Ascorbic acid accumulation by cultured rat adrenocortical cells

Summary The influence of adrenocorticotrophin (ACTH) on radiolabeled ascorbic acid (AA) accumulation by adrenocortical cells was examined in primary cultures of collagenase dissociated glands from adult male rats. The cells were ACTH responsive by morphological and steroidogenic criteria. After 5 d in AA-free medium, cells pretreated with 100 mU/ml ACTH for 3 d took up two to three times more AA over a 2 h period than did untreated controls (4.0 to 10.0 nmol versus 1.7 to 3.4 nmol AA/μg DNA). In contrast, ACTH administered on Day 6 concurrently with AA inhibited AA accumulation compared to cultures exposed to AA alone. This acute inhibitory effect of ACTH was in the order of 30% in cultures pretreated with ACTH for 3 d but was not significant (7%) without ACTH pretreatment. The results show that ACTH has distinct long term stimulatory and acute inhibitory effects on AA accumulation by adrenocortical cells and suggest that both maximal AA accumulation and the responsiveness to acute inhibition of AA accumulation by ACTH may depend on the maintenance of the differentiated state of the adrenal cortex. This work was supported by a grant and research associateship to N. A. from the National Cancer Institute of Canada.     

Ascorbic acid recycling by cultured beta cells: effects of increased glucose metabolism

Ascorbic acid is necessary for optimal insulin secretion from pancreatic islets. We evaluated ascorbate recycling and whether it is impaired by increased glucose metabolism in the rat beta-cell line INS-1. INS-1 cells, engineered with the potential for overexpression of glucokinase under the control of a tetracycline-inducible gene expression system, took up and reduced dehydroascorbic acid to ascorbate in a concentration-dependent manner that was optimal in the presence of physiologic D-glucose concentrations. Ascorbate uptake did not affect intracellular GSH concentrations. Whereas depletion of GSH in culture to levels about 25% of normal also did not affect the ability of the cells to reduce dehydroascorbic acid, more severe acute GSH depletion to less than 10% of normal levels did impair dehydroascorbic acid reduction. Culture of inducible cells in 11.8 mM D-glucose and doxycycline for 48 h enhanced glucokinase activity, increased glucose utilization, abolished D-glucose-dependent insulin secretion, and increased generation of reactive oxygen species. The latter may have contributed to subsequent decreases in the ability of the cells both to maintain intracellular ascorbate and to recycle it from dehydroascorbic acid. Cultured beta cells have a high capacity to recycle ascorbate, but this is sensitive to oxidant stress generated by increased glucose metabolism due to culture in high glucose concentrations and increased glucokinase expression. Impaired ascorbate recycling as a result of increased glucose metabolism may have implications for the role of ascorbate in insulin secretion in diabetes mellitus and may partially explain glucose toxicity in beta cells.     

Ascorbic acid decreases neutral endopeptidase activity in cultured osteoblastic cells

Neprilysin (NEP) is a plasma membrane-bound peptidase with wide expression in kidney, lung, brain and bone. Decreased NEP activity has been linked to increased growth of some cancer cells, but it is unknown whether its activity is related to growth of cells belonging to the osteoblast lineage. We assessed NEP activity in an osteoblastic cell line, PyMS, by cleavage of N-Dansyl-d-Ala-Gly-p-nitro-Phe-Gly to Dansyl-d-Ala-Gly. NEP activity was completely blocked by 1 muM thiorphan. Most agents affecting growth of these cells (e.g. calcium, insulin-like growth factor I and dexamethasone) did not regulate NEP activity. Ascorbic acid (ASA) increased thymidine incorporation into DNA and potentiated the stimulatory effect of IGF I on DNA synthesis, an effect which was attenuated by echistatin. ASA decreased NEP activity in a dose-dependent manner, and decreased Western-detectable NEP protein in plasma membranes. ASA affects both integrin receptor-mediated signalling and the processing of regulatory peptides.     

