Linkage and mutational analysis of familial Alzheimer disease kindreds for the APP gene region

Kouzin Kamino; Harry T. Orr; Haydeh Payami; Ellen M. Wijsman; Ma Elisa Alonso; Stefan M. Pulst; Leojean Anderson; Sheldon O'Dahl; Ellen Nemens; June A. White; Adele D. Sadovnick; Melvyn J. Ball; Jeffery Kaye; Andrew Warren; Melvin McInnis; Stylianos E. Antonarakis; Julie R. Korenberg; Vikram Sharma; Walter Kukull; Eric Larson; Leonard L. Heston; George M. Martin; Thomas D. Bird; Gerard D. Schellenberg

Linkage and mutational analysis of familial Alzheimer disease kindreds for the APP gene region

Kouzin Kamino, Harry T. Orr, Haydeh Payami, Ellen M. Wijsman, Ma Elisa Alonso, Stefan M. Pulst, Leojean Anderson, Sheldon O'Dahl, Ellen Nemens, June A. White, Adele D. Sadovnick, Melvyn J. Ball, Jeffery Kaye, Andrew Warren, Melvin McInnis, Stylianos E. Antonarakis, Julie R. Korenberg, Vikram Sharma, Walter Kukull, Eric LarsonLeonard L. Heston, George M. Martin, Thomas D. Bird, Gerard D. Schellenberg

Neurology

Research output: Contribution to journal › Article › peer-review

246 Scopus citations

Abstract

A large number of familial Alzheimer disease (FAD) kindreds were examined to determine whether mutations in the amyloid precursor protein (APP) gene could be responsible for the disease. Previous studies have identified three mutations at APP codon 717 which are pathogenic for Alzheimer disease (AD). Samples from affected subjects were examined for mutations in exons 16 and 17 of the APP gene. A combination of direct sequencing and single-strand conformational polymorphism analysis was used. Sporadic AD and normal controls were also examined by the same methods. Five sequence variants were identified. One variant at APP codon 693 resulted in a Glu→Gly change. This is the same codon as the hereditary cerebral hemorrhage with amyloidosis-Dutch type Glu→Gln mutation. Another single-base change at APP codon 708 did not alter the amino acid encoded at this site. Two point mutations and a 6-bp deletion were identified in the intronic sequences surrounding exon 17. None of the variants could be unambiguously determined to be responsible for FAD. The larger families were also analyzed by testing for linkage of FAD to a highly polymorphic short tandem repeat marker (D21S210) that is tightly linked to APP. Highly negative LOD scores were obtained for the family groups tested, and linkage was formally excluded beyond θ= .10 for the Volga German kindreds, θ = .20 for early-onset non-Volga Germans, and θ = .10 for late-onset families. LOD scores for linkage of FAD to markers centromeric to APP (D21S1/S11, D21S13, and D21S215) were also negative in the three family groups. These studies show that APP mutations account for AD in only a small fraction of FAD kindreds.

Original language	English (US)
Pages (from-to)	998-1014
Number of pages	17
Journal	American Journal of Human Genetics
Volume	51
Issue number	5
State	Published - Nov 1992

ASJC Scopus subject areas

Genetics
Genetics(clinical)

Cite this

Kamino, K., Orr, H. T., Payami, H., Wijsman, E. M., Alonso, M. E., Pulst, S. M., Anderson, L., O'Dahl, S., Nemens, E., White, J. A., Sadovnick, A. D., Ball, M. J., Kaye, J., Warren, A., McInnis, M., Antonarakis, S. E., Korenberg, J. R., Sharma, V., Kukull, W., ... Schellenberg, G. D. (1992). Linkage and mutational analysis of familial Alzheimer disease kindreds for the APP gene region. American Journal of Human Genetics, 51(5), 998-1014.

Kamino, K, Orr, HT, Payami, H, Wijsman, EM, Alonso, ME, Pulst, SM, Anderson, L, O'Dahl, S, Nemens, E, White, JA, Sadovnick, AD, Ball, MJ, Kaye, J, Warren, A, McInnis, M, Antonarakis, SE, Korenberg, JR, Sharma, V, Kukull, W, Larson, E, Heston, LL, Martin, GM, Bird, TD & Schellenberg, GD 1992, 'Linkage and mutational analysis of familial Alzheimer disease kindreds for the APP gene region', American Journal of Human Genetics, vol. 51, no. 5, pp. 998-1014.

@article{ee2483a5c00546d9b028964d7fe16940,

title = "Linkage and mutational analysis of familial Alzheimer disease kindreds for the APP gene region",

abstract = "A large number of familial Alzheimer disease (FAD) kindreds were examined to determine whether mutations in the amyloid precursor protein (APP) gene could be responsible for the disease. Previous studies have identified three mutations at APP codon 717 which are pathogenic for Alzheimer disease (AD). Samples from affected subjects were examined for mutations in exons 16 and 17 of the APP gene. A combination of direct sequencing and single-strand conformational polymorphism analysis was used. Sporadic AD and normal controls were also examined by the same methods. Five sequence variants were identified. One variant at APP codon 693 resulted in a Glu→Gly change. This is the same codon as the hereditary cerebral hemorrhage with amyloidosis-Dutch type Glu→Gln mutation. Another single-base change at APP codon 708 did not alter the amino acid encoded at this site. Two point mutations and a 6-bp deletion were identified in the intronic sequences surrounding exon 17. None of the variants could be unambiguously determined to be responsible for FAD. The larger families were also analyzed by testing for linkage of FAD to a highly polymorphic short tandem repeat marker (D21S210) that is tightly linked to APP. Highly negative LOD scores were obtained for the family groups tested, and linkage was formally excluded beyond θ= .10 for the Volga German kindreds, θ = .20 for early-onset non-Volga Germans, and θ = .10 for late-onset families. LOD scores for linkage of FAD to markers centromeric to APP (D21S1/S11, D21S13, and D21S215) were also negative in the three family groups. These studies show that APP mutations account for AD in only a small fraction of FAD kindreds.",

