Your search keyword '"Nissen, Peter H."' showing total 11 results

1. False low holotranscobalamin levels in a patient with a novel TCN2 mutation

Author

Keller, Peter, Rufener, Janine, Schild, Christof, Fedosov, Sergey N., Nissen, Peter H., Nexo, Ebba, Keller, Peter, Rufener, Janine, Schild, Christof, Fedosov, Sergey N., Nissen, Peter H., and Nexo, Ebba

Abstract

Background: Measurement of holotranscobalamin (holoTC) is increasingly used as a screening test for cobalamin (Cbl) deficiency. A level well below the reference interval strongly supports a deficient state. We examined a 21-year-old woman diagnosed as Cbl deficient because of an extremely low holoTC level as measured by the Abbott Architect Assay. Methods: The patient was evaluated for Cbl deficiency employing an in-house holoTC method as well as other routine markers of Cbl status. Further analyses included exploration of the Cbl binding proteins employing gel filtration of a serum sample saturated with 57 Co-labeled Cbl and Sanger sequencing of exons 1-9 and the intron-exon boundaries of the TCN2 gene, the gene coding for transcobalamin (TC). Results: The patient had normal hematological variables throughout. Despite initial treatment with Cbl, holoTC as measured by the Abbott assay remained low, while holoTC measured with the in-house assay was normal, and behaved as TC upon gel-filtration. By Sanger sequencing, we detected a homozygous single point mutation c.855T>A in exon 6 of TCN2, corresponding to a asparagine (Asn) to lysine (Lys) substitution in position 267 of the mature protein. Conclusions: We describe a novel point mutation of the TCN2 gene. The mutation does not seem to interfere with the function of TC, but the mutation may well explain the low level of holoTC detected by the Abbott assay. Our results underscores that mutations of TCN2 have to be considered when implausible holoTC results are obtained.

Published

2019

2. Sudden cardiac death in young adults:environmental risk factors and genetic aspects of premature atherosclerosis

Author

Larsen, Maiken K, Nissen, Peter H, Kristensen, Ingrid B, Jensen, Henrik K, Banner, Jytte, Larsen, Maiken K, Nissen, Peter H, Kristensen, Ingrid B, Jensen, Henrik K, and Banner, Jytte

Abstract

Familial hypercholesterolemia (FH) is a genetic disorder that may lead to premature coronary heart disease (CHD) and sudden cardiac death (SCD). Mutations in the LDLR or APOB genes cause FH. We have screened the LDLR and the ligand-binding region of APOB genes in 52 cases of SCD. Deceased patients were younger than 40 years of age and were suspected of having FH. The LDLR and APOB genes were examined via PCR, high-resolution melting, and DNA sequencing. Therein, it was observed that 7.7% of the screened patients exhibited a rare sequence variant in the LDLR gene, with 5.7% suspected of being pathogenic mutations. Lipid profiles and genetic testing for FH could be considered when autopsy reveals significant atherosclerosis of the coronary arteries in young adults. First-degree family members are advised to seek medical advice and testing to determine their own risks of atherosclerosis to prevent premature CHD and SCD.

Published

2012

3. Sudden cardiac death in young adults:environmental risk factors and genetic aspects of premature atherosclerosis

Author

Larsen, Maiken K, Nissen, Peter H, Kristensen, Ingrid B, Jensen, Henrik K, Banner, Jytte, Larsen, Maiken K, Nissen, Peter H, Kristensen, Ingrid B, Jensen, Henrik K, and Banner, Jytte

Abstract

Familial hypercholesterolemia (FH) is a genetic disorder that may lead to premature coronary heart disease (CHD) and sudden cardiac death (SCD). Mutations in the LDLR or APOB genes cause FH. We have screened the LDLR and the ligand-binding region of APOB genes in 52 cases of SCD. Deceased patients were younger than 40 years of age and were suspected of having FH. The LDLR and APOB genes were examined via PCR, high-resolution melting, and DNA sequencing. Therein, it was observed that 7.7% of the screened patients exhibited a rare sequence variant in the LDLR gene, with 5.7% suspected of being pathogenic mutations. Lipid profiles and genetic testing for FH could be considered when autopsy reveals significant atherosclerosis of the coronary arteries in young adults. First-degree family members are advised to seek medical advice and testing to determine their own risks of atherosclerosis to prevent premature CHD and SCD.

