Magnesium deficiency accelerates cellular senescence in cultured human fibroblasts

Killilea, David W.; Ames, Bruce N.

doi:10.1073/pnas.0712401105

Cited by 110 publications

(72 citation statements)

References 53 publications

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“…For example, deficiencies of iron and zinc can cause DNA damage and are thought to contribute to tumorigenesis [Ho, 2004]. A recent report showed that magnesium deficient can induce cellular senescence and telomere dysfunction, suggesting a role of this element in attenuating telomere-associated aging process [Killilea and Ames, 2008]. In contrast, high levels of copper can induce oxidative stress, and copper levels are elevated in tissues from Wilson disease patients and are correlated with cancer predisposition [Daniel et al, 2004].…”

Section: Discussionmentioning

confidence: 97%

Impact of inorganic nutrients on maintenance of genomic stability

Cheng

2009

Environ and Mol Mutagen

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Maintenance of genome stability is of fundamental importance for counteracting carcinogenesis. Many human genome instability syndromes exhibit a predisposition to cancer. An increasing body of epidemiological evidence has suggested a link between nutrient status and risk of cancer. Like other chemicals, nutrients can be toxic when consumed in excess. It has become clear that both nutritional deficiency and toxicity can compromise the integrity of the genome. This article focuses on roles of inorganic trace nutrients, including selenium, copper, zinc, and iron, in the redox regulation of genome stability and how they relate to the pathologies of genomic instability syndromes and cancer.

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Section: Discussionmentioning

confidence: 97%

Impact of inorganic nutrients on maintenance of genomic stability

Cheng

2009

Environ and Mol Mutagen

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“…Total cell-associated magnesium content was measured by Inductively Coupled Plasma (ICP) spectroscopy analysis [23]. Cells were seeded into 90 mm plates at a density of 1.5×10 6 cells per plate and harvested when reached to 60-70% confluence after about 3 days.…”

Section: Measurement Of Total Cell Magnesium Contentmentioning

confidence: 99%

Characterization of the cell growth inhibitory effects of a novel DNA-intercalating bipyridyl-thiourea-Pt(II) complex in cisplatin-sensitive and—resistant human ovarian cancer cells

et al. 2009

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The cellular effects of a novel DNA-intercalating agent, the bipyridyl complex of platinum(II) with diphenyl thiourea, [Pt(bipy)(Ph(2)-tu)(2)]Cl(2), has been analyzed in the cisplatin (cDDP)-sensitive human ovarian carcinoma cell line, 2008, and its -resistant variant, C13* cells, in which the highest accumulation and cytotoxicity was found among six related bipyridyl thiourea complexes. We also show here that this complex causes reactive oxygen species to form and inhibits topoisomerase II activity to a greater extent in the sensitive than in the resistant line. The impairment of this enzyme led to DNA damage, as shown by the comet assay. As a consequence, cell cycle distribution has also been greatly perturbed in both lines. Morphological analysis revealed deep cellular derangement with the presence of cellular masses, together with increased membrane permeability and depolarization of the mitochondrial membrane. Some of these effects, sometimes differentially evident between the two cell lines, might also be related to the decrease of total cell magnesium content caused by this thiourea complex both in sensitive and resistant cells, though the basal content of this ion was higher in the cDDP-resistant line. Altogether these results suggest that this compound exerts its cytotoxicity by mechanisms partly mediated by the resistance phenotype. In particular, cDDP-sensitive cells were affected mostly by impairing topoisomerase II activity and by increasing membrane permeability and the formation of reactive oxygen species; conversely, mitochondrial impairment appeared to play the most important role in the action of complex F in resistant cells.

