Assessment of amyloid β-protein precursor gene mutations in a large set of familial and sporadic Alzheimer disease cases
A genetic locus associated with familial Alzheimer disease (FAD) and a candidate gene, APP, encoding the amyloid protein precursor have both been assigned previously to chromosome 21, and, in a few FAD families, mutations of APP have been detected. However, obligate crossovers between APP and FAD ha...
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| Veröffentlicht in: | American journal of human genetics 1992-08, Vol.51 (2), p.273-282 |
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| creator | TANZI, R. E VAULA, G KALAITSIDAKI, M WARREN, A. C MCINNIS, M. C ANTONARAKIS, S. E KARLINSKY, H PERCY, M. E CONNOR, L GROWDON, J CRAPPER-MCLACHLAN, D. R GUSELLA, J. F ROMANO, D. M GEORGE-HYSLOP, P. H. S MORTILLA, M HUANG, T. L TUPLER, R. G WASCO, W HYMAN, B. T HAINES, J. L JENKINS, B. J |
| description | A genetic locus associated with familial Alzheimer disease (FAD) and a candidate gene, APP, encoding the amyloid protein precursor have both been assigned previously to chromosome 21, and, in a few FAD families, mutations of APP have been detected. However, obligate crossovers between APP and FAD have also been reported in several FAD pedigrees, including FAD4, a large kindred showing highly suggestive evidence for linkage of the disorder to chromosome 21. In case the apparent APP crossover in FAD4 actually represented an intragenic recombination event or segregation of different mutations in different family branches, we have performed a more detailed assessment of APP as a candidate gene in this family. The entire coding region of the APP gene was sequenced for FAD4 and for FAD1, a second large kindred. No mutations were found, indicating that, in at least one chromosome 21-linked FAD pedigree, the gene defect is not accounted for by a mutation in the known coding region of the APP gene. A total of 25 well-characterized early- and late-onset FAD pedigrees were typed for genetic linkage to APP, to assess the percentage of FAD families predicted to carry mutations in the APP gene. None of the FAD families yielded positive lod scores at a recombination fraction of 0.0. To estimate the overall prevalence of FAD-associated mutations in the beta A4 domain of APP, we sequenced exons 16 and 17 in 30 (20 early- and 10 late-onset) FAD kindreds and in 11 sporadic AD cases, and we screened 56 FAD kindreds and 81 cases of sporadic AD for the presence of the originally reported FAD-associated mutation, APP717 Val---Ile (by BclI digestion). No APP gene mutations were found in any of the FAD families or sporadic-AD samples examined in this study, suggesting that the mutations in exons 16 and 17 are a rare cause of FAD. Overall, these data suggest that APP gene mutations account for a very small portion of FAD. |
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E ; VAULA, G ; KALAITSIDAKI, M ; WARREN, A. C ; MCINNIS, M. C ; ANTONARAKIS, S. E ; KARLINSKY, H ; PERCY, M. E ; CONNOR, L ; GROWDON, J ; CRAPPER-MCLACHLAN, D. R ; GUSELLA, J. F ; ROMANO, D. M ; GEORGE-HYSLOP, P. H. S ; MORTILLA, M ; HUANG, T. L ; TUPLER, R. G ; WASCO, W ; HYMAN, B. T ; HAINES, J. L ; JENKINS, B. J</creator><creatorcontrib>TANZI, R. E ; VAULA, G ; KALAITSIDAKI, M ; WARREN, A. C ; MCINNIS, M. C ; ANTONARAKIS, S. E ; KARLINSKY, H ; PERCY, M. E ; CONNOR, L ; GROWDON, J ; CRAPPER-MCLACHLAN, D. R ; GUSELLA, J. F ; ROMANO, D. M ; GEORGE-HYSLOP, P. H. S ; MORTILLA, M ; HUANG, T. L ; TUPLER, R. G ; WASCO, W ; HYMAN, B. T ; HAINES, J. L ; JENKINS, B. J</creatorcontrib><description>A genetic locus associated with familial Alzheimer disease (FAD) and a candidate gene, APP, encoding the amyloid protein precursor have both been assigned previously to chromosome 21, and, in a few FAD families, mutations of APP have been detected. However, obligate crossovers