Fatty acid and glucose oxidation by cultured rat heart cells

Monolayer cultures of fetal rat myocardial cells can be utilized to examine substrate preferences and interactions. The specific activity of glucose oxidation by myocardial cell cultures was high in sparse cultures but decreased with increased cell density. In contrast, palmitate oxidation was independent of initial cell density. Palmitate inhibited glucose oxidation by 50% in rat heart cultures. Glucose had only a slight sparing effect on palmitate oxidation. This suggests that fetal and newborn rat myocardial cells in culture preferentially oxidize palmitate similar to adult heart. The sparing effect of palmitate on glucose oxidation is accounted for by inhibition of the glycolytic-aerobic pathway and not by inhibition of the pentose phosphate pathway. Data on oxidation of ¹⁴C-pyruvate specifically labelled suggest that palmitate or a product of its oxidation such as acetyl-CoA may be acting directly to inhibit the pyruvate dehydrogenase complex. Palmitate oxidation per mg of cell protein was constant from 15 days gestational age to 2 days postnatal age. The observed differences between cultured cells and the intact heart may relate to decreased aerobic metabolism in monolayer cell culture and suggest that the increase in fatty acid oxidation observed in vivo is controlled by the oxygen environment of the cell. These studies show that heart cells in monolayer culture can be utilized to obtain metabolic information similar to an adult organ perfusion model.     

Ascorbic acid in rat lung

Fifty percent of the ascorbic acid content of sliced rat lung was removed in 2 min by washing with Krebs-phosphate solution. Although no ascorbic acid was washed from an intact lung by perfusion of the pulmonary circulation, 30% of it was removed by washing out the air spaces. It is concluded that 50% of the ascorbic acid present in rat lung is present in the fluid lining of the air spaces.     

Ascorbic acid transport and accumulation in human neutrophils

The transport, accumulation, and distribution of ascorbic acid were investigated in isolated human neutrophils utilizing a new ascorbic acid assay, which combined the techniques of high performance liquid chromatography and coulometric electrochemical detection. Freshly isolated human neutrophils contained 1.0-1.4 mM ascorbic acid, which was localized greater than or equal to 94% to the cytosol, was not protein bound, and was present only as ascorbic acid and not as dehydroascorbic acid. Upon addition of ascorbic acid to the extracellular medium in physiologic amounts, ascorbic acid was accumulated in neutrophils in millimolar concentrations. Accumulation was mediated by a high affinity and a low affinity transporter; both transporters were responsible for maintenance of concentration gradients as large as 50-fold. The high affinity transporter had an apparent Km of 2-5 microns by Lineweaver-Burk and Eadie-Hofstee analyses, and the low affinity transporter had an apparent Km of 6-7 mM by similar analyses. Each transporter was saturable and temperature dependent. In normal human blood the high affinity transporter should be saturated, whereas the low affinity transporter should be in its linear phase of uptake.     

Glucocorticoid enhancement of glucocorticoid production by cultured ovine adrenocortical cells

The present study examines the effect of chronic treatment with glucocorticoids on the steroidogenic activity of ovine adrenocortical cells in vitro. Cells cultured in the presence of 10(-9) to 10(-5) M dexamethasone produced more glucocorticosteroids in response to ACTH1-24, forskolin or 8 BrcAMP than did control cells. Such an enhancing effect required more than 5 h of treatment and was maximal at 30 h; it was both concentration-dependent and steroid-specific. The maximal secretion of corticosteroids was observed when cells were exposed to 10(-7) M dexamethasone; with higher concentrations the response to ACTH1-24 decreased steadily; the ED50 was 2.8 +/- 0.8 nM. Cortisol and corticosterone enhanced ACTH1-24-induced steroidogenesis to the same extent as dexamethasone, but at concentrations roughly 100-fold higher than for dexamethasone. Testosterone and 17 beta-oestradiol had no enhancing effect. Dexamethasone not only enhanced the maximal steroidogenic response to ACTH1-24 but also decreased its ED50 3-fold. Treatment of cultures with the antiglucocorticoid RU 38486 resulted in a dose-dependent, time-dependent, decrease in ACTH1-24-induced corticosteroid output. Moreover, RU 38486 antagonized the enhancing effect of dexamethasone. The production of corticosteroids by dexamethasone-treated cells incubated in the presence of 22(R)-hydroxycholesterol or of exogenous pregnenolone was similar to that of control cells. The enhancing effect of dexamethasone was also observed when cultures were performed in the absence of insulin and/or in serum-free media. These data suggest that chronic exposure to glucocorticoids is necessary for the full steroidogenic activity of ovine adrenocortical cells. Moreover, they indicate that glucocorticoids exert their effect at least at two different levels in the cell: (i) on the adenylate cyclase system and (ii) at step(s) beyond cAMP but before pregnenolone formation.     