Published

2012

4. Congenital bovine spinal dysmyelination is caused by a missense mutation in the SPAST gene

Author

Thomsen, Bo, Nissen, Peter H., Agerholm, Jørgen S., Bendixen, Christian, Thomsen, Bo, Nissen, Peter H., Agerholm, Jørgen S., and Bendixen, Christian

Abstract

Bovine spinal dysmyelination (BSD) is a recessive congenital neurodegenerative disease in cattle (Bos taurus) characterized by pathological changes of the myelin sheaths in the spinal cord. The occurrence of BSD is a longstanding problem in the American Brown Swiss (ABS) breed and in several European cattle breeds upgraded with ABS. Here, we show that the disease locus on bovine chromosome 11 harbors the SPAST gene that, when mutated, is responsible for the human disorder hereditary spastic paraplegia (HSP). Initially, SPAST encoding Spastin was considered a less likely candidate gene for BSD since the modes of inheritance as well as the time of onset and severity of symptoms differ widely between HSP and BSD. However, sequence analysis of the bovine SPAST gene in affected animals identified a R560Q substitution at a position in the ATPase domain of the Spastin protein that is invariant from insects to mammals. Interestingly, three different mutations in human SPAST gene at the equivalent position are known to cause HSP. To explore this observation further, we genotyped more than 3,100 animals of various cattle breeds and found that the glutamine allele exclusively occurred in breeds upgraded with ABS. Furthermore, all confirmed BSD carriers were heterozygous, while all affected calves were homozygous for the glutamine allele consistent with recessive transmission of the underlying mutation and complete penetrance in the homozygous state. Subsequent analysis of recombinant Spastin in vitro showed that the R560Q substitution severely impaired the ATPase activity, demonstrating a causal relationship between the SPAST mutation and BSD.

Published

2010

5. Congenital bovine spinal dysmyelination is caused by a missense mutation in the SPAST gene

Author

Thomsen, Bo, Nissen, Peter H., Agerholm, Jørgen S., Bendixen, Christian, Thomsen, Bo, Nissen, Peter H., Agerholm, Jørgen S., and Bendixen, Christian

Abstract

Bovine spinal dysmyelination (BSD) is a recessive congenital neurodegenerative disease in cattle (Bos taurus) characterized by pathological changes of the myelin sheaths in the spinal cord. The occurrence of BSD is a longstanding problem in the American Brown Swiss (ABS) breed and in several European cattle breeds upgraded with ABS. Here, we show that the disease locus on bovine chromosome 11 harbors the SPAST gene that, when mutated, is responsible for the human disorder hereditary spastic paraplegia (HSP). Initially, SPAST encoding Spastin was considered a less likely candidate gene for BSD since the modes of inheritance as well as the time of onset and severity of symptoms differ widely between HSP and BSD. However, sequence analysis of the bovine SPAST gene in affected animals identified a R560Q substitution at a position in the ATPase domain of the Spastin protein that is invariant from insects to mammals. Interestingly, three different mutations in human SPAST gene at the equivalent position are known to cause HSP. To explore this observation further, we genotyped more than 3,100 animals of various cattle breeds and found that the glutamine allele exclusively occurred in breeds upgraded with ABS. Furthermore, all confirmed BSD carriers were heterozygous, while all affected calves were homozygous for the glutamine allele consistent with recessive transmission of the underlying mutation and complete penetrance in the homozygous state. Subsequent analysis of recombinant Spastin in vitro showed that the R560Q substitution severely impaired the ATPase activity, demonstrating a causal relationship between the SPAST mutation and BSD.

