Showing papers by "Children's Hospital Oakland Research Institute published in 1990"

Establishment and characterization of a human adrenocortical carcinoma cell line that expresses multiple pathways of steroid biosynthesis

Abstract: We established a continuous cell line, NCI-H295, from an invasive primary adrenocortical carcinoma. The cell line was established in a fully defined medium (HITES) and later could be adapted for growth in a simple medium supplemented only with selenium, insulin, and transferrin and devoid of serum, steroids, fibroblast growth factor, and a source of exogenous cholesterol. NCI-H295 cells had a relatively long population doubling time and were tumorigenic when inoculated s.c. into athymic nude mice. The cultured cells had ultrastructural features of steroid-secreting cells and contained complex cytogenetic abnormalities including the presence of multiple marker chromosomes. Steroid analyses (radioimmunoassays and mass spectrometry), performed 7 to 9 years after culture initiation, demonstrated secretion of more than 30 steroids characteristic of adrenocortical cells. Total unconjugated steroid secretion in serum-supplemented medium was 2.83 micrograms/10(6) cells/24 h and about 4-fold less in serum-free medium. The major pathway of pregnenolone metabolism in NCI-H295 cells is androgen synthesis, with formation of dehydroepiandrosterone, androstenedione, testotesterone, and at least three sulfated androgens, as well as estrogens. In addition, formation of cortisol, corticosterone, aldosterone, and 11 beta-hydroxyandrostenidione indicated the presence of 11 beta-hydroxylase. Thus, multiple pathways of steroidogenesis are expressed by NCI-H295 cells, including formation of corticosteroids, mineralocorticoids, androgens, and estrogens. Our findings indicate the presence in NCI-H295 cells of all of the major adrenocortical enzyme systems, including 11 beta-hydroxylase, desmolase, 21 alpha-hydroxylase, 17 alpha-hydroxylase, 18-hydroxylase, lyase, sulfokinase, and aromatase. The NCI-H295 cell line should prove of value in studying the regulation, metabolic pathways, and enzymes involved in steroid formation and secretion. In addition, it may provide insights into the biology and treatment of adrenocortical carcinoma.

Atherosclerosis susceptibility differences among progenitors of recombinant inbred strains of mice.

Abstract: Female mice of 16 inbred mouse strains were fed an atherogenic diet for 14 weeks and were then evaluated for atherosclerotic lesions in the aorta. Strains C57BL/6, C57BR/cd, C57L, and SM were very susceptible to atherosclerosis, with lesion area/aortic cross-sections in the range of 4500 to 8000 microns 2. Strains C58 and SWR were intermediate in susceptibility, with lesion area/sections in the range of 1670 to 1690 microns 2. Strains 129, AKR, DBA/2, and BALB/c had only small lesions in the range of 20 to 350 microns 2/section; strains C3H, NZB, CBA, HRS, SJL, and A had no lesions after 14 weeks. Lesion formation in five strains was compared at several time points. Strain C57BL/6 mice developed lesions by 7 weeks, and these continued to grow until all mice had large atheromatous plaques in the aorta and coronary arteries. Strains AKR and DBA/2 also had fatty streak lesions as early as 7 or 8 weeks, but these lesions had not progressed in size by 14 weeks. Strains BALB/c and C3H, which were both resistant to lesion formation at 14 weeks, diverged from each other as time progressed. By 1 year, BALB/c mice had large lesions, but C3H mice had none. Most of the inbred strains chosen for evaluation are the progenitors of recombinant inbred sets of strains, a genetic tool that greatly facilitates the analysis of strain differences. This survey indicates seven additional recombinant inbred sets of strains whose progenitors differ in atherosclerosis susceptibility: BXD, AKXL, SWXJ, NX8, 129XB, NXSM, and B6NXAKRN. An analysis of these recombinant inbred strains may reveal additional mouse genes affecting atherosclerosis susceptibility.

Parasite uptake of desferroxamine: a prerequisite for antimalarial activity.

