Transcriptional Changes in the Brains of Cattle Orally Infected with the Bovine Spongiform Encephalopathy Agent Precede Detection of Infectivity

Tang, Yue; Xiang, Wei; Hawkins, Steve; Kretzschmar, Hans A.; Windl, Otto

doi:10.1128/jvi.00352-09

Cited by 24 publications

(34 citation statements)

References 34 publications

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“…Although the brain tissues are severely damaged pathologically, the expression levels of prion protein gene PRNP do not differ distinctly compared with those of normal control, which is in accordance not only with the data of PRNP transcription in this patient with qRT-PCR, but also with the previous microarray findings in the sCJD patients (6), mice infected with scrapie or CJD agents (14) and cattle infected with the BSE agent (15). Maintenance of active transcription of the PRNP gene in CNS tissues at the terminal stage of human and animal prion diseases may indicate a special environment that facilitates the replication of prion agents locally by supplying enough PrP C as the substrates for PrP Sc replication.…”

Section: Discussionsupporting

confidence: 77%

“…The most differentially expressed genes in G114V gCJD seem to be involved in multiple cell processes, such as regulation of transcription, ion transport, cell adhesion, signal transduction, nervous system development, oxidation reduction, protein transport, RNA splicing and synaptic transmission. In the brains of naturally-occurring or experimental animal and human TSEs, as well as in some prion infected cell lines (5,6,(15)(16)(17), abnormal alterations in ion transportation, transcription, cell adhesion, signal transduction and synaptic transmission have been repeatedly observed. Numerous differentially expressed genes involved in different cell processes or networks in brain tissues of this G114V gCJD patient reflect an extensive brain dysfunction at the final period of the disease.…”

Section: Discussionmentioning

confidence: 99%

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Global transcriptional profiling of the postmortem brain of a patient with G114V genetic Creutzfeldt-Jakob disease

Tian

Chen

et al. 2013

International Journal of Molecular Medicine

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Abstract. Familial or genetic Creutzfeldt-Jakob disease (fCJD or gCJD) is an inherent human prion disease caused by mutation of the prion protein gene (PRNP). In the present study, global expression patterns of the parietal cortex from a patient with G114V gCJD were analyzed using the Affymetrix Human Genome U133+ 2.0 chip with a commercial normal human parietal cortex RNA pool as a normal control. In total, 8,774 genes showed differential expression; among them 2,769 genes were upregulated and 6,005 genes were downregulated. The reliability of the results was confirmed using real-time RT-PCR assays. The most differentially expressed genes (DEGs) were involved in transcription regulation, ion transport, transcription, cell adhesion, and signal transduction. The genes associated with gliosis were upregulated and the genes marked for neurons were downregulated, while the transcription of the PRNP gene remained unaltered. A total of 169 different pathways exhibited significant changes in the brain of G114V gCJD. The most significantly regulated pathways included Alzheimer's and Parkinson's disease, oxidative phosphorylation, regulation of actin cytoskeleton, MAPK signaling and proteasome, which have previously been linked to prion diseases. In addition, we found some pathways that have rarely been explored in regards to prion diseases that were also significantly altered in G114V gCJD, such as axon guidance, gap junction and purine metabolism. The majority of the genes in the 10 most altered pathways were downregulated. The data of the present study provide useful insights into the pathogenesis of G114V gCJD and potential biomarkers for diagnostic and therapeutic purposes. IntroductionPrion diseases, also known as transmissible spongiform encephalopathies (TSEs), are a group of fatal neurodegenerative disorders in humans and animals, including Creutzfeldt-Jakob disease (CJD) in humans, bovine spongiform encephalopathies (BSEs) in cattle, and scrapie in sheep and goats. The conversion of prion protein (PrP), coded by the PRNP gene, from its cellular isoform PrP C to its pathogenic isoform PrP Sc through a post-translational process is considered the etiology of these diseases. As a result of the conversion, the portion of β-sheets within PrP is increased (from 3 to 45%) whereas that of α-helices decreases (from 42 to 30%), therefore causing PrP to become detergent insoluble and resistant to denaturant (isoform PrP Sc ) (1). The conversion also causes a series of histopathological changes, including the depositions of PrP Sc , spongiform degenerations, neuronal loss and astrogliosis.According to the pathomechanisms, CJD can be classified into sporadic CJD (sCJD), familial or genetic CJD (fCJD or gCJD) and iatrogenic CJD (iCJD). fCJD accounts for approximately 10-15% of all CJD cases, characterized by the genetic changes of PrP (2). To date, 56 different mutations, including residue substitutions, insertions and deletions, have been reported (3). For instance, proline to leucine mutation at the 102nd position (P102L) ...

