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Altered hippocampal gene expression prior to the onset of spontaneous seizures in the rat post-status epilepticus model
Neuronal loss, gliosis and axonal sprouting in the hippocampal formation are characteristics of the syndrome of mesial temporal sclerosis (MTS). In the post‐status epilepticus (SE) rat model of spontaneous seizures these features of the MTS syndrome can be reproduced. To get a global view of the cha...
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| Published in: | The European journal of neuroscience 2001-11, Vol.14 (9), p.1475-1484 |
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| container_title | The European journal of neuroscience |
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| creator | Hendriksen, H. Datson, Nicole A. Ghijsen, Wim E. J. M. Van Vliet, Erwin A. Da Silva, Fernando H. Lopes Gorter, Jan A. Vreugdenhil, Erno |
| description | Neuronal loss, gliosis and axonal sprouting in the hippocampal formation are characteristics of the syndrome of mesial temporal sclerosis (MTS). In the post‐status epilepticus (SE) rat model of spontaneous seizures these features of the MTS syndrome can be reproduced. To get a global view of the changes in gene expression in the hippocampus we applied serial analysis of gene expression (SAGE) during the early phase of epileptogenesis (latent period), prior to the onset of the first spontaneous seizure. A total of 10 000 SAGE tags were analyzed per experimental group, resulting in 5053 (SE) and 5918 (control group) unique tags (genes), each representing a specific mRNA transcript. Of these, 92 genes were differentially expressed in the hippocampus of post‐SE rats in comparison to controls. These genes appeared to be mainly associated with ribosomal proteins, protein processing, axonal growth and glial proliferation proteins. Verification of two of the differentially expressed genes by in situ hybridization confirmed the changes found by SAGE. Histological analysis of hippocampal sections obtained 8 days after SE showed extensive cell loss, mossy fibre sprouting and gliosis in hippocampal sub regions. This study identifies new high‐abundant genes that may play an important role in post‐SE epileptogenesis. |
| doi_str_mv | 10.1046/j.0953-816x.2001.01778.x |
| format | article |
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Of these, 92 genes were differentially expressed in the hippocampus of post‐SE rats in comparison to controls. These genes appeared to be mainly associated with ribosomal proteins, protein processing, axonal growth and glial proliferation proteins. Verification of two of the differentially expressed genes by in situ hybridization confirmed the changes found by SAGE. Histological analysis of hippocampal sections obtained 8 days after SE showed extensive cell loss, mossy fibre sprouting and gliosis in hippocampal sub regions. 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J. M.</creatorcontrib><creatorcontrib>Van Vliet, Erwin A.</creatorcontrib><creatorcontrib>Da Silva, Fernando H. Lopes</creatorcontrib><creatorcontrib>Gorter, Jan A.</creatorcontrib><creatorcontrib>Vreugdenhil, Erno</creatorcontrib><title>Altered hippocampal gene expression prior to the onset of spontaneous seizures in the rat post-status epilepticus model</title><title>The European journal of neuroscience</title><addtitle>Eur J Neurosci</addtitle><description>Neuronal loss, gliosis and axonal sprouting in the hippocampal formation are characteristics of the syndrome of mesial temporal sclerosis (MTS). In the post‐status epilepticus (SE) rat model of spontaneous seizures these features of the MTS syndrome can be reproduced. To get a global view of the changes in gene expression in the hippocampus we applied serial analysis of gene expression (SAGE) during the early phase of epileptogenesis (latent period), prior to the onset of the first spontaneous seizure. A total of 10 000 SAGE tags were analyzed per experimental group, resulting in 5053 (SE) and 5918 (control group) unique tags (genes), each representing a specific mRNA transcript. Of these, 92 genes were differentially expressed in the hippocampus of post‐SE rats in comparison to controls. These genes appeared to be mainly associated with ribosomal proteins, protein processing, axonal growth and glial proliferation proteins. Verification of two of the differentially expressed genes by in situ hybridization confirmed the changes found by SAGE. Histological analysis of hippocampal sections obtained 8 days after SE showed extensive cell loss, mossy fibre sprouting and gliosis in hippocampal sub regions. This study identifies new high‐abundant genes that may play an important role in post‐SE epileptogenesis.