Novel roles for metallothionein-I + II (MT-I + II) in defense responses, neurogenesis, and tissue restoration after traumatic brain injury: insights from global gene expression profiling in wild-type and MT-I + II knockout mice

Milena Penkowa; Mario Cáceres; Rehannah Borup; Finn Cilius Nielsen; Christian Bjørn Poulsen; Albert Quintana; Amalia Molinero; Javier Carrasco; Sergi Florit; Mercedes Giralt; Juan Hidalgo

doi:10.1002/jnr.21043

Novel roles for metallothionein-I + II (MT-I + II) in defense responses, neurogenesis, and tissue restoration after traumatic brain injury: insights from global gene expression profiling in wild-type and MT-I + II knockout mice

Milena Penkowa, Mario Cáceres, Rehannah Borup, Finn Cilius Nielsen, Christian Bjørn Poulsen, Albert Quintana, Amalia Molinero, Javier Carrasco, Sergi Florit, Mercedes Giralt, Juan Hidalgo

42 Citations (Scopus)

Abstract

Traumatic injury to the brain is one of the leading causes of injury-related death or disability, especially among young people. Inflammatory processes and oxidative stress likely underlie much of the damage elicited by injury, but the full repertoire of responses involved is not well known. A genomic approach, such as the use of microarrays, provides much insight in this regard, especially if combined with the use of gene-targeted animals. We report here the results of one of these studies comparing wild-type and metallothionein-I + II knockout mice subjected to a cryolesion of the somatosensorial cortex and killed at 0, 1, 4, 8, and 16 days postlesion (dpl) using Affymetrix genechips/oligonucleotide arrays interrogating approximately 10,000 different murine genes (MG_U74Av2). Hierarchical clustering analysis of these genes readily shows an orderly pattern of gene responses at specific times consistent with the processes involved in the initial tissue injury and later regeneration of the parenchyma, as well as a prominent effect of MT-I + II deficiency. The results thoroughly confirmed the importance of the antioxidant proteins MT-I + II in the response of the brain to injury and opened new avenues that were confirmed by immunohistochemistry. Data in KO, MT-I-overexpressing, and MT-II-injected mice strongly suggest a role of these proteins in postlesional activation of neural stem cells.

Original language	English
Journal	Journal of Neuroscience Research
Volume	84
Issue number	7
Pages (from-to)	1452-74
Number of pages	22
ISSN	0360-4012
DOIs	https://doi.org/10.1002/jnr.21043
Publication status	Published - 2006

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Penkowa, M., Cáceres, M., Borup, R., Nielsen, F. C., Poulsen, C. B., Quintana, A., Molinero, A., Carrasco, J., Florit, S., Giralt, M., & Hidalgo, J. (2006). Novel roles for metallothionein-I + II (MT-I + II) in defense responses, neurogenesis, and tissue restoration after traumatic brain injury: insights from global gene expression profiling in wild-type and MT-I + II knockout mice. Journal of Neuroscience Research, 84(7), 1452-74. https://doi.org/10.1002/jnr.21043

Novel roles for metallothionein-I + II (MT-I + II) in defense responses, neurogenesis, and tissue restoration after traumatic brain injury: insights from global gene expression profiling in wild-type and MT-I + II knockout mice. / Penkowa, Milena; Cáceres, Mario; Borup, Rehannah et al.

In: Journal of Neuroscience Research, Vol. 84, No. 7, 2006, p. 1452-74.

Research output: Contribution to journal › Journal article › Research › peer-review

Penkowa, M, Cáceres, M, Borup, R, Nielsen, FC, Poulsen, CB, Quintana, A, Molinero, A, Carrasco, J, Florit, S, Giralt, M & Hidalgo, J 2006, 'Novel roles for metallothionein-I + II (MT-I + II) in defense responses, neurogenesis, and tissue restoration after traumatic brain injury: insights from global gene expression profiling in wild-type and MT-I + II knockout mice', Journal of Neuroscience Research, vol. 84, no. 7, pp. 1452-74. https://doi.org/10.1002/jnr.21043

Penkowa M, Cáceres M, Borup R, Nielsen FC, Poulsen CB, Quintana A et al. Novel roles for metallothionein-I + II (MT-I + II) in defense responses, neurogenesis, and tissue restoration after traumatic brain injury: insights from global gene expression profiling in wild-type and MT-I + II knockout mice. Journal of Neuroscience Research. 2006;84(7):1452-74. doi: 10.1002/jnr.21043