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Section: Discussionsupporting

confidence: 77%

Section: Discussionmentioning

confidence: 99%

Global transcriptional profiling of the postmortem brain of a patient with G114V genetic Creutzfeldt-Jakob disease

Tian

Chen

et al. 2013

International Journal of Molecular Medicine

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“…Recently, Tang et al (2009) identified 114 DE genes in brains of orally infected cattle vs uninfected controls and 10 DE genes identified by the authors were in common with our analysis. These genes may be an important key in pathogenic processes and need to be better investigated in animals with different genotypes, ages, doses of BSE infection and environment.…”

Section: Microarray Analysis Of De Genes Between Control and Bse-infesupporting

confidence: 61%

“…The common genes detected between our analysis and Tang et al (2009) were: S100 calcium binding and Calmodulin (up-regulated in both studies); Prolactin-related protein (downregulated in both studies); GTPase, IMAP family member, Histocompatibility complex, class II, Metallopeptidase (variable gene expression levels in the first study and up-regulated in our analyses) and Myosin, Glutathione S transferase A, Aldo-Keto reductase family and Nuclear receptor subfamily group H (down-regulated in the first study and up-regulated in our analysis). Notwithstanding these 10 genes that are in common between the studies, many genes identified were specific to one or the other study, which most likely is because different brain regions were used in the two studies: medulla was used in the present study while brain stem was examined by Tang et al (2009). Other factors that may have influenced the difference in results include the variation in the genetic composition of the animals; different microarray platforms and experimental conditions.…”

Section: Microarray Analysis Of De Genes Between Control and Bse-infementioning

confidence: 99%

Microarray analysis in caudal medulla of cattle orally challenged with bovine spongiform encephalopathy

Almeida

Basu²,

Williams³

et al. 2011

Genet. Mol. Res.

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ABSTRACT. Bovine spongiform encephalopathy (BSE) is a fatal disorder in cattle characterized by progressive neurodegeneration of the central nervous system. We investigated the molecular mechanisms involved in neurodegeneration during prion infection through the identification of genes that are differentially expressed (DE) between experimentally infected and non-challenged cattle. Gene expression of caudal medulla from control and orally infected animals was compared by microarray analysis using 24,000 bovine oligonucleotides representing 16,846 different genes to identify DE genes associated with BSE disease. In total, 182 DE genes were identified between normal and BSE-infected tissues (>2.0-fold change, P < 0.01); 81 DE genes had gene ontology functions, which included synapse function, calcium ion regulation, immune and inflammatory response, apoptosis, and cytoskeleton organization; 13 of these genes were found to be involved in 26 different Kyoto Encyclopedia of Genes and Genomes (KEGG) pathways. The expression of five DE genes associated with synapse function (tachykinin, synuclein, neuropeptide Y, cocaine, ©FUNPEC-RP www.funpecrp.com.br Genetics and Molecular Research 10 (4): 3948-3962 (2011) Microarray analysis of DE genes in BSE-infected medulla 3949amphetamine-responsive transcript, and synaptosomal-associated protein 25 kDa) and three DE genes associated with calcium ion regulation (parvalbumin, visinin-like, and cadherin) was further validated in the medulla tissue of cattle at different infection times (6, 12, 42, and 45 months post-infection) by qRT-PCR. These data will contribute to a better understanding of the molecular mechanisms of neuropathology in bovine species.

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“…Third, variations between individual animals may cause the different responses to BSE development. In the present study, data were only available for a single animal for each time point, and therefore Tang et al (2009), in which the largest numbers of differentially regulated genes were identified for 21 mo post infection brain as compared to the number of DE detected in the brain at 45 month post infection, supporting their speculation that global changes of gene expression activities are prior to the PrP BSE accumulation and the appearance of clinical signs. Findings of the large amount of DE gene at a preclinical stage suggest that these differences reflect probably a more specific prion-induced cellular response than those observed at the terminal stage of the disease when cells are seriously damaged.…”

Section: Microarray Analysis Of De Genes Between Control and Bse-infementioning

confidence: 79%

Gene Expression in the Medulla Following Oral Infection of Cattle with Bovine Spongiform Encephalopathy

Almeida

Basu

Khaniya

et al. 2011

Journal of Toxicology and Environmental Health, Part A

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The identification of variations in gene expression in response to bovine spongiform encephalopathy (BSE) may help to elucidate the mechanisms of neuropathology and prion replication and discover biomarkers for disease. In this study, genes that are differentially expressed in the caudal medulla tissues of animals infected with different doses of PrP(BSE) at 12 and 45 mo post infection were compared using array containing 24,000 oligonucleotide probes. Data analysis identified 966 differentially expressed (DE) genes between control and infected animals. Genes identified in at least two of four experiments (control versus 1-g infected animals at 12 and 45-mo; control versus 100-g infected animals at 12 and 45 mo) were considered to be the genes that may be associated with BSE disease. From the 176 DE genes associated with BSE, 84 had functions described in the Gene Ontology (GO) database. Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway analysis of 14 genes revealed that prion infection may cause dysfunction of several different networks, including extracellular matrix (ECM), cell adhesion, neuroactive ligand-receptor interaction, complement and coagulation cascades, MAPK signaling, neurodegenerative disorder, SNARE interactions in vesicular transport, and the transforming growth factor (TGF) beta signaling pathways. The identification of DE genes will contribute to a better understanding of the molecular mechanisms of neuropathology in bovine species. Additional studies on larger number of animals are in progress in our laboratory to investigate the roles of these DE genes in pathogenesis of BSE.

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Transcriptional Changes in the Brains of Cattle Orally Infected with the Bovine Spongiform Encephalopathy Agent Precede Detection of Infectivity

Cited by 24 publications

References 34 publications

Global transcriptional profiling of the postmortem brain of a patient with G114V genetic Creutzfeldt-Jakob disease

Global transcriptional profiling of the postmortem brain of a patient with G114V genetic Creutzfeldt-Jakob disease

Microarray analysis in caudal medulla of cattle orally challenged with bovine spongiform encephalopathy

Gene Expression in the Medulla Following Oral Infection of Cattle with Bovine Spongiform Encephalopathy

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