Localization of Metallothionein-I and -II in Hypertrophic Astrocytes in Brain Lesions of Dogs.

Shimada, Akinori; Uemura, Takashi; Yamamura, Yûichi; Kojima, Seiji; Morita, Takehito; Umemura, Takashi

doi:10.1292/jvms.60.351

Cited by 11 publications

(12 citation statements)

References 26 publications

(32 reference statements)

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…Altered calcium homeostasis is one of the features of traumatic injury, leading to excitotoxicity and cell death, both by necrotic and apoptotic mechanisms as well as learning impairment after traumatic injuries (see Won et al, 2002; for review). Furthermore, it is not surprising to find that calcium-related genes are down-regulated after cryolesion as this has been described previously both at at the protein and mRNA level for Calcium-calmodulin dependent protein kinase II (CamKII) after an ischemic insult (Shimada et al, 1998), epilepsy (Liang and Jones, 1997), and in an excitotoxic model in vitro (Churn et al, 1993). In this regard, the gene codifying for the isoform beta from CaMKII (EST, moderately similar to A47643 hypothetical protein-mouse, also known as calcium/calmodulin-dependent protein kinase II, beta-Camk2b-), although slightly increased in WT mice at 1 dpl was remarkably down-regulated in GFAP-IL6 mice at all time points.…”

Section: Neuronal Function and Calcium Homeostasis Is Altered By Cryomentioning

confidence: 65%

Effect of astrocyte‐targeted production of IL‐6 on traumatic brain injury and its impact on the cortical transcriptome

Quintana

Molinero

Borup

et al. 2007

Developmental Neurobiology

View full text Add to dashboard Cite

Interleukin-6 (IL-6) is one of the key players in the response of the brain cortex to injury. We have described previously that astrocyte-driven production of IL-6 (GFAP-IL6) in transgenic mice, although causing spontaneous neuroinflammation and long term damage, is beneficial after an acute (freeze) injury in the cortex, increasing healing and decreasing oxidative stress and apoptosis. To determine the transcriptional basis for these responses here we analyzed the global gene expression profile of the cortex, at 0 (unlesioned), 1 or 4 days post lesion (dpl), in both GFAP-IL6 mice and their control littermates. GFAP-IL6 mice showed an increase in genes associated with the inflammatory response both at 1 dpl (Iftm1, Endod1) and 4 dpl (Gfap, C4b), decreased expression of proapoptotic genes (i.e. Gadd45b, Clic4, p21) as well as reduced expression of genes involved in the control of oxidative stress (Atf4). Furthermore, the presence of IL-6 altered the expression of genes involved in hemostasis (Vwf), cell migration and proliferation (Cap2), and synaptic activity (Vamp2). All these changes in gene expression could underlie the phenotype of the GFAP-IL6 mice after injury, but many other possible factors were also identified in this study, highlighting the utility of this approach for deciphering new pathways orchestrated by IL-6.

show abstract

Section: Neuronal Function and Calcium Homeostasis Is Altered By Cryomentioning

confidence: 65%

Effect of astrocyte‐targeted production of IL‐6 on traumatic brain injury and its impact on the cortical transcriptome

Quintana

Molinero

Borup

et al. 2007

Developmental Neurobiology

View full text Add to dashboard Cite

show abstract

“…In healthy dogs raised in open air, MTI-II immunoreactivity is observed in olfactory epithelium sustentacular cells, and in astrocytes of all layers of the olfactory bulb (98). MTI-II is also seen in hypertrophic astrocytes associated with a variety of brain lesions in dogs, suggesting that MT is also involved in repair of injured neural tissues (99).…”

Section: Discussionmentioning

confidence: 99%

DNA Damage in Nasal and Brain Tissues of Canines Exposed to Air Pollutants Is Associated with Evidence of Chronic Brain Inflammation and Neurodegeneration