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title = "Novel roles for metallothionein-I + II (MT-I + II) in defense responses, neurogenesis, and tissue restoration after traumatic brain injury: insights from global gene expression profiling in wild-type and MT-I + II knockout mice",

abstract = "Traumatic injury to the brain is one of the leading causes of injury-related death or disability, especially among young people. Inflammatory processes and oxidative stress likely underlie much of the damage elicited by injury, but the full repertoire of responses involved is not well known. A genomic approach, such as the use of microarrays, provides much insight in this regard, especially if combined with the use of gene-targeted animals. We report here the results of one of these studies comparing wild-type and metallothionein-I + II knockout mice subjected to a cryolesion of the somatosensorial cortex and killed at 0, 1, 4, 8, and 16 days postlesion (dpl) using Affymetrix genechips/oligonucleotide arrays interrogating approximately 10,000 different murine genes (MG_U74Av2). Hierarchical clustering analysis of these genes readily shows an orderly pattern of gene responses at specific times consistent with the processes involved in the initial tissue injury and later regeneration of the parenchyma, as well as a prominent effect of MT-I + II deficiency. The results thoroughly confirmed the importance of the antioxidant proteins MT-I + II in the response of the brain to injury and opened new avenues that were confirmed by immunohistochemistry. Data in KO, MT-I-overexpressing, and MT-II-injected mice strongly suggest a role of these proteins in postlesional activation of neural stem cells.",

author = "Milena Penkowa and Mario C{\'a}ceres and Rehannah Borup and Nielsen, {Finn Cilius} and Poulsen, {Christian Bj{\o}rn} and Albert Quintana and Amalia Molinero and Javier Carrasco and Sergi Florit and Mercedes Giralt and Juan Hidalgo",

note = "Keywords: Analysis of Variance; Animals; Aquaporin 2; Brain Injuries; Catalase; Cluster Analysis; Gene Expression Profiling; Gene Expression Regulation; Immunohistochemistry; Metallothionein; Mice; Mice, Knockout; Mitogen-Activated Protein Kinases; Oligonucleotide Array Sequence Analysis; Stem Cells; Time Factors",

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AU - Penkowa, Milena

AU - Cáceres, Mario

AU - Borup, Rehannah

AU - Nielsen, Finn Cilius

AU - Poulsen, Christian Bjørn

AU - Quintana, Albert

AU - Molinero, Amalia

AU - Carrasco, Javier

AU - Florit, Sergi

AU - Giralt, Mercedes

AU - Hidalgo, Juan

N1 - Keywords: Analysis of Variance; Animals; Aquaporin 2; Brain Injuries; Catalase; Cluster Analysis; Gene Expression Profiling; Gene Expression Regulation; Immunohistochemistry; Metallothionein; Mice; Mice, Knockout; Mitogen-Activated Protein Kinases; Oligonucleotide Array Sequence Analysis; Stem Cells; Time Factors

PY - 2006

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N2 - Traumatic injury to the brain is one of the leading causes of injury-related death or disability, especially among young people. Inflammatory processes and oxidative stress likely underlie much of the damage elicited by injury, but the full repertoire of responses involved is not well known. A genomic approach, such as the use of microarrays, provides much insight in this regard, especially if combined with the use of gene-targeted animals. We report here the results of one of these studies comparing wild-type and metallothionein-I + II knockout mice subjected to a cryolesion of the somatosensorial cortex and killed at 0, 1, 4, 8, and 16 days postlesion (dpl) using Affymetrix genechips/oligonucleotide arrays interrogating approximately 10,000 different murine genes (MG_U74Av2). Hierarchical clustering analysis of these genes readily shows an orderly pattern of gene responses at specific times consistent with the processes involved in the initial tissue injury and later regeneration of the parenchyma, as well as a prominent effect of MT-I + II deficiency. The results thoroughly confirmed the importance of the antioxidant proteins MT-I + II in the response of the brain to injury and opened new avenues that were confirmed by immunohistochemistry. Data in KO, MT-I-overexpressing, and MT-II-injected mice strongly suggest a role of these proteins in postlesional activation of neural stem cells.

AB - Traumatic injury to the brain is one of the leading causes of injury-related death or disability, especially among young people. Inflammatory processes and oxidative stress likely underlie much of the damage elicited by injury, but the full repertoire of responses involved is not well known. A genomic approach, such as the use of microarrays, provides much insight in this regard, especially if combined with the use of gene-targeted animals. We report here the results of one of these studies comparing wild-type and metallothionein-I + II knockout mice subjected to a cryolesion of the somatosensorial cortex and killed at 0, 1, 4, 8, and 16 days postlesion (dpl) using Affymetrix genechips/oligonucleotide arrays interrogating approximately 10,000 different murine genes (MG_U74Av2). Hierarchical clustering analysis of these genes readily shows an orderly pattern of gene responses at specific times consistent with the processes involved in the initial tissue injury and later regeneration of the parenchyma, as well as a prominent effect of MT-I + II deficiency. The results thoroughly confirmed the importance of the antioxidant proteins MT-I + II in the response of the brain to injury and opened new avenues that were confirmed by immunohistochemistry. Data in KO, MT-I-overexpressing, and MT-II-injected mice strongly suggest a role of these proteins in postlesional activation of neural stem cells.

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DO - 10.1002/jnr.21043

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