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Items: 1 to 20 of 24

1.

Methylmercury induces pancreatic beta-cell apoptosis and dysfunction.

Chen YW, Huang CF, Tsai KS, Yang RS, Yen CC, Yang CY, Lin-Shiau SY, Liu SH.

Chem Res Toxicol. 2006 Aug;19(8):1080-5.

PMID:
16918248
2.

Involvement of glutamate and reactive oxygen species in methylmercury neurotoxicity.

Aschner M, Syversen T, Souza DO, Rocha JB, Farina M.

Braz J Med Biol Res. 2007 Mar;40(3):285-91. Review.

3.

Mitochondria, reactive oxygen species and cadmium toxicity in the kidney.

Gobe G, Crane D.

Toxicol Lett. 2010 Sep 15;198(1):49-55. doi: 10.1016/j.toxlet.2010.04.013. Epub 2010 Apr 22. Review.

PMID:
20417263
4.

Usurping the mitochondrial supremacy: extramitochondrial sources of reactive oxygen intermediates and their role in beta cell metabolism and insulin secretion.

Gray JP, Heart E.

Toxicol Mech Methods. 2010 May;20(4):167-74. doi: 10.3109/15376511003695181. Review.

PMID:
20397883
5.
6.

[In vitro models for the evaluation of the neurotoxicity of methylmercury. Current state of knowledge].

Vettori MV, Alinovi R, Belletti S, Goldoni M, Franchini I, Mutti A.

Med Lav. 2003 Mar-Apr;94(2):183-91. Review. Italian.

PMID:
12852200
7.

Mechanisms of methylmercury-induced neurotoxicity.

Atchison WD, Hare MF.

FASEB J. 1994 Jun;8(9):622-9. Review.

8.

Oxidative stress in MeHg-induced neurotoxicity.

Farina M, Aschner M, Rocha JB.

Toxicol Appl Pharmacol. 2011 Nov 1;256(3):405-17. doi: 10.1016/j.taap.2011.05.001. Epub 2011 May 9. Review.

9.

Methylmercury-induced neurotoxicity and apoptosis.

Ceccatelli S, Daré E, Moors M.

Chem Biol Interact. 2010 Nov 5;188(2):301-8. doi: 10.1016/j.cbi.2010.04.007. Epub 2010 May 4. Review.

PMID:
20399200
10.

Role of calcium and mitochondria in MeHg-mediated cytotoxicity.

Roos D, Seeger R, Puntel R, Vargas Barbosa N.

J Biomed Biotechnol. 2012;2012:248764. doi: 10.1155/2012/248764. Epub 2012 Jul 3. Review.

12.

Role of intracellular defense factors against methylmercury toxicity.

Hwang GW.

Biol Pharm Bull. 2012;35(11):1881-4. Review.

13.

Astrocyte-mediated methylmercury neurotoxicity.

Shanker G, Syversen T, Aschner M.

Biol Trace Elem Res. 2003 Oct;95(1):1-10. Review.

PMID:
14555794
14.

Methylmercury neurotoxicity & antioxidant defenses.

do Nascimento JL, Oliveira KR, Crespo-Lopez ME, Macchi BM, Maués LA, Pinheiro Mda C, Silveira LC, Herculano AM.

Indian J Med Res. 2008 Oct;128(4):373-82. Review.

PMID:
19106435
15.

Islets and their antioxidant defense.

Acharya JD, Ghaskadbi SS.

Islets. 2010 Jul-Aug;2(4):225-35. doi: 10.4161/isl.2.4.12219. Review.

PMID:
21099317
16.

[Oxidative stress induces cellular damage and dysfunction of pancreatic beta-cells in type 2 diabetes].

Ihara Y.

Nihon Rinsho. 2002 Jul;60 Suppl 7:498-503. Review. Japanese. No abstract available.

PMID:
12238089
17.

Glia and methylmercury neurotoxicity.

Ni M, Li X, Rocha JB, Farina M, Aschner M.

J Toxicol Environ Health A. 2012;75(16-17):1091-101. doi: 10.1080/15287394.2012.697840. Review.

18.

Investigation of intracellular factors involved in methylmercury toxicity.

Naganuma A, Furuchi T, Miura N, Hwang GW, Kuge S.

Tohoku J Exp Med. 2002 Feb;196(2):65-70. Review.

19.

Mitochondrial functional impairment in response to environmental toxins in the cardiorenal metabolic syndrome.

Jia G, Aroor AR, Martinez-Lemus LA, Sowers JR.

Arch Toxicol. 2015 Feb;89(2):147-53. doi: 10.1007/s00204-014-1431-3. Epub 2015 Jan 6. Review.

20.

Mechanism of methylmercury cytotoxicity.

Miura K, Imura N.

Crit Rev Toxicol. 1987;18(3):161-88. Review.

PMID:
3325226
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