Effect of growth hormone and corticotropin on steroidogenesis in cultured rat adrenocortical cells

Primary cultures of rat adrenocortical cells responded to corticotropin (ACTH; 10 microU/ml) with peak steroid production within 24 h which declined thereafter. In the presence of ACTH and growth hormone (GH; 10 micrograms/ml), steroid production was significantly greater than with ACTH alone and was better maintained over several days. This latter response was not due to changes in cell number or multiplication and required several days to develop. GH also interacted with 10(-6) and 10(-5) M dibutyryl cyclic AMP (dbcAMP) to augment synthesis of corticosterone. At maximal doses of both ACTH and dbcAMP, GH did not have an additional effect on steroid production. In conclusion, GH has a stimulatory effect on steroid production when added in vitro but it is unlike the response seen in vivo in that it is less sensitive, additive rather than synergistic, and without effect on cell growth and multiplication.     

Activity-dependent accumulation of basal lamina by cultured rat myotubes

Myoblasts from 20-day rat embryos fuse and differentiate in culture to form spontaneously active myotubes. The myotubes acquire an extracellular matrix that includes a patchy basal lamina (BL) and a layer of fibrils that runs among and above the cells. Several antibodies that bind to muscle fiber basement membrane in vivo were used to study the organization of the extracellular matrix and the effect of muscle activity on the accumulation of its components. Light and electron microscopic immunohistochemical methods showed that the composition and organization of myotube BL in vitro resemble those seen in vivo. Antibodies that bind to both synaptic and extrasynaptic muscle fiber BL, in vivo stain the entire myotube BL in vitro, while antisera that bind preferentially to synaptic BL in vivo stain small patches of myotube BL, which are usually associated with regions rich in acetylcholine receptors. The effects of activity on accumulation of BL were studied by comparing control myotubes to myotubes paralyzed with tetrodotoxin or lidocaine. Immunohistochemical and 125I-antibody binding experiments with three antisera that stain the entire BL showed that paralyzed myotubes accumulate less BL than active myotubes. The effects of activity and inactivity are reversible: new BL forms if toxin is removed from cultures and BL is lost if active myotubes are paralyzed. Thus, accumulation of BL by myotubes is dependent, at least in part, on activity. In contrast, the number of patches stained by synapse-specific BL antibodies is increased in inactive cultures. Thus, immunologically distinguishable components of BL are differentially affected by activity.     

Expression of adrenomedullin mRNA in adrenocortical tumors and secretion of adrenomedullin by cultured adrenocortical carcinoma cells

Immunoreactive-adrenomedullin concentrations and the expression of adrenomedullin mRNA were studied in the tumor tissues of adrenocortical tumors. Northern blot analysis showed the expression of adrenomedullin mRNA in tumor tissues of adrenocortical tumors, including aldosterone-producing adenomas, cortisol-producing adenomas, a non-functioning adenoma and adrenocortical carcinomas, as well as normal parts of adrenal glands and pheochromocytomas. On the other hand, immunoreactive-adrenomedullin was not detected in about 90% cases of adrenocortical tumors (<0.12 pmol/g wet weight (ww)). Immunoreactive-adrenomedullin concentrations ranged from 0.44 to 198.2 pmol/g ww in tumor tissues of pheochromocytomas and were 9.2 ± 1.2 pmol/g ww (mean ± SD, n = 4) in normal parts of adrenal glands. Adrenomedullin mRNA was expressed in an adrenocortical adenocarcinoma cell line, SW-13 and immunoreactive-adrenomedullin was detected in the culture medium of SW-13 (48.9 ± 1.8 fmol/10⁵ cells/24h, mean ± SEM, n = 4). On the other hand, immunoreactive-adrenomedullin was not detectable in the extract of SW-13 cells (<0.09 fmol/10⁵ cells), suggesting that adrenomedullin was actively secreted from SW-13 cells without long-term storage. These findings indicate that adrenomedullin is produced and secreted, not only by pheochromocytomas, but also by adrenocortical tumors. Undetectable or low levels of immunoreactive-adrenomedullin in the tumor tissues of adrenocortical tumors may be due to very rapid secretion of this peptide soon after the translation from these tumors.     

