Antioxidant activity of melatonin in Chinese hamster ovarian cells: changes in cellular proliferation and differentiation

Melatonin is an endogenously generated molecule with free radical scavenging and antioxidant properties. Here, we studied the antiproliferative role of melatonin and other antioxidants on transformed Chinese hamster ovarian cells. Melatonin reduces cell proliferation in a dose- and time-dependent manner. Natural antioxidants which appear in edible plants including resveratrol and vitamin E mimicked the effect of melatonin. Flow cytometer analysis revealed that melatonin treatment reduces the number of cells in S-phase and increases cells in both G0/G1 and G2/M gaps. In addition, melatonin, as well as trolox, caused a clear morphological change by inducing the cells to become spindle shaped and fibroblast-like. Its effect is a reversible phenomenon that disappeared when melatonin was withdrawn from the culture medium. GSH levels are increased after melatonin treatment but pharmacologically blockade of GSH synthesis did not abolish melatonin's antiproliferative effect. Reduction of cell proliferation and the apparent induction of cell differentiation overlapped with melatonin's ability to change the intracellular redox state of CHO cells. We conclude that the cellular redox state may be involved in cellular transformation caused by antioxidants such as melatonin and trolox.     

Plasmid DNA purification by selective calcium silicate adsorption of closely related impurities

The selective adsorption of supercoiled plasmid, open-circular plasmid, and genomic DNA to gyrolite, a compound from the class of crystalline calcium silicate hydrates, is investigated and exploited for purification purposes. Genomic DNA and open-circular plasmid bind to gyrolite adsorbents with greater affinity than the more conformationally constrained supercoiled plasmid. As such, the gyrolite adsorbents are an economical and scaleable alternative to chromatographic purification for the removal of DNA impurities from solutions containing supercoiled plasmid. The advantage of gyrolite adsorbents is their lower unit price and ability to selectively adsorb DNA impurities without binding supercoiled plasmid under certain conditions. The effects of ionic strength, temperature, chelating agent, divalent cation, and lyotropic salts on adsorption of highly purified plasmid are studied to understand the forces that bind DNA to gyrolite, a structure with hydrophilic and hydrophobic characteristics. The results indicate that DNA binding is governed by hydrogen bonding, electrostatic bridging with divalent cations, shielding of electrostatic repulsion, hydrophobic adsorption, and disruption of integral surface water layer on gyrolite. On the basis of results from a range of Hofmeister series salts, strongly hydrated anions may enhance DNA adsorption by promoting hydrophobic interactions between DNA and gyrolite. Conversely, the very weakly hydrated chaotrope I(-) may enhance adsorption by strongly associating with hydrophobic siloxanes of gyrolite, thereby disrupting an integral water layer, which competes for hydrogen bonding sites.     

Oxidative damage to catalase induced by peroxyl radicals: functional protection by melatonin and other antioxidants

Thermal decomposition by the azo initiator 2,2' azobis-(2-amidinopropane) dihydrochloride (AAPH) has been widely used as a water-soluble source of free radical initiators capable of inducing lipid peroxidation and protein damage. Here, in a lipid-free system, AAPH alone (40 mM) rapidly induced protein modification and inactivation of the enzyme catalase (EC 1.11.1.6). Using SDS-PAGE, it was shown that protein band intensity is dramatically reduced after 4 h of incubation with AAPH, leading to protein aggregation. Several antioxidants including melatonin, glutathione (GSH) and trolox prevented catalase modification when used at a 250 μM concentration whereas ascorbate was only effective at 1 mM concentration. All the antioxidants tested reduced carbonyl formation although melatonin was the most effective in this regard. Enzyme inactivation caused by AAPH was also significantly reduced by the antioxidants and again melatonin was more efficient than the other antioxidants used in this study. Results shown here demonstrate that alkyl peroxyl radicals inactivate catalase and reduce the effectiveness of cells to defend against free radical damage; the damage to catalase can be prevented by antioxidants, especially melatonin.     

Melatonin,longevity and health in the aged: an assessment

This brief review considers the potential role of melatonin in the processes of aging, the prolongation of life span and health in the aged. Studies completed to date generally suggest that exogenously administered melatonin may serve to extend life span in invertebrates, but evidence supporting this conclusion in mammals is less compelling. Thus, any conclusion regarding a role for melatonin in extending normal longevity, particularly in mammals, would be premature. With regard to deferring the signs of chemically-induced neurodegenerative conditions in experimental animals, the data are remarkably strong and there is a modicum of evidence that in humans with debilitating diseases melatonin may have some beneficial actions. Indeed, this should be one focus of future research since as the number of elderly increases in the population, the frequency of costly age-related diseases will become increasingly burdensome to both the patient and to society as a whole.     

Melatonin and aging

Although many theories relating the pineal secretory product melatonin to aging have been put forward, the role of this agent in the aging process is not clear. However, there are several reasons to postulate a role for melatonin in this process. Melatonin levels fall gradually over the life-span. Melatonin is a potent free radical scavenger. Melatonin deficiency is related to suppressed immunocompetence. In at least one animal model melatonin supplementation increased life-span although several other studies have failed. The aging process is multifactorial, and no single element seems to be of basic importance. It seems, however, that although melatonin can not be univocally recognized as a substance delaying aging, some of its actions may be beneficial for the process of aging. However, the precise role of melatonin in the aging process remains to be determined.     

