Integrated approach to the mechanisms of thyroid toxins: electron transfer,reactive oxygen species,oxidative stress,cell signaling,receptors, and antioxidants

Although considerable numbers of reviews are available on toxicity of major body organs based on electron transfer (ET), reactive oxygen species (ROS), and oxidative stress (OS), the integrated concept has been less applied to glands. This review represents an interdisciplinary approach to thyroid toxicity, involving ET, ROS, OS, cell signaling, receptors, toxicants, and beneficial effects of antioxidants (AOs). The introductory portion includes general function of the thyroid as well as the mechanism of thyroxine synthesis entailing participation of oxidative events, including the role of iodine. Various ROS, both endogenous and exogenous, are importantly involved in the diverse toxic manifestations. Discussion is centered on hydrogen peroxide and lipid peroxides. There is also treatment of receptor-ligand activity. Cell signaling participates in the various biochemical events taking place in the thyroid, both beneficial and adverse. In addition, the mechanism of cell signaling is discussed based on radicals, ET, relays, conduits, and electrochemistry. In addition to endogenous toxins, various exogenous ones are addressed, falling in diverse classes. Data indicate involvement of ET-ROS-OS in the toxic manifestations. Large numbers of reports reveal the beneficial effects of AOs in countering the toxicity, which is in accord with the mechanistic framework.     

Protein electron transfer (mechanism and reproductive toxicity): iminium, hydrogen bonding, homoconjugation, amino acid side chains (redox and charged), and cell signaling

This contribution presents novel biochemical perspectives of protein electron transfer (ET) with focus on the iminium nature of the peptide link, along with relationships to reproductive toxicity. The favorable influence of hydrogen bonding on protein ET has been widely documented. Hydrogen bonding of the zwitterionic peptide enhances iminium character. A wide array of such bonding agents is available in vivo, with many reports on the peptide link itself. ET proceeds along the backbone, due in part, to homoconjugation. Redox amino acids (AAs), mainly tyrosine (Tyr), tryptophan (Typ), histidine (His), cysteine (Cys), disulfide, and methionine (Met), are involved in the competing processes for radical formation: direct hydrogen atom abstraction versus electron and proton loss. It appears that the radical or radical cation generated during the redox process is capable of interacting with n-electrons of the backbone. Beneficial effects of cationic AAs impact the conduction process. A relationship apparently exists involving cell signaling, protein conduction, and radicals or electrons. In addition, the link between protein ET and reproductive toxicity is examined. A key element is the role of reactive oxygen species (ROS) generated by protein ET. There is extensive evidence for involvement of ROS in generation of birth defects. The radical species arise in protein mainly by ET transformations by enzymes, as illustrated in the case of alcoholism.     

Electromagnetic fields: mechanism,cell signaling,other bioprocesses,toxicity, radicals,antioxidants and beneficial effects

Electromagnetic fields (EMFs) played a role in the initiation of living systems, as well as subsequent evolution. The more recent literature on electrochemistry is documented, as well as magnetism. The large numbers of reports on interaction with living systems and the consequences are presented. An important aspect is involvement with cell signaling and resultant effects in which numerous signaling pathways participate. Much research has been devoted to the influence of man-made EMFs, e.g., from cell phones and electrical lines, on human health. The degree of seriousness is unresolved at present. The relationship of EMFs to reactive oxygen species (ROS) and oxidative stress (OS) is discussed. There is evidence that indicates a relationship involving EMFs, ROS, and OS with toxic effects. Various articles deal with the beneficial aspects of antioxidants (AOs) in countering the harmful influence from ROS-OS associated with EMFs. EMFs are useful in medicine, as indicated by healing bone fractures. Beneficial effects are recorded from electrical treatment of patients with Parkinson’s disease, depression, and cancer.     

Integrated approach to nitric oxide in animals and plants (mechanism and bioactivity): cell signaling and radicals

Nitric oxide was first the object of extensive investigation in animals. It has been designated as the most widespread signaling molecule. An overview is presented with emphasis on cell signaling, mechanism, and physiological activity. Hence, a basis is provided for comparison of NO in plants with a similar approach. Mechanistically, cell signaling, electron transfer, radicals, and antioxidants are involved. A role is played by NO derivatives, such as peroxynitrite, nitroxyl, nitrite, nitrate, and S-nitroso derivatives. Comparison is made with ethylene. The multifaceted, interdisciplinary approach provides novel insight.     

Morin hydrate attenuates CSE-induced lipid accumulation,ER stress,and oxidative stress in RPE cells: implications for age-related macular degeneration

Oxidative stress has a key role in the pathogenesis of age-related macular degeneration (AMD). Cigarette smoking is known to the one of the main risk factors of AMD through oxidative stress-mediated endoplasmic reticulum (ER) stress and lipid accumulation in human retinal pigment epithelium (RPE) cells. A number of studies have investigated the benefits of antioxidants in the AMD. However, previous studies have not shown that efficacy of antioxidant in the treatment of AMD. Recent studies demonstrated that morin hydrate (MH) has antioxidant properties, anti-inflammatory, and antiapoptosis effects, however, the protective effects of MH against cigarette smoke extract (CSE)-induced AMD have not been studied in detail. We tested the potential effect of MH against the CSE-induced lipid accumulation in RPE cells and mice RPE layer. Herein, we observed that expose of RPE cells to CSE reduced cell viability, increased the lipid accumulation, ER stress, and oxidative stress. Concomitantly, CSE treatment to mice induced AMD associated histopathological changes, lipid accumulation, ER stress and oxidative stress in RPE layer. MH significantly attenuated cytotoxicity, lipid accumulation, ER stress, and oxidative stress via activated AMPK-Nrf2 signaling pathway in RPE cells and mice RPE layer. In addition, AMPK inhibition reversed MH-induced RPE cell protection against CSE. Thus, we conclude that MH protects RPE cells from CSE through reduced oxidative stress, ER stress, and lipid accumulation via activated AMPK-Nrf2-HO-1 signaling pathway. These findings suggest that MH treatment may be exploited in effective strategy against CSE-induced AMD.