Protein kinase C epsilon activates lens mitochondrial cytochrome c oxidase subunit IV during hypoxia

Protein kinase C (PKC) isoforms have been identified as major cellular signaling proteins that act directly in response to oxidation conditions. In retina and lens two isoforms of PKC respond to changes in oxidative stress, PKCγ and PKCɛ, while only PKCɛ is found in heart. In heart the PKCɛ acts on...

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Published inExperimental eye research Vol. 86; no. 2; pp. 226 - 234
Main Authors Barnett, Michael, Lin, Dingbo, Akoyev, Vladimir, Willard, Lloyd, Takemoto, Dolores
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.02.2008
Subjects
Animals
Cell Hypoxia - physiology
Cells, Cultured
cytochrome c oxidase IV
Electron Transport Complex IV - metabolism
Enzyme Activation - physiology
Hypoxia - enzymology
lens
Lens, Crystalline - enzymology
Lens, Crystalline - ultrastructure
Mice
Mice, Knockout
mitochondria
protein kinase C epsilon
Protein Kinase C-epsilon - genetics
Protein Kinase C-epsilon - physiology
Rabbits
Tissue Culture Techniques
Vacuoles - ultrastructure
protein kinase C epsilon
cytochrome c oxidase IV
lens
mitochondria
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Abstract Protein kinase C (PKC) isoforms have been identified as major cellular signaling proteins that act directly in response to oxidation conditions. In retina and lens two isoforms of PKC respond to changes in oxidative stress, PKCγ and PKCɛ, while only PKCɛ is found in heart. In heart the PKCɛ acts on connexin 43 to protect from hypoxia. The presence of both isoforms in the lens led to this study to determine if lens PKCɛ had unique targets. Both lens epithelial cells in culture and whole mouse lens were examined using PKC isoform-specific enzyme activity assays, co-immunoprecipitation, confocal microscopy, immunoblots, and light and electron microscopy. PKCɛ was found in lens epithelium and cortex but not in the nucleus of mouse lens. The PKCɛ isoform was activated in both epithelium and whole lens by 5% oxygen when compared to activity at 21% oxygen. In hypoxic conditions (5% oxygen) the PKCɛ co-immunoprecipitated with the mitochondrial cytochrome c oxidase IV subunit (CytCOx). Concomitant with this the CytCOx enzyme activity was elevated and increased co-localization of CytCOx with PCKɛ was observed using immunolabeling and confocal microscopy. In contrast, no hypoxia-induced activation of CytCOx was observed in lenses from the PKCɛ knockout mice. Lens from 6-week-old PKCɛ knockout mice had a disorganized bow region which was filled with vacuoles indicating a possible loss of mitochondria but the size of the lens was not altered. Electron microscopy demonstrated that the nuclei of the PCKɛ knockout mice were abnormal in shape. Thus, PKCɛ is found to be activated by hypoxia and this results in the activation of the mitochondrial protein CytCOx. This could protect the lens from mitochondrial damage under the naturally hypoxic conditions observed in this tissue. Lens oxygen levels must remain low. Elevation of oxygen which occurs during vitreal detachment or liquification is associated with cataracts. We hypothesize that elevated oxygen could cause inhibition of PKCɛ resulting in a loss of mitochondrial protection.