between APP and FAD have also been reported in several FAD pedigrees, including FAD4, a large kindred showing highly suggestive evidence for linkage of the disorder to chromosome 21. In case the apparent APP crossover in FAD4 actually represented an intragenic recombination event or segregation of different mutations in different family branches, we have performed a more detailed assessment of APP as a candidate gene in this family. The entire coding region of the APP gene was sequenced for FAD4 and for FAD1, a second large kindred. No mutations were found, indicating that, in at least one chromosome 21-linked FAD pedigree, the gene defect is not accounted for by a mutation in the known coding region of the APP gene. A total of 25 well-characterized early- and late-onset FAD pedigrees were typed for genetic linkage to APP, to assess the percentage of FAD families predicted to carry mutations in the APP gene. None of the FAD families yielded positive lod scores at a recombination fraction of 0.0. To estimate the overall prevalence of FAD-associated mutations in the beta A4 domain of APP, we sequenced exons 16 and 17 in 30 (20 early- and 10 late-onset) FAD kindreds and in 11 sporadic AD cases, and we screened 56 FAD kindreds and 81 cases of sporadic AD for the presence of the originally reported FAD-associated mutation, APP717 Val---Ile (by BclI digestion). No APP gene mutations were found in any of the FAD families or sporadic-AD samples examined in this study, suggesting that the mutations in exons 16 and 17 are a rare cause of FAD. Overall, these data suggest that APP gene mutations account for a very small portion of FAD.</description><identifier>ISSN: 0002-9297</identifier><identifier>EISSN: 1537-6605</identifier><identifier>PMID: 1642228</identifier><identifier>CODEN: AJHGAG</identifier><language>eng</language><publisher>Chicago, IL: University of Chicago Press</publisher><subject>Alzheimer Disease - diagnosis ; Alzheimer Disease - genetics ; Alzheimer's disease ; amyloid beta -protein ; Amyloid beta-Protein Precursor - genetics ; Base Sequence ; Biological and medical sciences ; Degenerative and inherited degenerative diseases of the nervous system. Leukodystrophies. Prion diseases ; DNA - genetics ; DNA Mutational Analysis ; genes ; Humans ; Isoleucine - genetics ; Male ; man ; Medical sciences ; Middle Aged ; Molecular Sequence Data ; Mutation ; Neurology ; Original ; Pedigree ; Polymerase Chain Reaction ; precursors ; Recombination, Genetic ; Valine - genetics</subject><ispartof>American journal of human genetics, 1992-08, Vol.51 (2), p.273-282</ispartof><rights>1992 INIST-CNRS</rights><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><linktopdf>$$Uhttps://www.ncbi.nlm.nih.gov/pmc/articles/PMC1682666/pdf/$$EPDF$$P50$$Gpubmedcentral$$H</linktopdf><linktohtml>$$Uhttps://www.ncbi.nlm.nih.gov/pmc/articles/PMC1682666/$$EHTML$$P50$$Gpubmedcentral$$H</linktohtml><link.rule.ids>230,314,723,776,780,881,53766,53768</link.rule.ids><backlink>$$Uhttp://pascal-francis.inist.fr/vibad/index.php?action=getRecordDetail&idt=5465018$$DView record in Pascal Francis$$Hfree_for_read</backlink><backlink>$$Uhttps://www.ncbi.nlm.nih.gov/pubmed/1642228$$D View this record in MEDLINE/PubMed$$Hfree_for_read</backlink></links><search><creatorcontrib>TANZI, R. E</creatorcontrib><creatorcontrib>VAULA, G</creatorcontrib><creatorcontrib>KALAITSIDAKI, M</creatorcontrib><creatorcontrib>WARREN, A. C</creatorcontrib><creatorcontrib>MCINNIS, M. C</creatorcontrib><creatorcontrib>ANTONARAKIS, S. E</creatorcontrib><creatorcontrib>KARLINSKY, H</creatorcontrib><creatorcontrib>PERCY, M. E</creatorcontrib><creatorcontrib>CONNOR, L</creatorcontrib><creatorcontrib>GROWDON, J</creatorcontrib><creatorcontrib>CRAPPER-MCLACHLAN, D. R</creatorcontrib><creatorcontrib>GUSELLA, J. F</creatorcontrib><creatorcontrib>ROMANO, D. M</creatorcontrib><creatorcontrib>GEORGE-HYSLOP, P. H. S</creatorcontrib><creatorcontrib>MORTILLA, M</creatorcontrib><creatorcontrib>HUANG, T. L</creatorcontrib><creatorcontrib>TUPLER, R. G</creatorcontrib><creatorcontrib>WASCO, W</creatorcontrib><creatorcontrib>HYMAN, B. T</creatorcontrib><creatorcontrib>HAINES, J. L</creatorcontrib><creatorcontrib>JENKINS, B. J</creatorcontrib><title>Assessment