</description><subject>Animals</subject><subject>Base Sequence - genetics</subject><subject>Clusterin</subject><subject>Disease Models, Animal</subject><subject>Down-Regulation - genetics</subject><subject>Electroencephalography</subject><subject>Epilepsy - genetics</subject><subject>Epilepsy - metabolism</subject><subject>Epilepsy - pathology</subject><subject>Epilepsy, Temporal Lobe - genetics</subject><subject>Epilepsy, Temporal Lobe - metabolism</subject><subject>Epilepsy, Temporal Lobe - pathology</subject><subject>epileptogenesis</subject><subject>Gene Expression Regulation - physiology</subject><subject>Genetic Markers - genetics</subject><subject>Glycoproteins - genetics</subject><subject>Glycoproteins - metabolism</subject><subject>hippocampus</subject><subject>Hippocampus - metabolism</subject><subject>Hippocampus - pathology</subject><subject>Hippocampus - physiopathology</subject><subject>Immunohistochemistry</subject><subject>latent period</subject><subject>Male</subject><subject>Membrane Potentials - physiology</subject><subject>Molecular Chaperones - genetics</subject><subject>Molecular Chaperones - metabolism</subject><subject>mRNA</subject><subject>Nerve Degeneration - metabolism</subject><subject>Nerve Degeneration - pathology</subject><subject>Nerve Degeneration - physiopathology</subject><subject>Nerve Regeneration - genetics</subject><subject>Nerve Tissue Proteins - genetics</subject><subject>Nerve Tissue Proteins - metabolism</subject><subject>Neurons - metabolism</subject><subject>Neurons - pathology</subject><subject>Rats</subject><subject>Rats, Sprague-Dawley</subject><subject>RNA, Messenger - metabolism</subject><subject>SAGE</subject><subject>Status Epilepticus - genetics</subject><subject>Status Epilepticus - metabolism</subject><subject>Status Epilepticus - pathology</subject><subject>tag</subject><subject>Time Factors</subject><subject>Transcription, Genetic - genetics</subject><subject>Tubulin - genetics</subject><subject>Tubulin - metabolism</subject><subject>Up-Regulation - genetics</subject><issn>0953-816X</issn><issn>1460-9568</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2001</creationdate><recordtype>article</recordtype><recordid>eNqNkc1u1DAURi0EotPCKyCvEJsEO47tZMGiqsq0qCqg8reznOQO9ZDExvaoaZ--TjPQHWLlK_mca-v7EMKU5JSU4u02JzVnWUXFlBeE0JxQKat8eoJWtBQkq7monqLVH-jHAToMYUsIqUTJn6MDSmVRCFKv0M1xH8FDh6-Nc7bVg9M9_gkjYJichxCMHbHzxnocLY7XgO0YIGK7wcHZMeoR7C7gAOZul3BsxgfI64idDTELUcd0D8704KJp0zzYDvoX6NlG9wFe7s8j9PX96ZeTs-zi4_r85PgiazkpqqyEsuoYK0lN25LTsilE20gm2rprOi0lZQWQlm5kKWVNWC1owzSrgTV1J6Tg7Ai9XvY6b3_vIEQ1mNBC3y8fV7JghAlGE_jmnyCtUnhccikSWi1o620IHjYqBTRof6soUXM_aqvm6NXcj5r7UQ_9qCmpr_av7JoBukdxX0gC3i3ATQrs9r8Xq9MPl_OU_GzxTYgw_fW1_6WEZJKr75drJT9ffVpzdqW-sXt8mq_v</recordid><startdate>200111</startdate><enddate>200111</enddate><creator>Hendriksen, H.</creator><creator>Datson, Nicole A.</creator><creator>Ghijsen, Wim E. 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Lopes ; Gorter, Jan A. ; Vreugdenhil, Erno</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c5028-4e48d334091c4514b26cb736c9dbda77132e0c1f7477903961b3a39e3b9d67653</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2001</creationdate><topic>Animals</topic><topic>Base Sequence - genetics</topic><topic>Clusterin</topic><topic>Disease Models, Animal</topic><topic>Down-Regulation - genetics</topic><topic>Electroencephalography</topic><topic>Epilepsy - genetics</topic><topic>Epilepsy - metabolism</topic><topic>Epilepsy - pathology</topic><topic>Epilepsy, Temporal Lobe - genetics</topic><topic>Epilepsy, Temporal Lobe - metabolism</topic><topic>Epilepsy, Temporal Lobe - pathology</topic><topic>epileptogenesis</topic><topic>Gene Expression Regulation - physiology</topic><topic>Genetic Markers - genetics</topic><topic>Glycoproteins - genetics</topic><topic>Glycoproteins - metabolism</topic><topic>hippocampus</topic><topic>Hippocampus - metabolism</topic><topic>Hippocampus - pathology</topic><topic>Hippocampus - physiopathology</topic><topic>Immunohistochemistry</topic><topic>latent period</topic><topic>Male</topic><topic>Membrane Potentials - physiology</topic><topic>Molecular Chaperones - genetics</topic><topic>Molecular Chaperones - metabolism</topic><topic>mRNA</topic><topic>Nerve Degeneration - metabolism</topic><topic>Nerve Degeneration - pathology</topic><topic>Nerve Degeneration - physiopathology</topic><topic>Nerve Regeneration - genetics</topic><topic>Nerve Tissue Proteins - genetics</topic><topic>Nerve Tissue Proteins - metabolism</topic><topic>Neurons - metabolism</topic><topic>Neurons - pathology</topic><topic>Rats</topic><topic>Rats, Sprague-Dawley</topic><topic>RNA, Messenger - metabolism</topic><topic>SAGE</topic><topic>Status Epilepticus - genetics</topic><topic>Status Epilepticus - metabolism</topic><topic>Status Epilepticus - pathology</topic><topic>tag</topic><topic>Time Factors</topic><topic>Transcription, Genetic - genetics</topic><topic>Tubulin - genetics</topic><topic>Tubulin - metabolism</topic><topic>Up-Regulation - genetics</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Hendriksen, H.