Published

2010

6. Genetic mapping of spinal dysmyelination in cross-bred American Brown swiss cattle to bovine chromosome 11

Author

Nissen, Peter H., Shukri, N.M., Agerholm, Jørgen Steen, Fredholm, Merete, Bendixen, Christian, Nissen, Peter H., Shukri, N.M., Agerholm, Jørgen Steen, Fredholm, Merete, and Bendixen, Christian

Published

2001

7. Genetic mapping of spinal dysmyelination in cross-bred American Brown swiss cattle to bovine chromosome 11

Author

Nissen, Peter H., Shukri, N.M., Agerholm, Jørgen Steen, Fredholm, Merete, Bendixen, Christian, Nissen, Peter H., Shukri, N.M., Agerholm, Jørgen Steen, Fredholm, Merete, and Bendixen, Christian

Published

2001

8. Genetic diversity of eleven European pig breeds

Author

Laval, Guillaume, Iannuccelli, Nathalie, Legault, Christian, Milan, Denis, Groenen, Martien A.M., Giuffra, Elisabetta, Andersson, Leif, Nissen, Peter H., JØrgensen, Claus B., Beeckmann, Petra, Geldermann, Hermann, Foulley, Jean Louis, Chevalet, Claude, Ollivier, Louis, Laval, Guillaume, Iannuccelli, Nathalie, Legault, Christian, Milan, Denis, Groenen, Martien A.M., Giuffra, Elisabetta, Andersson, Leif, Nissen, Peter H., JØrgensen, Claus B., Beeckmann, Petra, Geldermann, Hermann, Foulley, Jean Louis, Chevalet, Claude, and Ollivier, Louis

Abstract

A set of eleven pig breeds originating from six European countries, and including a small sample of wild pigs, was chosen for this study of genetic diversity. Diversity was evaluated on the basis of 18 microsatellite markers typed over a total of 483 DNA samples collected. Average breed heterozygosity varied from 0.35 to 0.60. Genotypic frequencies generally agreed with Hardy- Weinberg expectations, apart from the German Landrace and Schwabisch- Hallisches breeds, which showed significantly reduced heterozygosity. Breed differentiation was significant as shown by the high among-breed fixation index (overall F(ST) = 0.27), and confirmed by the clustering based on the genetic distances between individuals, which grouped essentially all individuals in 11 clusters corresponding to the 11 breeds. The genetic distances between breeds were first used to construct phylogenetic trees. The trees indicated that a genetic drift model might explain the divergence of the two German breeds, but no reliable phylogeny could be inferred among the remaining breeds. The same distances were also used to measure the global diversity of the set of breeds considered, and to evaluate the marginal loss of diversity attached to each breed. In that respect, the French Basque breed appeared to be the most 'unique' in the set considered. This study, which remains to be extended to a larger set of European breeds, indicates that using genetic distances between breeds of farm animals in a classical taxonomic approach may not give clear resolution, but points to their usefulness in a prospective evaluation of diversity.

Published

2000

9. Genetic diversity of eleven European pig breeds

Author

Laval, Guillaume, Iannuccelli, Nathalie, Legault, Christian, Milan, Denis, Groenen, Martien A.M., Giuffra, Elisabetta, Andersson, Leif, Nissen, Peter H., JØrgensen, Claus B., Beeckmann, Petra, Geldermann, Hermann, Foulley, Jean Louis, Chevalet, Claude, Ollivier, Louis, Laval, Guillaume, Iannuccelli, Nathalie, Legault, Christian, Milan, Denis, Groenen, Martien A.M., Giuffra, Elisabetta, Andersson, Leif, Nissen, Peter H., JØrgensen, Claus B., Beeckmann, Petra, Geldermann, Hermann, Foulley, Jean Louis, Chevalet, Claude, and Ollivier, Louis

Abstract

A set of eleven pig breeds originating from six European countries, and including a small sample of wild pigs, was chosen for this study of genetic diversity. Diversity was evaluated on the basis of 18 microsatellite markers typed over a total of 483 DNA samples collected. Average breed heterozygosity varied from 0.35 to 0.60. Genotypic frequencies generally agreed with Hardy- Weinberg expectations, apart from the German Landrace and Schwabisch- Hallisches breeds, which showed significantly reduced heterozygosity. Breed differentiation was significant as shown by the high among-breed fixation index (overall F(ST) = 0.27), and confirmed by the clustering based on the genetic distances between individuals, which grouped essentially all individuals in 11 clusters corresponding to the 11 breeds. The genetic distances between breeds were first used to construct phylogenetic trees. The trees indicated that a genetic drift model might explain the divergence of the two German breeds, but no reliable phylogeny could be inferred among the remaining breeds. The same distances were also used to measure the global diversity of the set of breeds considered, and to evaluate the marginal loss of diversity attached to each breed. In that respect, the French Basque breed appeared to be the most 'unique' in the set considered. This study, which remains to be extended to a larger set of European breeds, indicates that using genetic distances between breeds of farm animals in a classical taxonomic approach may not give clear resolution, but points to their usefulness in a prospective evaluation of diversity.

