Expression of metallothionein-I, -II, and -III in Alzheimer disease and animal models of neuroinflammation

Juan Hidalgo; Milena Penkowa; Carmen Espejo; Eva M Martínez-Cáceres; Javier Carrasco; Albert Quintana; Amalia Molinero; Sergi Florit; Mercedes Giralt; Arantxa Ortega-Aznar

Expression of metallothionein-I, -II, and -III in Alzheimer disease and animal models of neuroinflammation

Juan Hidalgo, Milena Penkowa, Carmen Espejo, Eva M Martínez-Cáceres, Javier Carrasco, Albert Quintana, Amalia Molinero, Sergi Florit, Mercedes Giralt, Arantxa Ortega-Aznar

Department of Neuroscience

52 Citations (Scopus)

Abstract

In recent years it has become increasingly clear that the metallothionein (MT) family of proteins is important in neurobiology. MT-I and MT-II are normally dramatically up-regulated by neuroinflammation. Results for MT-III are less clear. MTs could also be relevant in human neuropathology. In Alzheimer disease (AD), a major neurodegenerative disease, clear signs of inflammation and oxidative stress were detected associated with amyloid plaques. Furthermore, the number of cells expressing apoptotic markers was also significantly increased in these plaques. As expected, MT-I and MT-II immunostaining was dramatically increased in cells surrounding the plaques, consistent with astrocytosis and microgliosis, as well as the increased oxidative stress elicited by the amyloid deposits. MT-III, in contrast, remained essentially unaltered, which agrees with some but not all studies, of AD. In situ hybridization results in a transgenic mouse model of AD amyloid deposits, the Tg2576 mouse, which expresses human Abeta precursor protein harboring the Swedish K670N/M671L mutations, are in accordance with results in human brains. Overall, these and other studies strongly suggest specific roles for MT-I, MT-II, and MT-III in brain physiology.

Original language	English
Journal	Experimental Biology and Medicine (Maywood)
Volume	231
Issue number	9
Pages (from-to)	1450-8
Number of pages	8
ISSN	1535-3702
Publication status	Published - 2006

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@article{dd194720832a11de8bc9000ea68e967b,

title = "Expression of metallothionein-I, -II, and -III in Alzheimer disease and animal models of neuroinflammation",

abstract = "In recent years it has become increasingly clear that the metallothionein (MT) family of proteins is important in neurobiology. MT-I and MT-II are normally dramatically up-regulated by neuroinflammation. Results for MT-III are less clear. MTs could also be relevant in human neuropathology. In Alzheimer disease (AD), a major neurodegenerative disease, clear signs of inflammation and oxidative stress were detected associated with amyloid plaques. Furthermore, the number of cells expressing apoptotic markers was also significantly increased in these plaques. As expected, MT-I and MT-II immunostaining was dramatically increased in cells surrounding the plaques, consistent with astrocytosis and microgliosis, as well as the increased oxidative stress elicited by the amyloid deposits. MT-III, in contrast, remained essentially unaltered, which agrees with some but not all studies, of AD. In situ hybridization results in a transgenic mouse model of AD amyloid deposits, the Tg2576 mouse, which expresses human Abeta precursor protein harboring the Swedish K670N/M671L mutations, are in accordance with results in human brains. Overall, these and other studies strongly suggest specific roles for MT-I, MT-II, and MT-III in brain physiology.",

author = "Juan Hidalgo and Milena Penkowa and Carmen Espejo and Mart{\'i}nez-C{\'a}ceres, {Eva M} and Javier Carrasco and Albert Quintana and Amalia Molinero and Sergi Florit and Mercedes Giralt and Arantxa Ortega-Aznar",

note = "Keywords: Alzheimer Disease; Animals; Brain; Humans; In Situ Hybridization; Inflammation; Male; Metallothionein; Mice; Models, Animal; Oxidative Stress; RNA, Messenger",

year = "2006",

language = "English",

volume = "231",

pages = "1450--8",

journal = "Experimental Biology and Medicine",

issn = "1535-3702",

publisher = "SAGE Publications",

number = "9",

}

TY - JOUR

T1 - Expression of metallothionein-I, -II, and -III in Alzheimer disease and animal models of neuroinflammation

AU - Hidalgo, Juan

AU - Penkowa, Milena

AU - Espejo, Carmen

AU - Martínez-Cáceres, Eva M

AU - Carrasco, Javier

AU - Quintana, Albert

AU - Molinero, Amalia

AU - Florit, Sergi

AU - Giralt, Mercedes

AU - Ortega-Aznar, Arantxa

N1 - Keywords: Alzheimer Disease; Animals; Brain; Humans; In Situ Hybridization; Inflammation; Male; Metallothionein; Mice; Models, Animal; Oxidative Stress; RNA, Messenger

PY - 2006

Y1 - 2006

N2 - In recent years it has become increasingly clear that the metallothionein (MT) family of proteins is important in neurobiology. MT-I and MT-II are normally dramatically up-regulated by neuroinflammation. Results for MT-III are less clear. MTs could also be relevant in human neuropathology. In Alzheimer disease (AD), a major neurodegenerative disease, clear signs of inflammation and oxidative stress were detected associated with amyloid plaques. Furthermore, the number of cells expressing apoptotic markers was also significantly increased in these plaques. As expected, MT-I and MT-II immunostaining was dramatically increased in cells surrounding the plaques, consistent with astrocytosis and microgliosis, as well as the increased oxidative stress elicited by the amyloid deposits. MT-III, in contrast, remained essentially unaltered, which agrees with some but not all studies, of AD. In situ hybridization results in a transgenic mouse model of AD amyloid deposits, the Tg2576 mouse, which expresses human Abeta precursor protein harboring the Swedish K670N/M671L mutations, are in accordance with results in human brains. Overall, these and other studies strongly suggest specific roles for MT-I, MT-II, and MT-III in brain physiology.

AB - In recent years it has become increasingly clear that the metallothionein (MT) family of proteins is important in neurobiology. MT-I and MT-II are normally dramatically up-regulated by neuroinflammation. Results for MT-III are less clear. MTs could also be relevant in human neuropathology. In Alzheimer disease (AD), a major neurodegenerative disease, clear signs of inflammation and oxidative stress were detected associated with amyloid plaques. Furthermore, the number of cells expressing apoptotic markers was also significantly increased in these plaques. As expected, MT-I and MT-II immunostaining was dramatically increased in cells surrounding the plaques, consistent with astrocytosis and microgliosis, as well as the increased oxidative stress elicited by the amyloid deposits. MT-III, in contrast, remained essentially unaltered, which agrees with some but not all studies, of AD. In situ hybridization results in a transgenic mouse model of AD amyloid deposits, the Tg2576 mouse, which expresses human Abeta precursor protein harboring the Swedish K670N/M671L mutations, are in accordance with results in human brains. Overall, these and other studies strongly suggest specific roles for MT-I, MT-II, and MT-III in brain physiology.

M3 - Journal article

C2 - 17018866

SN - 1535-3702

VL - 231

SP - 1450

EP - 1458

JO - Experimental Biology and Medicine

JF - Experimental Biology and Medicine

IS - 9

ER -

Expression of metallothionein-I, -II, and -III in Alzheimer disease and animal models of neuroinflammation

Abstract

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