</creatorcontrib><creatorcontrib>Datson, Nicole A.</creatorcontrib><creatorcontrib>Ghijsen, Wim E. J. M.</creatorcontrib><creatorcontrib>Van Vliet, Erwin A.</creatorcontrib><creatorcontrib>Da Silva, Fernando H. Lopes</creatorcontrib><creatorcontrib>Gorter, Jan A.</creatorcontrib><creatorcontrib>Vreugdenhil, Erno</creatorcontrib><collection>Istex</collection><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>Neurosciences Abstracts</collection><collection>MEDLINE - Academic</collection><jtitle>The European journal of neuroscience</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Hendriksen, H.</au><au>Datson, Nicole A.</au><au>Ghijsen, Wim E. J. M.</au><au>Van Vliet, Erwin A.</au><au>Da Silva, Fernando H. Lopes</au><au>Gorter, Jan A.</au><au>Vreugdenhil, Erno</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Altered hippocampal gene expression prior to the onset of spontaneous seizures in the rat post-status epilepticus model</atitle><jtitle>The European journal of neuroscience</jtitle><addtitle>Eur J Neurosci</addtitle><date>2001-11</date><risdate>2001</risdate><volume>14</volume><issue>9</issue><spage>1475</spage><epage>1484</epage><pages>1475-1484</pages><issn>0953-816X</issn><eissn>1460-9568</eissn><abstract>Neuronal loss, gliosis and axonal sprouting in the hippocampal formation are characteristics of the syndrome of mesial temporal sclerosis (MTS). In the post‐status epilepticus (SE) rat model of spontaneous seizures these features of the MTS syndrome can be reproduced. To get a global view of the changes in gene expression in the hippocampus we applied serial analysis of gene expression (SAGE) during the early phase of epileptogenesis (latent period), prior to the onset of the first spontaneous seizure. A total of 10 000 SAGE tags were analyzed per experimental group, resulting in 5053 (SE) and 5918 (control group) unique tags (genes), each representing a specific mRNA transcript. Of these, 92 genes were differentially expressed in the hippocampus of post‐SE rats in comparison to controls. These genes appeared to be mainly associated with ribosomal proteins, protein processing, axonal growth and glial proliferation proteins. Verification of two of the differentially expressed genes by in situ hybridization confirmed the changes found by SAGE. Histological analysis of hippocampal sections obtained 8 days after SE showed extensive cell loss, mossy fibre sprouting and gliosis in hippocampal sub regions. This study identifies new high‐abundant genes that may play an important role in post‐SE epileptogenesis.</abstract><cop>Oxford, UK</cop><pub>Blackwell Science Ltd</pub><pmid>11722609</pmid><doi>10.1046/j.0953-816x.2001.01778.x</doi><tpages>10</tpages></addata></record> |
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| subjects | Animals Base Sequence - genetics Clusterin Disease Models, Animal Down-Regulation - genetics Electroencephalography Epilepsy - genetics Epilepsy - metabolism Epilepsy - pathology Epilepsy, Temporal Lobe - genetics Epilepsy, Temporal Lobe - metabolism Epilepsy, Temporal Lobe - pathology epileptogenesis Gene Expression Regulation - physiology Genetic Markers - genetics Glycoproteins - genetics Glycoproteins - metabolism hippocampus Hippocampus - metabolism Hippocampus - pathology Hippocampus - physiopathology Immunohistochemistry latent period Male Membrane Potentials - physiology Molecular Chaperones - genetics Molecular Chaperones - metabolism mRNA Nerve Degeneration - metabolism Nerve Degeneration - pathology Nerve Degeneration - physiopathology Nerve Regeneration - genetics Nerve Tissue Proteins - genetics Nerve Tissue Proteins - metabolism Neurons - metabolism Neurons - pathology Rats Rats, Sprague-Dawley RNA, Messenger - metabolism SAGE Status Epilepticus - genetics Status Epilepticus - metabolism Status Epilepticus - pathology tag Time Factors Transcription, Genetic - genetics Tubulin - genetics Tubulin - metabolism Up-Regulation - genetics |
| title | Altered hippocampal gene expression prior to the onset of spontaneous seizures in the rat post-status epilepticus model |
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