of amyloid β-protein precursor gene mutations in a large set of familial and sporadic Alzheimer disease cases</title><title>American journal of human genetics</title><addtitle>Am J Hum Genet</addtitle><description>A genetic locus associated with familial Alzheimer disease (FAD) and a candidate gene, APP, encoding the amyloid protein precursor have both been assigned previously to chromosome 21, and, in a few FAD families, mutations of APP have been detected. However, obligate crossovers between APP and FAD have also been reported in several FAD pedigrees, including FAD4, a large kindred showing highly suggestive evidence for linkage of the disorder to chromosome 21. In case the apparent APP crossover in FAD4 actually represented an intragenic recombination event or segregation of different mutations in different family branches, we have performed a more detailed assessment of APP as a candidate gene in this family. The entire coding region of the APP gene was sequenced for FAD4 and for FAD1, a second large kindred. No mutations were found, indicating that, in at least one chromosome 21-linked FAD pedigree, the gene defect is not accounted for by a mutation in the known coding region of the APP gene. A total of 25 well-characterized early- and late-onset FAD pedigrees were typed for genetic linkage to APP, to assess the percentage of FAD families predicted to carry mutations in the APP gene. None of the FAD families yielded positive lod scores at a recombination fraction of 0.0. To estimate the overall prevalence of FAD-associated mutations in the beta A4 domain of APP, we sequenced exons 16 and 17 in 30 (20 early- and 10 late-onset) FAD kindreds and in 11 sporadic AD cases, and we screened 56 FAD kindreds and 81 cases of sporadic AD for the presence of the originally reported FAD-associated mutation, APP717 Val---Ile (by BclI digestion). No APP gene mutations were found in any of the FAD families or sporadic-AD samples examined in this study, suggesting that the mutations in exons 16 and 17 are a rare cause of FAD. Overall, these data suggest that APP gene mutations account for a very small portion of FAD.</description><subject>Alzheimer Disease - diagnosis</subject><subject>Alzheimer Disease - genetics</subject><subject>Alzheimer's disease</subject><subject>amyloid beta -protein</subject><subject>Amyloid beta-Protein Precursor - genetics</subject><subject>Base Sequence</subject><subject>Biological and medical sciences</subject><subject>Degenerative and inherited degenerative diseases of the nervous system. Leukodystrophies. Prion diseases</subject><subject>DNA - genetics</subject><subject>DNA Mutational Analysis</subject><subject>genes</subject><subject>Humans</subject><subject>Isoleucine - genetics</subject><subject>Male</subject><subject>man</subject><subject>Medical sciences</subject><subject>Middle Aged</subject><subject>Molecular Sequence Data</subject><subject>Mutation</subject><subject>Neurology</subject><subject>Original</subject><subject>Pedigree</subject><subject>Polymerase Chain Reaction</subject><subject>precursors</subject><subject>Recombination, Genetic</subject><subject>Valine - genetics</subject><issn>0002-9297</issn><issn>1537-6605</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>1992</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNqFkc9q3EAMh01JSLZJHyEwh5CbYf7bvhSW0KaFQC_t2WhnNJsJY487sgPbx-qD9JlqmiU0p1ykw_fTh4TeVRthVFNby81JteGcy7qTXXNevSd65FyIlquz6kxYLaVsN9VhS4REA44zy4HBcEg5evbndz2VPGMc2VTQLYVyYXsckQ3LDHPMI7GVAUtQ9sgI_00HGGKKkBiMntGUC_jo2Db9esA4YGE-EgIhc2uhy-o0QCL8cOwX1Y_Pn77ffqnvv919vd3e15OSYq5BB6lAKtk4bWwwemck541qQ7ezwSsVtOAtOq51K40PrQ-2Ae07oTrjd1pdVB-fvdOyG9C79dICqZ9KHKAc-gyxf03G-NDv81MvbCuttavg5igo-eeCNPdDJIcpwYh5ob5RggurujeDwq4-2ag1ePX_Si-7HL-y8usjB3KQQoHRRXqJGW0NF636C2ZRmX4</recordid><startdate>19920801</startdate><enddate>19920801</enddate><creator>TANZI, R. E</creator><creator>VAULA, G</creator><creator>KALAITSIDAKI, M</creator><creator>WARREN, A. C</creator><creator>MCINNIS, M. C</creator><creator>ANTONARAKIS, S. E</creator><creator>KARLINSKY, H</creator><creator>PERCY, M. E</creator><creator>CONNOR, L</creator><creator>GROWDON, J</creator><creator>CRAPPER-MCLACHLAN, D. R</creator><creator>GUSELLA, J. F</creator><creator>ROMANO, D. M</creator><creator>GEORGE-HYSLOP, P. H. S</creator><creator>MORTILLA, M</creator><creator>HUANG, T. L</creator><creator>TUPLER, R. G</creator><creator>WASCO, W</creator><creator>HYMAN, B. T</creator><creator>HAINES, J. L</creator><creator>JENKINS, B. J</creator><general>University of Chicago Press</general><scope>IQODW</scope><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>7T3</scope><scope>8FD</scope><scope>FR3</scope><scope>P64</scope><scope>RC3</scope><scope>7X8</scope><scope>5PM</scope></search><sort><creationdate>19920801</creationdate><title>Assessment of amyloid β-protein precursor gene mutations in a large set of familial and sporadic Alzheimer disease cases</title><author>TANZI, R. E ; VAULA, G ; KALAITSIDAKI, M ; WARREN, A. C ; MCINNIS, M. C ; ANTONARAKIS, S. E ; KARLINSKY, H ; PERCY, M. E ; CONNOR, L ; GROWDON, J ; CRAPPER-MCLACHLAN, D. R ; GUSELLA, J. F ; ROMANO, D. M ; GEORGE-HYSLOP, P. H. S ; MORTILLA, M ; HUANG, T. L ; TUPLER, R. G ; WASCO, W ; HYMAN, B. T ; HAINES, J. L ; JENKINS, B. 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Prion diseases</topic><topic>DNA - genetics</topic><topic>DNA Mutational Analysis</topic><topic>genes</topic><topic>Humans</topic><topic>Isoleucine - genetics</topic><topic>Male</topic><topic>man</topic><topic>Medical sciences</topic><topic>Middle Aged</topic><topic>Molecular Sequence Data</topic><topic>Mutation</topic><topic>Neurology</topic><topic>Original</topic><topic>Pedigree</topic><topic>Polymerase Chain Reaction</topic><topic>precursors</topic><topic>Recombination, Genetic</topic><topic>Valine - genetics</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>TANZI, R. E</creatorcontrib><creatorcontrib>VAULA, G</creatorcontrib><creatorcontrib>KALAITSIDAKI, M</creatorcontrib><creatorcontrib>WARREN, A. C</creatorcontrib><creatorcontrib>MCINNIS, M. C</creatorcontrib><creatorcontrib>ANTONARAKIS, S. E</creatorcontrib><creatorcontrib>KARLINSKY, H</creatorcontrib><creatorcontrib>PERCY, M. E</creatorcontrib><creatorcontrib>CONNOR, L</creatorcontrib><creatorcontrib>GROWDON, J</creatorcontrib><creatorcontrib>CRAPPER-MCLACHLAN, D. R</creatorcontrib><creatorcontrib>GUSELLA, J. F</creatorcontrib><creatorcontrib>ROMANO, D. M</creatorcontrib><creatorcontrib>GEORGE-HYSLOP, P. H. S</creatorcontrib><creatorcontrib>MORTILLA, M</creatorcontrib><creatorcontrib>HUANG, T. L</creatorcontrib><creatorcontrib>TUPLER, R. G</creatorcontrib><creatorcontrib>WASCO, W</creatorcontrib><creatorcontrib>HYMAN, B. T</creatorcontrib><creatorcontrib>HAINES, J. L</creatorcontrib><creatorcontrib>JENKINS, B. J</creatorcontrib><collection>Pascal-Francis</collection><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>Human Genome Abstracts</collection><collection>Technology Research Database</collection><collection>Engineering Research Database</collection><collection>Biotechnology and BioEngineering Abstracts</collection><collection>Genetics Abstracts</collection><collection>MEDLINE - Academic</collection><collection>PubMed Central (Full Participant titles)</collection><jtitle>American journal of human