LDL as a tracer of receptor-independent LDL catabolism, and to compare it with two other modified LDL, methylated (MET) LDL, and cyclohexanedione (CHD)-treated LDL, which have been used previously for this purpose. Glucosylation of LDL did not affect receptor-independent degradation in vivo, as the turnover of GLC-LDL and native LDL were similar in the LDL receptor-deficient, Watanabe heritable hyperlipidemic rabbit. Each modified radiolabeled LDL preparation was injected into eight guinea pigs, and fractional catabolic rates (FCR) determined. The FCR of GLC-LDL (0.024 +/- 0.005 h-1; SD) was similar to that of MET-LDL (0.023 +/- 0.006 h-1), and approximately 22% of that of native LDL (0.105 +/- 0.02 h-1). The FCR of CHD-LDL was greater than that of the other modified LDL, and it varied depending on how soon after preparation the CHD-LDL was injected: when used within 2 h of preparation, the mean FCR was 0.044 +/- 0.007 h-1 (n = 4); when used after overnight dialysis at 4 degrees C, the mean FCR was 0.082 +/- 0.03 h-1 (n = 4). This suggests that CHD-LDL overestimates the amount of LDL degraded by receptor-independent pathways, perhaps because the CHD modification is spontaneously reversible. The present studies indicate that GLC-LDL is a useful tracer of receptor-independent LDL catabolism in animals.
U P Steinbrecher, J L Witztum, Y A Kesaniemi, R L Elam
Human fibroblasts synthesize several polypeptides that assort into the various forms of hexosaminidase (hex). We report here the occurrence of three newly identified, hexosaminidase-related polypeptides resolved by sodium dodecyl sulfate-poly-acrylamide gel electrophoresis of immunoprecipitates from [35S]methionine-labeled cell extracts. These polypeptides, called band 2 (75,000), band 3 (70,000), and band 4 (63,000), were immunoprecipitated by an antiserum specific to placental hex I2. They are distinct from pre-alpha- (60,000) and pre-beta- (58,000) precursor polypeptides and the alpha- (56,000), beta a- (27,000), and beta b- (27,000) polypeptides of the mature hex A (alpha beta a beta b) and hex B (2[beta a beta b]). When fibroblast extracts were chromatographed on DEAE-Sepharose, bands 2, 3, and 4 were eluted together in fractions before hex A, in a position characteristic of serum and placental hex I2 and serum hex P. This suggests that bands 2, 3, and 4 might represent the polypeptides of a fibroblast hex I. The analysis of partial proteolytic digests of the radioactively labeled polypeptides revealed that bands 2 and 3, pre-beta, and beta a had several peptides in common, suggesting that they are structurally related to each other. However, bands 2, 3, and 4 were present in extracts of Tay-Sachs (pre-alpha and alpha deficiency) and Sandhoff cells (pre-beta, beta a, and beta b deficiency) and appeared later than pre-beta in pulse-chase experiments. These results suggest that bands 2 and 3 occur independently of pre-beta and beta a and are probably specified by different mRNA, whether from the same gene or distinct but homologous genes.
F Tsui, D J Mahuran, J A Lowden, T Mosmann, R A Gravel
The pathologies of diabetic micro- and macroangiopathy are different, suggesting that diabetes affects these two types of vascular tissue in a dissimilar manner. We have compared insulin receptors and the effects of insulin on cultured endothelium from calf retinal capillaries and aorta, and the vascular supporting cells, retinal pericytes, and aortic smooth muscle cells. 125I-insulin binds to high affinity insulin receptors on all four cell types. Receptor concentrations were similar except for aortic smooth muscle cells, which have 10-fold fewer receptors than the other cell types. Insulin at a concentration of 10 ng/ml stimulated [14C]glucose incorporation into glycogen in retinal endothelial cells and pericytes and aortic smooth muscle cells, but had no effect on aortic endothelium. Insulin over a concentration range of 10 ng/ml-10 microgram/ml, stimulated [3H]thymidine incorporation into the DNA of retinal pericytes, and endothelial cells and aortic smooth muscle cells but had no effect on aortic endothelial cells. These data suggested that a differential response to insulin may exist between endothelium of micro- and macrovasculature, and suggest that retinal capillary endothelium and retinal pericytes are both very insulin-sensitive tissues.