NUCLEOTIDE SEQUENCE OF THE GENES FOR RIBULOSE-1,5-BISPHOSPHATE CARBOXYLASE/OXYGENASE LARGE SUBUNIT AND RIBOSOMAL PROTEIN S14 FROM A CHLORELLA-LIKE GREEN ALGA1

Two chloroplast genes were sequenced from an exsymbiotic strain of a eukaryotic, Chlorella-like green alga. The genes for the large subunit of ribulose-1,5-bisphosphate carboxylase/oxygenase (rbcL) and the ribosomal protein S14 (rps14) were oriented in the same direction and were separated by 402 bp. The rbcLs of the exsymbiont and a free living Chlorella ellipsoidea were compared with other reported rbcL sequences. The rbcL gene of the exsymbiont is closely related to that of free-living Chlorella ellipsoidea. This is the first published report of an rps 14 gene sequence from an alga.     

Solid-phase extraction of 18β-glycyrrhetinic acid from plasma and subsequent analysis by high-performance liquid chromatography

A new method is described for the solid-phase extraction of 18β-glycyrrhetinic acid from plasma or serum, with subsequent analysis by HPLC. New aspects of the method include the use of commercially available 18-glycyrrhetinic acid as the internal standard and the use of a Bond Elut C₂ (ethyl) extraction column, to avoid the need to use large volumes of organic solvent to elute the isolates from the columns. Separation was achieved on a Shandon Hypersil BDS C₁₈ analytical column, with a mobile phase consisting of acetonitrile–0.02 M phosphate buffer, pH 5.7 (55:45, v/v). The column effluent was monitored at 248 nm. Compared with previous methods, the procedure is much easier to carry out, whereas the sensitivity (limit of detection, 10 ng/ml, and limit of quantitation, 50 ng/ml), the precision (0.3–6.2%) and the accuracy (97.2–101.9%) are of the same order of magnitude.     

Static and extremely low frequency electromagnetic field exposure: Reported effects on the circadian production of melatonin

The circadian rhythm of melatonin production (high melatonin levels at night and low during the day) in the mammalian pineal gland is modified by visible portions of the electromagnetic spectrum, i.e., light, and reportedly by extremely low frequency (ELF) electromagnetic fields as well as by static magnetic field exposure. Both light and non-visible electromagnetic field exposure at night depress the conversion of serotonin (5HT) to melatonin within the pineal gland. Several reports over the last decade showed that the chronic exposure of rats to a 60 Hz electric field, over a range of field strengths, severely attenuated the nighttime rise in pineal melatonin production; however, more recent studies have not confirmed this initial observation. Sinusoidal magnetic field exposure also has been shown to interfere with the nocturnal melatonin forming ability of the pineal gland although the number of studies using these field exposures is small. On the other hand, static magnetic fields have been repeatedly shown to perturb the circadian melatonin rhythm. The field strengths in these studies were almost always in the geomagnetic range (0.2 to 0.7 Gauss or 20 to 70 μtesla) and most often the experimental animals were subjected either to a partial rotation or to a total inversion of the horizontal component of the geomagnetic field. These experiments showed that several parameters in the indole cascade in the pineal gland are modified by these field exposures; thus, pineal cyclic AMP levels, N-acetyltransferase (NAT) activity (the rate limiting enzyme in pineal melatonin production), hydroxyindole-O-methyltransferase (HIOMT) activity (the melatonin forming enzyme), and pineal and blood melatonin concentrations were depressed in various studies. Likewise, increases in pineal levels of 5HT and 5-hydroxyindole acetic acid (5HIAA) were also seen in these glands; these increases are consistent with a depressed melatonin synthesis. The mechanisms whereby non-visible electromagnetic fields influence the melatonin forming ability of the pineal gland remain unknown; however, the retinas in particular have been theorized to serve as magnetoreceptors with the altered melatonin cycle being a consequence of a disturbance in the neural biological clock, i.e., the suprachiasmatic nuclei (SCN) of the hypothalamus, which generates the circadian melatonin rhythm. The disturbances in pineal melatonin production induced by either light exposure or non-visible electromagnetic field exposure at night appear to be the same but whether the underlying mechanisms are similar remains unknown.     

Analysis of the structure and subcellular location of filamentous phage pIV.

The gene IV protein of filamentous bacteriophages is an integral membrane protein required for phage assembly and export. A series of gene IV::phoA fusion, gene IV deletion, and gene IV missense mutations have been isolated and characterized. The alkaline phosphatase activity of the fusion proteins suggests that pIV lacks a cytoplasmic domain. Cell fractionation studies indicate that the carboxy-terminal half of pIV mediates its assembly into the membrane, although there is no single, discrete membrane localization domain. The properties of gene IV missense and deletion mutants, combined with an analysis of the similarities between pIVs from various filamentous phage and related bacterial export-mediating proteins, suggest that the amino-terminal half of pIV consists of a periplasmic substrate-binding domain that confers specificity to the assembly-export system.     

Sialic acid: A specific role in hematopoietic spleen colony formation

Vibrio cholerae neuraminidase (VCN) treatment of donor bone marrow cells results in a reduction in the number of hematopoietic colonies (CFUs) formed in the spleens of lethally irradiated mice. Treatment of marrow cells with sodium periodate under mild conditions, known to preferentially oxidze sialic acid, also reduced CFUs while subsequent potassium borohydride reduction restored CFUs to 80% of control levels. Innoculum viability as measured by in vitro incorporation of tritiated precursors into proteins, nucleic acids, and oligosaccharides was unaffected by VCN treatment. The ability of bone marrow cells in culture to respond to the hormone erythropoietin, as measured by the incorporation of ⁵⁹Fe into cyclohexanone-extractable heme, was also not affected by neuraminidase, making a cytotoxic effect of the VCN preparation unlikely. Incubation of VCN-treated marrow with either β-galactosidase or trypsin had no effect on the VCN-induced reduction in CFUs. These results are consistent with the idea that membrane sialic acid plays a direct and specific role in the implantation and development of CFUs.