author = "Kouzin Kamino and Orr, {Harry T.} and Haydeh Payami and Wijsman, {Ellen M.} and Alonso, {Ma Elisa} and Pulst, {Stefan M.} and Leojean Anderson and Sheldon O'Dahl and Ellen Nemens and White, {June A.} and Sadovnick, {Adele D.} and Ball, {Melvyn J.} and Jeffery Kaye and Andrew Warren and Melvin McInnis and Antonarakis, {Stylianos E.} and Korenberg, {Julie R.} and Vikram Sharma and Walter Kukull and Eric Larson and Heston, {Leonard L.} and Martin, {George M.} and Bird, {Thomas D.} and Schellenberg, {Gerard D.}",

year = "1992",

month = nov,

language = "English (US)",

volume = "51",

pages = "998--1014",

journal = "American Journal of Human Genetics",

issn = "0002-9297",

publisher = "Cell Press",

number = "5",

}

TY - JOUR

T1 - Linkage and mutational analysis of familial Alzheimer disease kindreds for the APP gene region

AU - Kamino, Kouzin

AU - Orr, Harry T.

AU - Payami, Haydeh

AU - Wijsman, Ellen M.

AU - Alonso, Ma Elisa

AU - Pulst, Stefan M.

AU - Anderson, Leojean

AU - O'Dahl, Sheldon

AU - Nemens, Ellen

AU - White, June A.

AU - Sadovnick, Adele D.

AU - Ball, Melvyn J.

AU - Kaye, Jeffery

AU - Warren, Andrew

AU - McInnis, Melvin

AU - Antonarakis, Stylianos E.

AU - Korenberg, Julie R.

AU - Sharma, Vikram

AU - Kukull, Walter

AU - Larson, Eric

AU - Heston, Leonard L.

AU - Martin, George M.

AU - Bird, Thomas D.

AU - Schellenberg, Gerard D.

PY - 1992/11

Y1 - 1992/11

N2 - A large number of familial Alzheimer disease (FAD) kindreds were examined to determine whether mutations in the amyloid precursor protein (APP) gene could be responsible for the disease. Previous studies have identified three mutations at APP codon 717 which are pathogenic for Alzheimer disease (AD). Samples from affected subjects were examined for mutations in exons 16 and 17 of the APP gene. A combination of direct sequencing and single-strand conformational polymorphism analysis was used. Sporadic AD and normal controls were also examined by the same methods. Five sequence variants were identified. One variant at APP codon 693 resulted in a Glu→Gly change. This is the same codon as the hereditary cerebral hemorrhage with amyloidosis-Dutch type Glu→Gln mutation. Another single-base change at APP codon 708 did not alter the amino acid encoded at this site. Two point mutations and a 6-bp deletion were identified in the intronic sequences surrounding exon 17. None of the variants could be unambiguously determined to be responsible for FAD. The larger families were also analyzed by testing for linkage of FAD to a highly polymorphic short tandem repeat marker (D21S210) that is tightly linked to APP. Highly negative LOD scores were obtained for the family groups tested, and linkage was formally excluded beyond θ= .10 for the Volga German kindreds, θ = .20 for early-onset non-Volga Germans, and θ = .10 for late-onset families. LOD scores for linkage of FAD to markers centromeric to APP (D21S1/S11, D21S13, and D21S215) were also negative in the three family groups. These studies show that APP mutations account for AD in only a small fraction of FAD kindreds.

AB - A large number of familial Alzheimer disease (FAD) kindreds were examined to determine whether mutations in the amyloid precursor protein (APP) gene could be responsible for the disease. Previous studies have identified three mutations at APP codon 717 which are pathogenic for Alzheimer disease (AD). Samples from affected subjects were examined for mutations in exons 16 and 17 of the APP gene. A combination of direct sequencing and single-strand conformational polymorphism analysis was used. Sporadic AD and normal controls were also examined by the same methods. Five sequence variants were identified. One variant at APP codon 693 resulted in a Glu→Gly change. This is the same codon as the hereditary cerebral hemorrhage with amyloidosis-Dutch type Glu→Gln mutation. Another single-base change at APP codon 708 did not alter the amino acid encoded at this site. Two point mutations and a 6-bp deletion were identified in the intronic sequences surrounding exon 17. None of the variants could be unambiguously determined to be responsible for FAD. The larger families were also analyzed by testing for linkage of FAD to a highly polymorphic short tandem repeat marker (D21S210) that is tightly linked to APP. Highly negative LOD scores were obtained for the family groups tested, and linkage was formally excluded beyond θ= .10 for the Volga German kindreds, θ = .20 for early-onset non-Volga Germans, and θ = .10 for late-onset families. LOD scores for linkage of FAD to markers centromeric to APP (D21S1/S11, D21S13, and D21S215) were also negative in the three family groups. These studies show that APP mutations account for AD in only a small fraction of FAD kindreds.

UR - http://www.scopus.com/inward/record.url?scp=0026733343&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=0026733343&partnerID=8YFLogxK

M3 - Article

C2 - 1415269

AN - SCOPUS:0026733343

SN - 0002-9297

VL - 51

SP - 998

EP - 1014

JO - American Journal of Human Genetics

JF - American Journal of Human Genetics

IS - 5

ER -

Linkage and mutational analysis of familial Alzheimer disease kindreds for the APP gene region

Abstract

ASJC Scopus subject areas

Other files and links

Fingerprint

Cite this