G L King, S M Buzney, C R Kahn, N Hetu, S Buchwald, S G Macdonald, L I Rand
N-Acetylcysteine is the drug of choice for the treatment of an acetaminophen overdose. It is thought to provide cysteine for glutathione synthesis and possibly to form an adduct directly with the toxic metabolite of acetaminophen, N-acetyl-p-benzoquinoneimine. However, these hypothese have not been tested in vivo, and other mechanisms of action such as reduction of the quinoneimine might be responsible for the clinical efficacy of N-acetylcysteine. After the administration to rats of acetaminophen (1 g/kg) intraduodenally (i.d.) and of [35S]-N-acetylcysteine (1.2 g/kg i.d.), the specific activity of the N-acetylcysteine adduct of acetaminophen (mercapturic acid) isolated from urine and assayed by high pressure liquid chromatography averaged 76±6% of the specific activity of the glutathione-acetaminophen adduct excreted in bile, indicating that virtually all N-acetylcysteine-acetaminophen originated from the metabolism of the glutathione-acetaminophen adduct rather than from a direct reaction with the toxic metabolite. N-Acetylcysteine promptly reversed the acetaminophen-induced depletion of glutathione by increasing glutathione synthesis from 0.54 to 2.69 μmol/g per h. Exogenous N-acetylcysteine did not increase the formation of the N-acetylcysteine and glutathione adducts of acetaminophen in fed rats. However, when rats were fasted before the administration of acetaminophen, thereby increasing the stress on the glutathione pool, exogenous N-acetylcysteine significantly increased the formation of the acetaminophen-glutathione adduct from 57 to 105 nmol/min per 100 g. Although the excretion of acetaminophen sulfate increased from 85±15 to 211±17 μmol/100 g per 24 h after N-acetylcysteine, kinetic simulations showed that increased sulfation does not significantly decrease formation of the toxic metabolite. Reduction of the benzoquinoneimine by N-acetylcysteine should result in the formation of N-acetylcysteine disulfides and glutathione disulfide via thiol-disulfide exchange. Acetaminophen alone depleted intracellular glutathione, and led to a progressive decrease in the biliary excretion of glutathione and glutathione disulfide. N-Acetylcysteine alone did not affect the biliary excretion of glutathione disulfide. However, when administered after acetaminophen. N-acetylcysteine produced a marked increase in the biliary excretion of glutathione disulfide from 1.2±0.3 nmol/min per 100 g in control animals to 5.7±0.8 nmol/min per 100 g. Animals treated with acetaminophen and N-acetylcysteine excreted 2.7±0.8 nmol/min per 100 g of N-acetylcysteine disulfides (measured by high performance liquid chromatography) compared to 0.4±0.1 nmol/min per 100 g in rats treated with N-acetylcysteine alone. In conclusion, exogenous N-acetylcysteine does not form significant amounts of conjugate with the reactive metabolite of acetaminophen in the rat in vivo but increases glutathione synthesis, thus providing more substrate for the detoxification of the reactive metabolite in the early phase of an acetaminophen intoxication when the critical reaction with vital macromolecules occurs.
Bernhard H. Lauterburg, George B. Corcoran, Jerry R. Mitchell
We have studied 5′-deiodination of thyroxine (T4) and 3,3′,5′-triiodothyronine (rT3) in rat pituitary tissue in vitro, with respect to substrate specificity, reaction kinetics, effects of 6-n-propyl-2-thiouracil (PTU), and the time course of effects of thyroid hormone depletion and repletion. Removal of one phenolic iodine or both tyrosyl iodines from the T4 molecule resulted in compounds that were not deiodinated, but alterations in the alanine side chain had little effect.
Theo J. Visser, Michael M. Kaplan, Jack L. Leonard, P. Reed Larsen
A multicompartmental pharmacokinetic model based on physiological principles, experimental data, and the standard mathematical principles of compartmental analysis has been constructed that fully describes the metabolism and enterohepatic cycling in man of cholic acid, a major bile acid. The model features compartments and linear transfer coefficients. The compartments are aggregated into nine spaces based on physiological considerations (liver, gallbladder, bile ducts, jejunum, ileum, colon, portal blood sinusoidal blood, and general circulation). The transfer coefficients are also categorized according to function: flow, i.e., emptying of gallbladder or intestinal spaces, and circulation of the blood; biotransformation, i.e., conjugation, deconjugation, or dehydroxylation; and transport, i.e., active or passive transport. The model is made time dependent by introducing meals, which trigger discrete increases in gallbladder emptying and intestinal flow. Each space contains three compartments. For cholic acid, these are unconjugated cholic acid, cholylglycine, and cholyltaurine. The model was then used with all existing experimental data to simulate cholic acid metabolism in healthy man over a 24-h period. Satisfactory agreement was obtained between simulated and experimental results for serum bile acid levels, hepatic bile acid secretion, and bile acid secretion into the intestine. The model was also used to classify 16 clinical instances in which the enterohepatic circulation of bile acids is altered by drugs or disease. The model can be extended to describe completely the metabolism and enterohepatic circulation of any bile acids in man in health and digestive disease. The model should also be broadly applicable to the description of the pharmacokinetics of all other drugs whose metabolism is similar to that of bile acids, i.e., drugs for which there are tissue and bacterial biotransformations, enterohepatic cycling, and appreciable first-pass clearance.