Published

2000

10. Genetic diversity of eleven European pig breeds

Author

Laval, Guillaume, Iannuccelli, Nathalie, Legault, Christian, Milan, Denis, Groenen, Martien A.M., Giuffra, Elisabetta, Andersson, Leif, Nissen, Peter H., JØrgensen, Claus B., Beeckmann, Petra, Geldermann, Hermann, Foulley, Jean Louis, Chevalet, Claude, Ollivier, Louis, Laval, Guillaume, Iannuccelli, Nathalie, Legault, Christian, Milan, Denis, Groenen, Martien A.M., Giuffra, Elisabetta, Andersson, Leif, Nissen, Peter H., JØrgensen, Claus B., Beeckmann, Petra, Geldermann, Hermann, Foulley, Jean Louis, Chevalet, Claude, and Ollivier, Louis

Abstract

A set of eleven pig breeds originating from six European countries, and including a small sample of wild pigs, was chosen for this study of genetic diversity. Diversity was evaluated on the basis of 18 microsatellite markers typed over a total of 483 DNA samples collected. Average breed heterozygosity varied from 0.35 to 0.60. Genotypic frequencies generally agreed with Hardy- Weinberg expectations, apart from the German Landrace and Schwabisch- Hallisches breeds, which showed significantly reduced heterozygosity. Breed differentiation was significant as shown by the high among-breed fixation index (overall F(ST) = 0.27), and confirmed by the clustering based on the genetic distances between individuals, which grouped essentially all individuals in 11 clusters corresponding to the 11 breeds. The genetic distances between breeds were first used to construct phylogenetic trees. The trees indicated that a genetic drift model might explain the divergence of the two German breeds, but no reliable phylogeny could be inferred among the remaining breeds. The same distances were also used to measure the global diversity of the set of breeds considered, and to evaluate the marginal loss of diversity attached to each breed. In that respect, the French Basque breed appeared to be the most 'unique' in the set considered. This study, which remains to be extended to a larger set of European breeds, indicates that using genetic distances between breeds of farm animals in a classical taxonomic approach may not give clear resolution, but points to their usefulness in a prospective evaluation of diversity.

Published

2000

11. False low holotranscobalamin levels in a patient with a novel TCN2 mutation

Author

Keller, Peter, Rufener, Janine, Schild, Christof, Fedosov, Sergey N., Nissen, Peter H., Nexo, Ebba, Keller, Peter, Rufener, Janine, Schild, Christof, Fedosov, Sergey N., Nissen, Peter H., and Nexo, Ebba

Abstract

Background: Measurement of holotranscobalamin (holoTC) is increasingly used as a screening test for cobalamin (Cbl) deficiency. A level well below the reference interval strongly supports a deficient state. We examined a 21-year-old woman diagnosed as Cbl deficient because of an extremely low holoTC level as measured by the Abbott Architect Assay. Methods: The patient was evaluated for Cbl deficiency employing an in-house holoTC method as well as other routine markers of Cbl status. Further analyses included exploration of the Cbl binding proteins employing gel filtration of a serum sample saturated with 57 Co-labeled Cbl and Sanger sequencing of exons 1-9 and the intron-exon boundaries of the TCN2 gene, the gene coding for transcobalamin (TC). Results: The patient had normal hematological variables throughout. Despite initial treatment with Cbl, holoTC as measured by the Abbott assay remained low, while holoTC measured with the in-house assay was normal, and behaved as TC upon gel-filtration. By Sanger sequencing, we detected a homozygous single point mutation c.855T>A in exon 6 of TCN2, corresponding to a asparagine (Asn) to lysine (Lys) substitution in position 267 of the mature protein. Conclusions: We describe a novel point mutation of the TCN2 gene. The mutation does not seem to interfere with the function of TC, but the mutation may well explain the low level of holoTC detected by the Abbott assay. Our results underscores that mutations of TCN2 have to be considered when implausible holoTC results are obtained.