Gonadotropin-releasing hormone inhibits cyclic nucleotide accumulation in cultured rat granulosa cells

Ovarian granulosa cells obtained from hypophysectomized, diethylstilbestrol-treated rats were cultured in the presence of ovine follicle-stimulating hormone (FSH) and gonadotropin-releasing hormone (GnRH). FSH stimulated the production and accumulation of both cAMP and cGMP, as well as progesterone, during a 48-h incubation period. Addition of GnRH or an agonist analog, [D-Ala6]des-Gly10-GnRH N-ethylamide (GnRHa), did not influence the cyclic nucleotide response to FSH in the first 6 h of incubation, but caused dose-dependent inhibition of the FSH-induced rise in cyclic nucleotide production from 24 to 48 h of incubation. Cellular production of both cyclic nucleotides and progesterone was decreased by GnRHa concentrations as low as 10(-12) M, with maximum inhibition at 10(-9) M GnRHa. These results suggest that the in vitro antigonadal actions of GnRH and related peptides are expressed through inhibition of cyclic nucleotide production.     

The mechanism by which cyclopiazonic acid potentiates accumulation of tetraphenylphosphonium in cultured renal epithelial cells

Cyclopiazonic acid (CPA), a fungal metabolite produced by Aspergillus and Penicillium, potentiated the accumulation of the quaternary cation tetraphenylphosphonium (TPP+) in cultured pig renal epithelial cells. This is the first report of a natural product mediating the tight and apparently nonsaturable binding of a membrane potential probe to subcellular compartments. The potentiated TPP+ accumulation was dose dependent, nonsaturable, and not a result of hyperpolarization across the plasma membrane. Cyclopiazonic acid-potentiated accumulation was completely inhibited by the protonophore carbonylcyanide-m-chlorophenylhydrazone (CCCP). Dinitrophenol (DNP), tetrahexylammonium (THA), and n-ethylmaleimide (NEM) were also effective inhibitors of CPA-potentiated TPP+ accumulation. Although CPA-potentiated TPP+ uptake appeared to be energy dependent, TPP+ efflux (in the presence of CCCP) from CPA-treated cells was incomplete and most of the TPP+ accumulated in the presence of CPA was tightly bound. Dicyclohexylcarbodiimide (DCC), verapamil, and monensin also stimulated TPP+ accumulation, but the TPP+ which accumulated in the presence of these compounds was not tightly bound. As with controls, fractionation of cells which had accumulated TPP+ in the presence of DCC, verapamil, or monensin always resulted in near complete recovery (greater than 93%) of the TPP+ in the cytosolic fraction, whereas with CPA, greater than 88% of the TPP+ was recovered noncovalently bound in the plasma membrane and mitochondrial fractions. These results are consistent with the hypothesis that CPA-potentiated TPP+ accumulation is a result of potentiated partitioning of TPP+ into the plasma membranes and mitochondria of LLC-PK1 cells.     

