S Anitha scite author profile

Aluminium, an environmentally abundant non-redox trivalent cation has long been implicated in the pathogenesis of Alzheimer's disease (AD). However, the definite mechanism of aluminium toxicity in AD is not known. Evidence suggests that trace metal homeostasis plays a crucial role in the normal functioning of the brain, and any disturbance in it can exacerbate events associated with AD. The present paper reviews the scientific literature linking aluminium with AD. The focus is on aluminium levels in brain, region-specific and subcellular distribution, its relation to neurofibrillary tangles, amyloid beta, and other metals. A detailed mechanism of the role of aluminium in oxidative stress and cell death is highlighted. The importance of complex speciation chemistry of aluminium in relation to biology has been emphasized. The debatable role of aluminium in AD and the cross-talk between aluminium and genetic susceptibility are also discussed. Finally, it is concluded based on extensive literature that the neurotoxic effects of aluminium are beyond any doubt, and aluminium as a factor in AD cannot be discarded. However, whether aluminium is a sole factor in AD and whether it is a factor in all AD cases still needs to be understood.

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BRCA2 acts as a RAD51 loader to facilitate telomere replication and capping

Badie

Escandell

Bouwman

et al. 2010

Nat Struct Mol Biol

141

124

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BRCA2 is a key component of the homologous recombination (HR) pathway of DNA repair, acting as the loader of RAD51 recombinase at sites of double-strand breaks. Here, we demonstrate that BRCA2 associates with telomeres during S/G2 and facilitates RAD51 loading onto telomeres. Conditional Brca2 deletion and Rad51 inhibition in mouse embryonic fibroblasts (MEFs), but not Brca1 inactivation, led to telomere shortening and accumulation of fragmented telomeric signals, a hallmark of telomere fragility associated with replication defects. This suggests that BRCA2-mediated HR reactions contribute to telomere length maintenance by facilitating telomere replication and implies an essential role for BRCA2 in telomere integrity during unchallenged cell proliferation. Mouse mammary tumors lacking Brca2 accumulated telomere dysfunction-induced foci. BRCA2-mutated human breast tumors had shorter telomeres than BRCA1-mutated ones, suggesting that the genomic instability observed in BRCA2-deficient tumors is due in part to telomere dysfunction.

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Derepression of hTERT gene expression promotes escape from oncogene-induced cellular senescence

Patel

Anitha

Mirani

et al. 2016

Proc. Natl. Acad. Sci. U.S.A.

121

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Oncogene-induced senescence (OIS) is a critical tumor-suppressing mechanism that restrains cancer progression at premalignant stages, in part by causing telomere dysfunction. Currently it is unknown whether this proliferative arrest presents a stable and therefore irreversible barrier to cancer progression. Here we demonstrate that cells frequently escape OIS induced by oncogenic H-Ras and B-Raf, after a prolonged period in the senescence arrested state. Cells that had escaped senescence displayed high oncogene expression levels, retained functional DNA damage responses, and acquired chromatin changes that promoted c-Myc-dependent expression of the human telomerase reverse transcriptase gene (hTERT). Telomerase was able to resolve existing telomeric DNA damage response foci and suppressed formation of new ones that were generated as a consequence of DNA replication stress and oncogenic signals. Inhibition of MAP kinase signaling, suppressing c-Myc expression, or inhibiting telomerase activity, caused telomere dysfunction and proliferative defects in cells that had escaped senescence, whereas ectopic expression of hTERT facilitated OIS escape. In human early neoplastic skin and breast tissue, hTERT expression was detected in cells that displayed features of senescence, suggesting that reactivation of telomerase expression in senescent cells is an early event during cancer progression in humans. Together, our data demonstrate that cells arrested in OIS retain the potential to escape senescence by mechanisms that involve derepression of hTERT expression.oncogene-induced senescence | telomerase | telomere | senescence escape |

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Challenges Associated with Metal Chelation Therapy in Alzheimer's Disease

Hegde

Bharathi

Anitha

et al. 2009

JAD

143

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A close association between brain metal dishomeostasis and the onset and/or progression of Alzheimer's disease (AD) has been clearly established in a number of studies, although the underlying biochemical mechanisms remain obscure. This observation renders chelation therapy an attractive pharmacological option for the treatment of this disease. However, a number of requirements must be fulfilled in order to adapt chelation therapy to AD so that the term "metal targeted strategies" seems now more appropriate. Indeed, brain metal redistribution rather than brain metal scavenging and removal is the major goal of this type of intervention. The most recent developments in metal targeted strategies for AD will be discussed using, as useful examples, clioquinol, curcumin, and epigallocatechin, and the future perspectives will also be outlined.

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S Anitha

Oncogene-induced telomere dysfunction enforces cellular senescence in human cancer precursor lesions

Aluminium in Alzheimer?s disease: are we still at a crossroad?

BRCA2 acts as a RAD51 loader to facilitate telomere replication and capping

Derepression of hTERT gene expression promotes escape from oncogene-induced cellular senescence

Challenges Associated with Metal Chelation Therapy in Alzheimer's Disease

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