The role of environmental mercury, lead and pesticide exposure in development of amyotrophic lateral sclerosis

Johnson, Frank O.; Atchison, William D.

doi:10.1016/j.neuro.2009.07.010

Cited by 144 publications

(91 citation statements)

References 87 publications

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“…The etiology of such forms of these diseases is unclear, but it is thought that they arise from complex interactions between genetic and environmental factors (82). Environmental factors, including toxic pesticides and metals, general lifestyle, and dietary habits have been associated with increased risk of disease (83,84) and are likely to be mirrored in epigenetic alterations. During the reprogramming process, the epigenetic landscape of cells is redrawn, as a terminally differentiated cell is transformed into a pluripotent one.…”

Section: Figurementioning

confidence: 99%

Progress toward the clinical application of patient-specific pluripotent stem cells

Kiskinis¹,

Eggan²

2010

J. Clin. Invest.

326

249

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Induced pluripotent stem (iPS) cells are generated by epigenetic reprogramming of somatic cells through the exogenous expression of transcription factors. These cells, just like embryonic stem cells, are likely to have a major impact on regenerative medicine, because they self-renew and retain the potential to be differentiated into all cell types of the human body. In this Review, we describe the current state of iPS cell technology, including approaches by which they are generated and what is known about their biology, and discuss the potential applications of these cells for disease modeling, drug discovery, and, eventually, cell replacement therapy. IntroductionHuman ES cells, which are derived from the inner cell mass of blastocyst stage embryos, have the unique ability to self-renew indefinitely while maintaining the potential to give rise to all cell types in the human body (1). Induced pluripotent stem (iPS) cells share these salient characteristics of ES cells but are instead generated via reprogramming of somatic cells through the forced expression of key transcription factors (2). The seminal achievement of induced pluripotency holds great promise for regenerative medicine. Patient-specific iPS cells could provide useful platforms for drug discovery and offer unprecedented insights into disease mechanisms and, in the long term, may be used for cell and tissue replacement therapies.The successful cloning of animals such as Dolly the sheep in 1997 (3, 4) and the subsequent derivation of human ES cells in 1998 (1) brought forward the concept of therapeutic cloning, in which pluripotent ES cell lines tailored to the genetic makeup of specific individuals might provide a plentiful source of therapeutic cells (5). Although significant advancements toward this goal have been made (6, 7), successful somatic cell nuclear transfer (SCNT) (a technique whereby the DNA of an unfertilized egg is replaced by the DNA of a somatic cell) with human cells remains elusive and is fraught with social and logistical concerns. Alternative methods for deriving pluripotent cells, such as cell fusion (8) and culture-induced reprogramming (9), have been developed, but these approaches still suffer from severe practical and technical limitations. In contrast, the generation of pluripotent cells by exogenous expression of transcription factors circumvents many previous limitations, as this approach is not technically demanding and does not require embryonic material or oocytes. We therefore believe that iPS cell technology will have a significant impact on regenerative medicine, and in this article we review current methodologies used for generating iPS cells and then discuss their potential clinical applications.

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Section: Figurementioning

confidence: 99%

Progress toward the clinical application of patient-specific pluripotent stem cells

Kiskinis¹,

Eggan²

2010

J. Clin. Invest.

326

249

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“…MeHg is a neurotoxic substance and chronic exposure to it induces, among others, symptoms similar to those observed in amyotrophic lateral sclerosis, such as the early onset of hind limb weakness in humans [12,13]. The active swimming in salmon is affected by MeHg [13].…”

Section: Introductionmentioning

confidence: 99%

Shannon Entropy in a European Seabass (Dicentrarchus labrax) System during the Initial Recovery Period after a Short-Term Exposure to Methylmercury

Eguiraun

López-de-Ipiña

Martı́nez

2016

Entropy

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Methylmercury (MeHg) is an environmental contaminant of increasing relevance as a seafood safety hazard that affects the health and welfare of fish. Non-invasive, on-line methodologies to monitor and evaluate the behavior of a fish system in aquaculture may make the identification of altered systems feasible-for example, due to the presence of agents that compromise their welfare and wholesomeness-and find a place in the implementation of Hazard Analysis and Critical Control Points and Fish Welfare Assurance Systems. The Shannon entropy (SE) of a European seabass (Dicentrarchus labrax) system has been shown to differentiate MeHg-treated from non-treated fish, the former displaying a lower SE value than the latter. However, little is known about the initial evolution of the system after removal of the toxicant. To help to cover this gap, the present work aims at providing information about the evolution of the SE of a European seabass system during a recuperation period of 11 days following a two-week treatment with 4 µg¨MeHg/L. The results indicate that the SE of the system did not show a recovery trend during the examined period, displaying erratic responses with daily fluctuations and lacking a tendency to reach the initial SE values.

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“…Lead is present in water [17], paint [18], brass plumbing fixtures [19], ayurvedic medicine [20,21], aphrodisiacs [22], alternative medications [23], etc. Lead is toxic to numerous organ systems, which include bone marrow, muscles, kidneys, endocrine glands, joints, and nervous system [24][25][26][27]. Low-level blood lead levels may be causative factors in cognitive dysfunction, neurobehavioral disorders, neurological damage, hypertension, cardiac dysfunction and renal impairment [28].…”

Section: Discussionmentioning

confidence: 99%

An Unusual Case of Neurogenic Sexual Dysfunction Due to Lead Exposure

Khan¹,

Whyard²,

Muthiki³

et al. 2011

TOANDROJ

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The role of environmental mercury, lead and pesticide exposure in development of amyotrophic lateral sclerosis

Cited by 144 publications

References 87 publications

Progress toward the clinical application of patient-specific pluripotent stem cells

Progress toward the clinical application of patient-specific pluripotent stem cells

Shannon Entropy in a European Seabass (Dicentrarchus labrax) System during the Initial Recovery Period after a Short-Term Exposure to Methylmercury

An Unusual Case of Neurogenic Sexual Dysfunction Due to Lead Exposure

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