Hormonal regulation of zeatin-riboside accumulation by cultured tobacco cells

Auxin (11 M -naphthaleneacetic acid) and cytokinin (1.4 M kinetin) regulate cytokinin accumulation by cytokinin-requiring (C^-) and cytokinin-autotrophic (C⁺) lines of Havana 425 tobacco (Nicotiana tabacum L.) tissues. No trans-zeatin riboside (ZR) (<0.5 pmol·g^-1 fresh weight) was detected in six C^- and nine C⁺ lines grown for 14 d on auxin + cytokinin and auxin medium, respectively. C⁺ lines, but not C^- lines accumulated ZR (1.9–5.1 pmol·g^-1 fresh weight) when incubated on hormone-free medium but both lines accumulated ZR when incubated on kinetin medium. Therefore, it appears that kinetin treatment can induce ZR accumulation and that this accumulation is blocked by auxin treatment. Similar effects were obtained with some lines of cells autotrophic for both auxin and cytokinin. Tobacco plants carrying the dominant Habituated leaf-1 allele (Hl-1) differ from wild-type plants in that leaf-derived tissues in culture exhibit a C⁺ phenotype. No differences in ZR content were found in C⁺ leaf tissues from Hl-1/Hl-1 plants and C⁺ tissues that arise epigenetically in wild-type plants. This indicates that the H-1 allele does not act to induce overproduction of ZR. The Hl-1 allele is known to have oncogenic functions similar to the isopentenyl transferase (ipt) locus of the Ti plasmid. Although Hl-1/Hl-1 cells transformed with Ti plasmids defective at the ipt locus are tumorigenic and hormone-autotrophic in culture, they contain low levels of ZR typical of non-transformed Hl-1/Hl-1 cells. Therefore, the high levels of ZR characteristics of cells transformed with wild-type Ti plasmids are not necessary for expression of the tumor phenotype.Abbreviations C^- cytokinin-requiring phenotype - C⁺ cytokinin-autotrophic phenotype - Hl-1 habituated leaf-1 locus - IPA isopentenyladenosine - ipt isopentenyltransferase gene - ZR trans-zeatin riboside     

Ascorbic acid stimulates barrier function of cultured endothelial cell monolayer

The macromolecular permeability of cultured bovine aortic, bovine venous, and human umbilical vein endothelial cell monolayers was decreased significantly in culture medium containing L-ascorbic acid (Asc Acid; 0.01–0.1 mM) and L-ascorbic acid 2-phosphate (Asc 2-P). Dithiothreitol, which shows reducing activity equivalent to that of Asc Acid, did not affect endothelial permeability. Asc Acid induced a sixfold increase in collagen synthesis by the endothelial cells. The coexistence of L-azetidine 2-carboxylic acid, an inhibitor of collagen synthesis, attenuated the effect of Asc 2-P in a dose-dependent manner. Another collagen synthesis inhibitor, ethyl-3,4-dihydroxybenzoate, also inhibited collagen synthesis and increased endothelial permeability. The decrease in permeability of the endothelial monolayer was dependent on a reduction of the permeability coefficient of the endothelial monolayer. These findings indicate that endothelial barrier function is stimulated by Asc Acid via an increase in collagen synthesis. © 1995 Wiley-Liss, Inc.     

Ascorbic acid suppresses cell death in rat DS-sarcoma cancer cells induced by 5-aminolevulinic acid-based photodynamic therapy

Especially in the public, vitamin C is considered supportive for the treatment of cancer and supplementation is common. However, the underlying mechanism that most chemotherapeutic agents, ionizing radiation, and photodynamic therapy exert on tumor cell kill is an increased production of reactive oxygen species (ROS) leading to irreversible tissue injury. Therefore, antioxidants like ascorbic acid (AA) may prevent cancer cells of cellular free radical damage and may therefore be contraindicated in patients undergoing tumor treatment. We report on the effects of AA on markers of oxidative stress and apoptosis in rat DS-sarcoma cells on 5-aminolevulinic acid-based photodynamic therapy (ALA-PDT). AA dose-dependently protected cancer cells against lipid and protein oxidation caused by ALA-PDT treatment. By real-time RT-PCR analysis an impressive increase of FasL (124-fold) and TNF-alpha (121-fold) mRNA was detected after PDT treatment. In addition, a decrease in mitochondrial transmembrane potential followed by the mitochondrial release of apoptosis-inducing factor (AIF) was observed. All these early signs of apoptosis were significantly reduced by AA, resulting in a 2.1-fold increased cell survival rate on ALA-PDT treatment. In conclusion, AA functions as a potent antioxidant, protecting mitochondria and other cell structures of oxidative cell injury induced by ALA-PDT and may therefore be contraindicated in patients undergoing tumor treatment.