et al. 2003

View full text Add to dashboard Cite

Acute, subchronic, or chronic exposures to particulate matter (PM) and pollutant gases affect people in urban areas and those exposed to fires, disasters, and wars. Respiratory tract inflammation, production of mediators of inflammation capable of reaching the brain, systemic circulation of PM, and disruption of the nasal respiratory and olfactory barriers are likely in these populations. DNA damage is crucial in aging and in age-associated diseases such as Alzheimer's disease. We evaluated apurinic/apyrimidinic (AP) sites in nasal and brain genomic DNA, and explored by immunohistochemistry the expression of nuclear factor NFkappaB p65, inducible nitric oxide synthase (iNOS), cyclo-oxygenase 2 (COX2), metallothionein I and II, apolipoprotein E, amyloid precursor protein (APP), and beta-amyloid(1-42) in healthy dogs naturally exposed to urban pollution in Mexico City. Nickel (Ni) and vanadium (V) were measured by inductively coupled plasma mass spectrometry (ICP-MS). Forty mongrel dogs, ages 7 days-10 years were studied (14 controls from Tlaxcala and 26 exposed to urban pollution in South West Metropolitan Mexico City (SWMMC)). Nasal respiratory and olfactory epithelium were found to be early pollutant targets. Olfactory bulb and hippocampal AP sites were significantly higher in exposed than in control age matched animals. Ni and V were present in a gradient from olfactory mucosa > olfactory bulb > frontal cortex. Exposed dogs had (a) nuclear neuronal NFkappaB p65, (b) endothelial, glial and neuronal iNOS, (c) endothelial and glial COX2, (d) ApoE in neuronal, glial and vascular cells, and (e) APP and beta amyloid(1-42) in neurons, diffuse plaques (the earliest at age 11 months), and in subarachnoid blood vessels. Increased AP sites and the inflammatory and stress protein brain responses were early and significant in dogs exposed to urban pollution. Oil combustion PM-associated metals Ni and V were detected in the brain. There was an acceleration of Alzheimer's-type pathology in dogs chronically exposed to air pollutants. Respiratory tract inflammation and deteriorating olfactory and respiratory barriers may play a role in the observed neuropathology. These data suggest that Alzheimer's disease may be the sequela of air pollutant exposures and the resulting systemic inflammation.

show abstract

“…In addition, increased paramagnetic susceptibility change (hypointensity) was noted on the right putamen in the first and the third cases, suggesting the possibility of paramagnetic mineral deposition. The gemistocytic astrocytes express metallothionein that maintains a steady-state concentration of zinc and protects the neurons from free radicals injury (16). High concentrations of copper and iron are demonstrated in the hypertrophied astrocytes expressed in an ischemic human brain (17).…”

Section: Discussionmentioning

confidence: 99%

Concepts and controversies in nonketotic hyperglycemia‐induced hemichorea: Further evidence from susceptibility‐weighted MR imaging

Cherian

Thomas

Baheti

et al. 2009

Magnetic Resonance Imaging

View full text Add to dashboard Cite

Hyperglycemia-induced hemichorea can show T1 hyperintensity of the contralateral striatum on MRI. This is thought to be due to petechial hemorrhages or gemistocytic astrocyte accumulation. This study explores the utility of susceptibility-weighted imaging (SWI) and diffusionweighted imaging (DWI) in identifying the nature of these lesions. Three patients underwent MR imaging of the brain with SE T1, F SE T2, DWI, and SWI. T1 images showed hyperintensity predominantly involving the contralateral striatum, where mild (two cases) to moderate (one case) restricted diffusion (low apparent diffusion coefficient [ADC]) was detected on DWI. SWI demonstrated bilateral symmetrical hypointensities in the first two cases, suggesting age associated mineralization. In addition, increased susceptibility change (hypointensity) was also noted in the right putamen in the first and the third cases, suggesting paramagnetic mineral deposition. T1 hyperintensity may be from the protein hydration layer inside the cytoplasm of swollen gemistocytes appearing after an acute cerebral injury. These astrocytes also express metallothionein with zinc, which is thought to be the cause of asymmetric hypointensity of the posterior putamen on SWI. ADC values were thought to be useful for prognostication; however, they should be interpreted cautiously in the presence of susceptibility changes.

show abstract

Localization of Metallothionein-I and -II in Hypertrophic Astrocytes in Brain Lesions of Dogs.

Cited by 11 publications

References 26 publications

Effect of astrocyte‐targeted production of IL‐6 on traumatic brain injury and its impact on the cortical transcriptome

Effect of astrocyte‐targeted production of IL‐6 on traumatic brain injury and its impact on the cortical transcriptome

DNA Damage in Nasal and Brain Tissues of Canines Exposed to Air Pollutants Is Associated with Evidence of Chronic Brain Inflammation and Neurodegeneration

Concepts and controversies in nonketotic hyperglycemia‐induced hemichorea: Further evidence from susceptibility‐weighted MR imaging

Contact Info

Product

Resources

About