genetics</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>TANZI, R. E</au><au>VAULA, G</au><au>KALAITSIDAKI, M</au><au>WARREN, A. C</au><au>MCINNIS, M. C</au><au>ANTONARAKIS, S. E</au><au>KARLINSKY, H</au><au>PERCY, M. E</au><au>CONNOR, L</au><au>GROWDON, J</au><au>CRAPPER-MCLACHLAN, D. R</au><au>GUSELLA, J. F</au><au>ROMANO, D. M</au><au>GEORGE-HYSLOP, P. H. S</au><au>MORTILLA, M</au><au>HUANG, T. L</au><au>TUPLER, R. G</au><au>WASCO, W</au><au>HYMAN, B. T</au><au>HAINES, J. L</au><au>JENKINS, B. J</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Assessment of amyloid β-protein precursor gene mutations in a large set of familial and sporadic Alzheimer disease cases</atitle><jtitle>American journal of human genetics</jtitle><addtitle>Am J Hum Genet</addtitle><date>1992-08-01</date><risdate>1992</risdate><volume>51</volume><issue>2</issue><spage>273</spage><epage>282</epage><pages>273-282</pages><issn>0002-9297</issn><eissn>1537-6605</eissn><coden>AJHGAG</coden><abstract>A genetic locus associated with familial Alzheimer disease (FAD) and a candidate gene, APP, encoding the amyloid protein precursor have both been assigned previously to chromosome 21, and, in a few FAD families, mutations of APP have been detected. However, obligate crossovers between APP and FAD have also been reported in several FAD pedigrees, including FAD4, a large kindred showing highly suggestive evidence for linkage of the disorder to chromosome 21. In case the apparent APP crossover in FAD4 actually represented an intragenic recombination event or segregation of different mutations in different family branches, we have performed a more detailed assessment of APP as a candidate gene in this family. The entire coding region of the APP gene was sequenced for FAD4 and for FAD1, a second large kindred. No mutations were found, indicating that, in at least one chromosome 21-linked FAD pedigree, the gene defect is not accounted for by a mutation in the known coding region of the APP gene. A total of 25 well-characterized early- and late-onset FAD pedigrees were typed for genetic linkage to APP, to assess the percentage of FAD families predicted to carry mutations in the APP gene. None of the FAD families yielded positive lod scores at a recombination fraction of 0.0. To estimate the overall prevalence of FAD-associated mutations in the beta A4 domain of APP, we sequenced exons 16 and 17 in 30 (20 early- and 10 late-onset) FAD kindreds and in 11 sporadic AD cases, and we screened 56 FAD kindreds and 81 cases of sporadic AD for the presence of the originally reported FAD-associated mutation, APP717 Val---Ile (by BclI digestion). No APP gene mutations were found in any of the FAD families or sporadic-AD samples examined in this study, suggesting that the mutations in exons 16 and 17 are a rare cause of FAD. Overall, these data suggest that APP gene mutations account for a very small portion of FAD.</abstract><cop>Chicago, IL</cop><pub>University of Chicago Press</pub><pmid>1642228</pmid><tpages>10</tpages></addata></record> |
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| ispartof | American journal of human genetics, 1992-08, Vol.51 (2), p.273-282 |
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| subjects | Alzheimer Disease - diagnosis Alzheimer Disease - genetics Alzheimer's disease amyloid beta -protein Amyloid beta-Protein Precursor - genetics Base Sequence Biological and medical sciences Degenerative and inherited degenerative diseases of the nervous system. Leukodystrophies. Prion diseases DNA - genetics DNA Mutational Analysis genes Humans Isoleucine - genetics Male man Medical sciences Middle Aged Molecular Sequence Data Mutation Neurology Original Pedigree Polymerase Chain Reaction precursors Recombination, Genetic Valine - genetics |
| title | Assessment of amyloid β-protein precursor gene mutations in a large set of familial and sporadic Alzheimer disease cases |
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