Stability of calcium substituted lanthanum chromites used as SOFC anodes for methane oxidation

The earth's resources are finite, and it can no longer be considered a source of inexhaustible bounty for the human population. However, this realization has not been able to contain the human desire for rapid industrialization. The collateral to overusing environmental resources is the high-level contamination of undesirable toxic metals, leading to bioaccumulation and cellular damage. Cytopathological features of biological systems represent a key variable in several diseases. A review of the literature revealed that autophagy (PCDII), a high-capacity process, may consist of selective elimination of vital organelles and/or proteins that intiate mechanisms of cytoprotection and homeostasis in different biological systems under normal physiological and stress conditions. However, the biological system does survive under various environmental stressors. Currently, there is no consensus that specifies a particular response as being a dependable biomarker of toxicology. Autophagy has been recorded as the initial response of a cell to a toxic metal in a concentration- and time-dependent manner. Various signaling pathways are triggered through cellular proteins and/or protein kinases that can lead to autophagy, apoptosis (or necroptosis), and necrosis. Although the role of autophagy in tumorigenesis is associated with promoting tumor cell survival and/or acting as a tumor suppressive mechanism, PCDII in metal-induced toxicity has not been extensively studied. The aim of this review is to analyze the comparative cytotoxicity of metals/metalloids and nanoparticles (As, Cd, Cr, Hg, Fe, and metal-NP) in cells enduring autophagy. It is noted that metals/metalloids and nanoparticles prefer ATG8/LC3 as a potent inducer of autophagy in several cell lines or animal cells. MAP kinases, death protein kinases, PI3K, AKT, mTOR, and AMP kinase have been found to be the major components of autophagy induction or inhibition in the context of cellular responses to metals/metalloids and nanoparticles.

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Low concentration of mercury induces autophagic cell death in rat hepatocytes

Chatterjee

Ray

Mukherjee

et al. 2012

Toxicol Ind Health

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In the present study, we attempted to elucidate the induction of autophagy in rat hepatocytes by a low concentration of mercury. Hepatocytes treated with different doses of mercuric chloride (HgCl2; 1, 2.5, 5 and 10 µM) and at different time intervals (0 min, 30 min, 1 h, 2 h and 4 h) show autophagic cell death only at 5 µM HgCl2 within 30 min of incubation. At 1 and 2.5 µM HgCl2, no cell death is recorded, while apoptosis is found at 10 µM HgCl2, as evidenced by the activation of caspase 3. Autophagic cell death is confirmed by the presence of monodansylcadaverine (MDC) positive hepatocytes which is found to be highest at 1 h. Atg5-Atg12 covalent-conjugation triggers the autophagic pathway within 30 min of 5 µM HgCl2 treatment and continues till 4 h of incubation. In addition, damage-regulated autophagy modulator (DRAM) expression gradually increases from 30 min to 4 h of treatment with mercury and a corresponding linear decrease in p53 has been observed. It is concluded that a low concentration (5 µM HgCl2) of mercury induces autophagy or nonapoptotic programmed cell death following an Atg5-Atg12 covalent-conjugation pathway, which is modulated by DRAM in a p53-dependent manner.

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Low concentration of HgCl₂drives rat hepatocytes to autophagy/apoptosis/necroptosis in a time-dependent manner

Chatterjee

Banerjee

Chattopadhyay

et al. 2013

Toxicological & Environmental Chemistry

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Arsenic trioxide induced indirect and direct inhibition of glutathione reductase leads to apoptosis in rat hepatocytes

et al. 2014

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Glutathione reductase (GR) is an essential enzyme which maintains the reduced state of a cell. Therefore GR malfunction is closely associated with several disorders related to oxidative damage. The present study reports toxic manifestation of arsenic trioxide in respect of GR leading to apoptosis. Isolated rat hepatocytes exposed to arsenic trioxide were analyzed for GR expression and activity. Arsenic resulted in a time dependent inhibition of GR mediated by the superoxide anion. The cellular demand of functional enzyme is achieved by concomitant rise in gene expression. However, direct inhibition of GR by arsenic trioxide was also evident. Furthermore, arsenic induced free radical mediated inhibition of GR was found to be partially uncompetitive and associated with time dependent decrease in the substrate binding rate. Externalization of phosphatidylserine, nuclear degradation, apoptosis inducing factor leakage, apoptosome formation, caspase activation, DNA damage and break down of PARP suggest consequential induction of apoptosis due to inhibition of GR. The implication of GR was further established from the reduced rate of caspase activation in the arsenic trioxide treated cell, supplemented with complete and incomplete enzyme systems.