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“…Although Mg 2+ is essential for cell proliferation, the mechanism controlling Mg 2+ homeostasis in stem cells remains largely unknown. Studies in fi broblast cells revealed that Mg 2+ defi ciency accelerates cellular senescence [ 45 ]. Since stem cells undergo numerous cycles of cell division while maintaining the undifferentiated state, Mg 2+ might be of special importance to protect from early aging and keeping the toti-or pluripotency of these cells.…”

Section: Trpm7 Knockdown Induces Mesenchymal Stem Cell Deathmentioning

confidence: 99%

Transient Receptor Potential Melastatin Type 7 Channel Is Critical for the Survival of Bone Marrow Derived Mesenchymal Stem Cells

Cheng

Feng

Figueiredo

et al. 2010

Stem Cells and Development

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The transient receptor potential melastatin type 7 channel (TRPM7) is a member of the TRP family of ion channels that is essential for cell proliferation and viability. Mesenchymal stem cells (MSCs) from bone marrow are a potential source for tissue repair due to their ability to differentiate into specialized cells. However, the role of TRPM7 in stem cells is unknown. In this study, we characterized TRPM7 in mouse MSCs using molecular biology, immunocytochemistry, and patch clamp. We also investigated TRPM7 function using a lentiviral vector and specifi c shRNA to knockdown gene expression. By RT-PCR and immunocytochemistry, we identifi ed TRPM7, but not TRPM6, a close family member with similar function. Electrophysiological recordings during depletion of intracellular Mg 2+ or Mg 2+-ATP resulted in the development of currents typical for the channel. Furthermore, 2-aminoethoxydiphenyl borate (1 pM-100 μM) inhibited TRPM7 in a concentration-dependent manner. The molecular suppression of TRPM7 signifi cantly decreased MSC proliferation and viability as determined by MTT assay. In addition, TRPM7 gene expression was up-regulated during osteogenesis. These fi ndings demonstrate that TRPM7 is required for MSC survival and perhaps involved in the differentiation process. Introduction Stem cell therapy offers a promising approach to providing an advanced and reliable therapeutic strategy for tissue repair. Mesenchymal stem cells (MSCs) from bone marrow are a source of stem cells capable of differentiation into specialized tissue, including bone, fat, and muscle [ 1 ]. The process of stem cell growth and differentiation is controlled by a network of intracellular signaling molecules that are activated by hormone, growth factor, and/or cytokine stimulation. These signals control gene transcription and the differentiation process [ 2 , 3 ]. Despite a number of studies demonstrating the capability of MSCs to differentiate, the precise mechanism controlling the fate of stem cells is not well understood. Among second messengers, Ca 2+ ions are one of the most important and commonly used molecules for cellular function [ 4 ]. Calcium is available to the cell from 2 sources: fi rst, the extracellular environment, where the Ca 2+ concentration is in the low millimolar range. This Ca 2+ is available to the cytosol through plasma membrane ion channels. Second, there are fi nite intracellular Ca 2+ stores, typically membrane-delineated compartments, such as endoplasmic reticulum (ER), Golgi apparatus, mitochondria, and nucleus. This Ca 2+ is available to the cytosol to differing degrees and exits the storage compartment through intracellular Ca 2+ "release" channels. Increases in intracellular Ca 2+ concentration are a phenomenon commonly observed during stem cell differentiation and linked to the activation of transcriptional programs [ 5 , 6 ]. In MSCs, Ca 2+ oscillations are dependent on both Ca 2+ release from the ER and entry from the extracellular space [ 7 , 8 ]. These signals can be initiated by autocrine or paracrine m...

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Magnesium deficiency accelerates cellular senescence in cultured human fibroblasts

Cited by 110 publications

References 53 publications

Impact of inorganic nutrients on maintenance of genomic stability

Impact of inorganic nutrients on maintenance of genomic stability

Characterization of the cell growth inhibitory effects of a novel DNA-intercalating bipyridyl-thiourea-Pt(II) complex in cisplatin-sensitive and—resistant human ovarian cancer cells

Transient Receptor Potential Melastatin Type 7 Channel Is Critical for the Survival of Bone Marrow Derived Mesenchymal Stem Cells

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