Abstract: Desferroxamine has been shown to exhibit potent antimalarial activity. However, it is unclear as to whether desferroxamine functions by the chelation of extracellular, intra-erythrocytic, or parasite-associated iron. In order to determine desferroxamine's site of action, we have employed a large molecular weight dextran derivative of desferroxamine (70 kDa) and a reversible osmotic lysis technique by which erythrocytes were intracellularly loaded with this chelator. The desferroxamine-dextran derivative has virtually identical iron-binding characteristics to desferroxamine but, unlike desferroxamine, it is unable to cross the erythrocyte membrane. As previously shown, desferroxamine added to culture media exhibited potent antimalarial activity (mean effective inhibitory dose (ED50) approximately 6 microM). However, extracellular desferroxamine-dextran showed antimalarial activity only at very high doses (ED50 greater than or equal to 180 microM), indicating that extracellular iron chelation is not involved in the antimalarial activity of desferroxamine. The intra-erythrocytic entrapment of the desferroxamine-dextran derivative also had no significant effect, except at very high concentrations, demonstrating that desferroxamine does not remove a non-haem iron source necessary for malarial replication. The results of this study clearly suggests that the antimalarial activity of desferroxamine is directly related to its ability to enter the parasitic compartment and not due to the chelation of extra- or intra-erythrocytic iron pools necessary for malarial growth.

Molecular cloning of the mammalian fatty acid synthase gene and identification of the promoter region.

Abstract: Rat genomic clones encompassing the entire fatty acid synthase gene have been isolated and characterized. The gene is present in a single copy of approx. 20 kb. Genomic DNA sequencing, direct RNA sequencing and S1 nuclease analysis showed that transcription is initiated primarily 1274 nucleotides upstream from the translation start site and that the 87-nucleotide-long 5'-untranslated mRNA sequence is the same in liver, lung and mammary gland. The 5'-flanking region and first intron contain several sequence elements which may be involved in the transcriptional regulation of this gene.

A major crossreactive idiotype associated with human antibodies to the Haemophilus influenzae b polysaccharide. Expression in relation to age and immunoglobulin G subclass.

Abstract: Using idiotypic analysis, we examined the variable (V) region diversity of human antibodies specific for the capsular polysaccharide of Haemophilus influenzae b (Hib PS). A goat anti-idiotypic serum (anti-Id) was prepared against anti-Hib PS antibodies isolated from the serum of an adult immunized with Hib PS. The anti-Id bound donor anti-Hib PS antibodies and inhibited Hib PS binding of donor anti-Hib PS. In contrast, the anti-Id did not bind donor or pooled Ig depleted of Hib PS antibodies, nor did it inhibit antigen binding of human antibodies to pneumococcal PS's, meningococcal A PS or diphtheria toxoid. Crossreactive idiotype (CRI), as measured by anti-Id inhibition of Hib PS binding, was found in 74 of 98 subjects (76%) vaccinated with Hib PS at 1.7-57 yr of age. 60 of these 74 subjects had greater than 50% of their serum Hib PS-binding activity inhibited by anti-Id. No correlation was found between age and CRI expression. In subjects showing both IgG1 and IgG2 antibody responses, CRI was most frequently detected in both subclasses (71% of subjects). CRI was limited to either IgG1 or IgG2 in 19% of subjects, a finding suggestive of independent B cell lineages. 13 of 15 infants less than 17 mo of age, who responded to Hib PS-outer membrane protein conjugate vaccine, had greater than 50% of their serum anti-Hib PS antibody activity inhibited by anti-Id. The ability of native Hib PS and Hib PS oligomer to partially inhibit (60 and 35%, respectively) the binding between anti-Id and heterologous anti-Hib PS, indicated that some CRI determinants are in or near the combining site. In summary, our findings demonstrate a highly penetrant and frequently predominant CRI, which is expressed in both infants and adults. The results underscore the limited V region diversity of anti-Hib PS antibodies and indicate that CRI predominance is manifest early in ontogeny and is induced by both TI and TD forms of the Hib PS antigen.