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In VivoEffect of Arsenic Trioxide on Keap1-p62-Nrf2 Signaling Pathway in Mouse Liver: Expression of Antioxidant Responsive Element-Driven Genes Related to Glutathione Metabolism

et al. 2013

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Arsenic is a Group I human carcinogen, and chronic arsenic exposure through drinking water is a major threat to human population. Liver is one of the major organs for the detoxification of arsenic. The present study was carried out in mice in vivo after arsenic treatment through drinking water at different doses and time of exposure. Arsenic toxicity is found to be mediated by reactive oxygen species. Nuclear factor (erythroid-2 related) factor 2 (Nrf2)/Keap1 (Kelch-like ECH-associated protein 1)/ARE (antioxidant response element)—driven target gene system protects cells against oxidative stress and maintains cellular oxidative homeostasis. Our result showed 0.4 ppm, 2 ppm, and 4 ppm arsenic trioxide treatment through drinking water for 30 days and 90 days induced damages in the liver of Swiss albino mice as evidenced by histopathology, disturbances in liver function, induction of heat shock protein 70, modulation of trace elements, alteration in reduced glutathione level, glutathione-s-transferase and catalase activity, malondialdehyde production, and induction of apoptosis. Cellular Nrf2 protein level and mRNA level increased in all treatment groups. Keap1 protein as well as mRNA level decreased concomitantly in arsenic treated mice. Our study clearly indicates the important role of Nrf2 in activating ARE driven genes related to GSH metabolic pathway and also the adaptive response mechanisms in arsenic induced hepatotoxicity.

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Regulation of autophagy in rat hepatocytes treatedin vitrowith low concentration of mercury

Chatterjee¹,

Nandi²,

Mukherjee³

et al. 2013

Toxicological & Environmental Chemistry

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Oxidative damage induced by a novel porphyrin in tumour mitochondria and other model systems: Potential applications in photodynamic therapy

Chatterjee

Kamat

Shetty

et al. 1997

Radiation Physics and Chemistry

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Vector-free in vivo trans-determination of adult hepatic stem cells to insulin-producing cells

et al. 2019

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Sarmishtha Chatterjee

Toxic Metals and Autophagy

Low concentration of mercury induces autophagic cell death in rat hepatocytes

Low concentration of HgCl₂drives rat hepatocytes to autophagy/apoptosis/necroptosis in a time-dependent manner

Arsenic trioxide induced indirect and direct inhibition of glutathione reductase leads to apoptosis in rat hepatocytes

In VivoEffect of Arsenic Trioxide on Keap1-p62-Nrf2 Signaling Pathway in Mouse Liver: Expression of Antioxidant Responsive Element-Driven Genes Related to Glutathione Metabolism

Regulation of autophagy in rat hepatocytes treatedin vitrowith low concentration of mercury

Oxidative damage induced by a novel porphyrin in tumour mitochondria and other model systems: Potential applications in photodynamic therapy

Vector-free in vivo trans-determination of adult hepatic stem cells to insulin-producing cells

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Sarmishtha Chatterjee

Toxic Metals and Autophagy

Low concentration of mercury induces autophagic cell death in rat hepatocytes

Low concentration of HgCl2drives rat hepatocytes to autophagy/apoptosis/necroptosis in a time-dependent manner

Arsenic trioxide induced indirect and direct inhibition of glutathione reductase leads to apoptosis in rat hepatocytes

In VivoEffect of Arsenic Trioxide on Keap1-p62-Nrf2 Signaling Pathway in Mouse Liver: Expression of Antioxidant Responsive Element-Driven Genes Related to Glutathione Metabolism

Regulation of autophagy in rat hepatocytes treatedin vitrowith low concentration of mercury

Oxidative damage induced by a novel porphyrin in tumour mitochondria and other model systems: Potential applications in photodynamic therapy

Vector-free in vivo trans-determination of adult hepatic stem cells to insulin-producing cells

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Product

Resources

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Low concentration of HgCl₂drives rat hepatocytes to autophagy/apoptosis/necroptosis in a time-dependent manner