A F Hofmann, G Molino, M Milanese, G Belforte
Apolipoprotein E (apoprotein E or apo-E) from type III hyperlipoproteinemic subjects with the E2/2 homozygous phenotype displays both structural and receptor binding heterogeneity. The apo-E from all subjects thus far studied, however, has been functionally defective, though to different degrees. Although nearly every type III hyperlipoproteinemic subject has the E2/2 phenotype, 95-99% of the people with this same phenotype do not display type III hyperlipoproteinemia, nor do they have elevated plasma cholesterol levels. Consequently, it became important to determine whether the apo-E2 from hypo- and normocholesterolemic individuals with the E2/2 phenotype is also functionally abnormal. To do this, apo-E2 was isolated from two hypo-, two normo- and two hypercholesterolemic homozygous E2/2 subjects. The apo-E2 was recombined with vesicles and tested for its ability to displace 125I-low density lipoproteins (LDL) from apo-B,E (LDL) receptors on human fibroblasts. The apo-E2 from all six subjects was found to be severely defective in receptor binding (<2% of the binding activity of normal apo-E3). In all cases, the binding activity of the apo-E2 was increased 10- to 20-fold by treating the apoproteins with cysteamine, a reagent that converts cysteine residues to positively charged lysine analogues. The cysteine content of each apo-E was determined by monitoring the change in the isoelectric focusing position of the cysteamine-treated apo-E2. Using this method, it was found that the apo-E2 from each subject contained two cysteine residues per mole. A partial sequence analysis of the cysteine-containing regions of the apo-E from three of the six subjects indicated that the two cysteine residues were at residues 112 and 158 in the amino acid sequence. The cysteine at residue 158 has previously been implicated in the severe binding defect of the apo-E2 from a type III hyperlipoproteinemic subject. Since the apo-E2 of the hypo-, normo-, and hypercholesterolemic subjects in this study all displayed a severe functional abnormality, it is apparent that factors in addition to the defective receptor binding activity of the apo-E2 are necessary for the manifestation of type III hyperlipoproteinemia.
Stanley C. Rall Jr., Karl H. Weisgraber, Thomas L. Innerarity, Robert W. Mahley, Gerd Assmann
The in vivo and in vitro immune response after in vivo immunization with pneumococcal polysaccharides (PPS) has been analyzed in man. Substantial differences were noted in this system when compared with human responses to soluble protein antigens. Within 6 d after immunization, specific PPS antigen-binding cells (ABC), specific plaque-forming cells (PFC), and cells capable of spontaneously synthesizing in vitro large amounts of specific anti-PPS immunoglobulin (Ig) G. IgA, and lesser amounts of specific IgM appeared in the peripheral blood. The ABC, PFC, and the total amount of specific spontaneous antibody production followed nearly identical kinetics after immunization. Low doses of irradiation markedly inhibited spontaneous anti-PPS antibody production by lymphocytes obtained 7 or 8 d after immunization, suggesting a requirement for in vitro proliferation for full expression of antibody-secreting capability of these cells that are activated in vivo and are capable of spontaneous antibody production in vitro. Spontaneous secretion by B lymphocytes in vitro was independent of T cells, unmodified by the addition of T cell factors, and readily suppressible by pokeweed mitogen (PWM).
John K. Kehrl, Anthony S. Fauci
The metabolism of normal C1 inhibitor and two dysfunctional C1 inhibitors (Ta and WeI) was studied in 10 normal subjects and 8 patients with hereditary angioneurotic edema (HANE), 4 with low antigen concentration (type 1) and 4 with dysfunctional protein (type 2). The fractional catabolic rate of the normal C1 inhibitor in normal subjects was 0.025 of the plasma pool/hour, whereas in HANE subjects it was significantly elevated at 0.035 of the plasma pool/hour. The synthesis of normal C1 inhibitor was decreased in patients with type 1 HANE (0.087 mg/ kg per h compared with 0.218 mg/kg per h). The fractional catabolic rate of dysfunctional protein WeI was similar to normal and showed a slightly accelerated catabolism in patients with HANE, whereas the dysfunctional protein Ta had a strikingly decreased fractional catabolic rate in normals and subjects with HANE. The present study is compatible with reduced C1 inhibitor synthesis in patients with type 1 HANE consistent with a single functional C1 inhibitor gene. The lower than anticipated levels of C1 inhibitor in HANE type 1 appears to result from (a) the single functional gene and (b) increased catabolism of the protein, perhaps related to activation of C1 or other proteases.
M Quastel, R Harrison, M Cicardi, C A Alper, F S Rosen