IgG subclass-restricted immune responses to allergens.

Abstract: The IgG responses to a variety of allergens are predominated by IgG1 and IgG4 antibodies. With several allergens, the IgG1 response appears to precede the IgG4 response and this switch may be driven by repeated allergen exposure. It remains to be determined whether there is any causal relationship between subclass restriction and the regulation of specific IgE. The question of whether IgG4 antibodies are protective or pathological is still unresolved. Human models are needed to further analyze the interrelationships between T cells, cytokines and B cell isotype expression. The antibody response to allergens appears to be an ideal experimental system for studying antigen-specific isotype regulation in humans. The subclass patterns are remarkably reproducible between individuals, and allergic and normal human subjects, who have been immunized naturally or therapeutically, are readily available as a source of cells. Isolation of allergen-specific T cells that putatively regulate subclass expression would seem to be a worthwhile endeavor. Understanding the molecular and cellular events that initiate and control isotype expression will play an important role in the rational design of immunogens and therapeutics, aimed at optimizing protective immunity and diminishing the pathological effects of autoimmune and allergic responses.

Analysis of atherosclerosis susceptibility in mice with genetic defects in platelet function.

Abstract: To determine whether platelets contribute to the development of atherosclerosis, we compared the severity of atherosclerosis in susceptible C57BL/6 mice carrying either a normal or a variant phenotype for platelet function. Five genetically distinct mutants with increased bleeding times and abnormal dense granules were used: maroon (ru-2mr), light ear (le), ruby eye (ru), beige (bg1), and pale ear (ep). After a 14-week consumption of an atherogenic diet, three mutants had significantly less disease involvement than the control: light ear, maroon, and ruby eye. In contrast, pale ear ahd lesions similar to control animals. After 48 weeks, the two mutants with the least degree of atherosclerosis at 14 weeks, light ear and ruby eye, showed greater than 50% survival. In contrast, no animals from the beige, pale ear, or the normal C57BL/6 strains survived. To determine whether a specific biochemical component of platelet function is related to atherosclerosis, we measured serotonin found in dense granules. Serotonin showed no correlation with each mutant's atherosclerosis susceptibility. These results indicate that some particular component of platelet function affects atherosclerosis. That component is intact in pale ear, moderately affected in beige and maroon, and severely affected in light ear and ruby eye. The identity of that component remains an interesting question whose answer may provide further insight into the atherosclerotic disease process.

Vitamin C deficiency in patients with sickle cell anemia.

Abstract: Because peroxidative damage to red cell membranes may contribute to the pathophysiology of sickle cell disease, deficiency of fat- and water-soluble antioxidants could be a determinant in the pathogenesis of this disease. We have previously reported a deficiency of vitamin E in sickle cell disease. The present study was undertaken to see if a deficiency in vitamin C might also be detected. Leukocyte vitamin C, which reflects total body vitamin C reserve, was measured by a modified 2,4-dinitrophenylhydrazine method. Sickle cell patients (N = 18) had lower leukocyte vitamin C levels (18.3 +/- 9.4 micrograms/10(8) cells) than normal controls (N = 12; 30.3 +/- 7.5 micrograms/10(8) cells; p less than 0.01). Furthermore, 50% of the patients had vitamin C levels below 15 micrograms/10(8) cells, a value consistent with vitamin C deficiency. A statistically significant correlation (r = -0.62 with 0.01 less than p less than or equal to 0.025) was found between leukocyte vitamin C levels and serum ferritin concentration. Because dietary vitamin C intake appeared to be adequate, increased vitamin C utilization may account for this deficiency. However, the mechanisms for this deficiency as well as its pathophysiologic consequences remain to be established.

Liquid chromatography/mass spectrometry of plasma glucose and secreted glucuronate for metabolic studies in humans.