AbstractList Protein kinase C (PKC) isoforms have been identified as major cellular signaling proteins that act directly in response to oxidation conditions. In retina and lens two isoforms of PKC respond to changes in oxidative stress, PKCgamma and PKCepsilon, while only PKCepsilon is found in heart. In heart the PKCepsilon acts on connexin 43 to protect from hypoxia. The presence of both isoforms in the lens led to this study to determine if lens PKCepsilon had unique targets. Both lens epithelial cells in culture and whole mouse lens were examined using PKC isoform-specific enzyme activity assays, co-immunoprecipitation, confocal microscopy, immunoblots, and light and electron microscopy. PKCepsilon was found in lens epithelium and cortex but not in the nucleus of mouse lens. The PKCepsilon isoform was activated in both epithelium and whole lens by 5% oxygen when compared to activity at 21% oxygen. In hypoxic conditions (5% oxygen) the PKCepsilon co-immunoprecipitated with the mitochondrial cytochrome c oxidase IV subunit (CytCOx). Concomitant with this the CytCOx enzyme activity was elevated and increased co-localization of CytCOx with PCKvarepsilon was observed using immunolabeling and confocal microscopy. In contrast, no hypoxia-induced activation of CytCOx was observed in lenses from the PKCepsilon knockout mice. Lens from 6-week-old PKCepsilon knockout mice had a disorganized bow region which was filled with vacuoles indicating a possible loss of mitochondria but the size of the lens was not altered. Electron microscopy demonstrated that the nuclei of the PCKepsilon knockout mice were abnormal in shape. Thus, PKCepsilon is found to be activated by hypoxia and this results in the activation of the mitochondrial protein CytCOx. This could protect the lens from mitochondrial damage under the naturally hypoxic conditions observed in this tissue. Lens oxygen levels must remain low. Elevation of oxygen which occurs during vitreal detachment or liquification is associated with cataracts. We hypothesize that elevated oxygen could cause inhibition of PKCepsilon resulting in a loss of mitochondrial protection.
Protein kinase C (PKC) isoforms have been identified as major cellular signaling proteins that act directly in response to oxidation conditions. In retina and lens two isoforms of PKC respond to changes in oxidative stress, PKCγ and PKCɛ, while only PKCɛ is found in heart. In heart the PKCɛ acts on connexin 43 to protect from hypoxia. The presence of both isoforms in the lens led to this study to determine if lens PKCɛ had unique targets. Both lens epithelial cells in culture and whole mouse lens were examined using PKC isoform-specific enzyme activity assays, co-immunoprecipitation, confocal microscopy, immunoblots, and light and electron microscopy. PKCɛ was found in lens epithelium and cortex but not in the nucleus of mouse lens. The PKCɛ isoform was activated in both epithelium and whole lens by 5% oxygen when compared to activity at 21% oxygen. In hypoxic conditions (5% oxygen) the PKCɛ co-immunoprecipitated with the mitochondrial cytochrome c oxidase IV subunit (CytCOx). Concomitant with this the CytCOx enzyme activity was elevated and increased co-localization of CytCOx with PCKɛ was observed using immunolabeling and confocal microscopy. In contrast, no hypoxia-induced activation of CytCOx was observed in lenses from the PKCɛ knockout mice. Lens from 6-week-old PKCɛ knockout mice had a disorganized bow region which was filled with vacuoles indicating a possible loss of mitochondria but the size of the lens was not altered. Electron microscopy demonstrated that the nuclei of the PCKɛ knockout mice were abnormal in shape. Thus, PKCɛ is found to be activated by hypoxia and this results in the activation of the mitochondrial protein CytCOx. This could protect the lens from mitochondrial damage under the naturally hypoxic conditions observed in this tissue. Lens oxygen levels must remain low. Elevation of oxygen which occurs during vitreal detachment or liquification is associated with cataracts. We hypothesize that elevated oxygen could cause inhibition of PKCɛ resulting in a loss of mitochondrial protection.
Author Willard, Lloyd
Takemoto, Dolores
Lin, Dingbo
Akoyev, Vladimir
Barnett, Michael
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Keywords protein kinase C epsilon
cytochrome c oxidase IV
lens
mitochondria
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Snippet Protein kinase C (PKC) isoforms have been identified as major cellular signaling proteins that act directly in response to oxidation conditions. In retina and...
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SubjectTerms Animals
Cell Hypoxia - physiology
Cells, Cultured
cytochrome c oxidase IV
Electron Transport Complex IV - metabolism
Enzyme Activation - physiology
Hypoxia - enzymology
lens
Lens, Crystalline - enzymology
Lens, Crystalline - ultrastructure
Mice
Mice, Knockout
mitochondria
protein kinase C epsilon
Protein Kinase C-epsilon - genetics
Protein Kinase C-epsilon - physiology
Rabbits
Tissue Culture Techniques
Vacuoles - ultrastructure
Title Protein kinase C epsilon activates lens mitochondrial cytochrome c oxidase subunit IV during hypoxia
URI https://dx.doi.org/10.1016/j.exer.2007.10.012
https://www.ncbi.nlm.nih.gov/pubmed/18070622
https://search.proquest.com/docview/70299298
Volume 86
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