Abstract: Negative ion thermospray liquid chromatographic/mass spectrometric methods have been developed for the determination of isotopic enrichments for glucose and acetaminophen-uridine diphosphate glucuronate from (1-2H1)glucose, (1-2H1)galactose and (2-13C)acetate in humans. The error of estimate ranged from below 1% to 5%. The advantages of the method include fast analysis (up to 35 per hour), eased sample preparation, good precision, sensitivity comparable with gas chromatography/mass spectrometry and better than with isotope ratio mass spectrometry.

Fate of α‐Hemoglobin Chains and Erythrocyte Defects in β‐Thalassemiaa

Abstract: The fate of alpha-hemoglobin chains and the cause of membrane protein defects in thalassemic erythrocytes have been studied in: (1) human beta-thalassemia syndromes, (2) mouse beta-thalassemia, and (3) normal human erythrocytes loaded with purified alpha-hemoglobin chains. The similarity and differences observed in these three systems underline the importance of insoluble alpha chains and the direct relationship between the amount of these chains and the membrane protein defects. Indeed, in addition to the alpha/non-alpha ratio of globin chain synthesis, the proteolysis and instability of alpha chains are major factors in modulating the cellular defects.

Stopping the biologic clock for globin gene switching.

Abstract: The developmental switch from production of fetal (gamma) to adult (beta) globin occurs on a normally set biologic clock which proceeds even if expression of the adult (beta) globin genes is defective and produces little or no protein, as in the beta-thalassemias. Preventing or reversing the globin gene switch could provide a way of keeping the abnormal globin genes "silent" and maintaining expression of the fetal globin gene. We have identified a class of agents which, when present in elevated plasma concentrations during gestation, inhibits the gamma----beta-globin gene switch in developing humans. Further investigation has shown that butyric acid and related compounds can increase gamma-globin and decrease beta-globin expression in cultured erythroid cells of patients with beta-thalassemia. Butyrate compounds were therefore infused in an in vivo fetal animal model, and the globin switch was inhibited and even reversed in some fetal lambs. Histone hyperacetylation, which maintains active chromatin structure, and an effect on the gamma-globin promoter appear to be mechanisms of action involved. These data suggest that inhibiting expression of abnormal beta-globin genes by pharmacologic means may in the future be possible for treatment of individuals with beta-globin disorders.

Interferon-γ Modulates Fetal Hemoglobin Synthesis in Sickle Cell Anemia and Thalassemia

Abstract: Interferon-γ (IFN-γ) has been shown to influence globin gene expression in cord blood and normal adult progenitor-derived erythroblasts. To explore the influence of IFN-γ on fetal hemoglobin (HbF) synthesis in the hemoglobinopathies, erythroid progenitors (BFU-E, burst forming unit-erythroid) from patients with sickle cell anemia (SCA) and thalassemia were co-cultured with or without IFN-γ. Hemoglobin content in progenitor-derived erythroblasts was assessed by radioligand assay (RIA). Co-culture of erythroid progenitors from 12 SCA patients with 200–400 U/ml of IFN-γ resulted in a significant decrease in picograms of HbF and percent HbF per BFU-E-derived erythroblast. The mean decrease (±SEM) of picograms of HbF per cell and percent of HbF was by 42 ± 9% and 35 ± 8% of control cultures, respectively. Co-culture of erythroid progenitors from 10 patients with thalassemia major or thalassemia variant (HPFH/thalassemia, sickle/β0-thalassemia) with 200 U/ml IFN-γ also resulted in a significant decreas...

The Role of Oxidation in Diseases of the Human Erythrocyte

Abstract: Considerable evidence exists that red blood cells (RBC) are oxidatively damaged in vivo.1–10 Since these cells have limited ability to repair such damage, the cumulative injury resulting from oxidation can contribute to cell death. In red cells characterized by congenital or acquired structural defects, susceptibility to oxidant injury is often increased.2 However, the extent to which oxidant injury contributes to shortened survival of these RBC is not clearly determined. We will discuss factors that render the red cell susceptible to oxidant injury, review several clinical disorders in which red cell oxidant injury has been reported, and provide a rationale for designing therapies to prevent oxidative damage.