Search

Your search keyword '"Hummerich H"' showing total 63 results
Start Over Author "Hummerich H" Language english
63 results on '"Hummerich H"'

1. Predictors for a dementia gene mutation based on gene-panel next-generation sequencing of a large dementia referral series

Author

Koriath, C., Kenny, J., Adamson, G., Druyeh, R., Taylor, W., Beck, J., Quinn, L., Mok, T. H., Dimitriadis, A., Norsworthy, P., Bass, N., Carter, J., Walker, Z., Kipps, C., Coulthard, E., Polke, J. M., Bernal-Quiros, M., Denning, N., Thomas, R., Raybould, R., Williams, J., Mummery, C. J., Wild, E. J., Houlden, H., Tabrizi, S. J., Rossor, M. N., Hummerich, H., Warren, J. D., Rowe, J. B., Rohrer, J. D., Schott, J. M., Fox, N. C., Collinge, J., and Mead, S.

Published
2020
Full Text
View/download PDF

5. Report of the Fifth International Workshop on Human Chromosome 11 Mapping 1996

Author

Shows, T. B., Alders, M., Bennett, S., Burbee, D., Cartwright, P., Chandrasekharappa, S., Cooper, P., Courseaux, A., Davies, C., Devignes, M. D., Devilee, P., Elliott, R., Evans, G., Fantes, J., Garner, H., Gaudray, P., Gerhard, D. S., Gessler, M., Higgins, M., Hummerich, H., James, M., Lagercrantz, J., Litt, M., Little, P., Mannens, M., Munroe, D., Nowak, N., O'Brien, S., Parker, N., Perlin, M., Reid, L., Richard, C., Sawicki, M., Swallow, D., Thakker, R., van Heyningen, V., van Schothorst, E., Vorechovsky, I., Wadelius, C., Weber, B., Zabel, B., and Other departments

Published
1996

8. Identification of novel risk loci and causal insights for sporadic Creutzfeldt-Jakob disease: a genome-wide association study

Author

Gabor G. Kovacs, Stephanie A. Booth, Sebastian Brandner, Penny Norsworthy, Anna Ladogana, Akin Nihat, Herbert Budka, Saima Zafar, Helen Speedy, Antonio Salas, Parvin Ahmed, Holger Hummerich, Gerard H. Jansen, Tze How Mok, Michael D. Geschwind, Beata Sikorska, Maurizio Pocchiari, Christiane Stehmann, Sabina Capellari, Jean-Louis Laplanche, Sven J. van der Lee, Emma Jones, Jean-Charles Lambert, Olga Calero, Pierluigi Gambetti, Ewa Golanska, Serena Aneli, Richard Knight, Giuseppe Matullo, Pawel P. Liberski, Athanasios Dimitriadis, Jerome Whitfield, Hata Karamujić-Čomić, Federico Martinón-Torres, Emmanuelle Viré, Jiri G. Safar, Tracy Campbell, Pascual Sánchez-Juan, Katie Glisic, Anna Bartoletti-Stella, Carla A. Ibrahim-Verbaas, Adriano Aguzzi, Anna Poleggi, Aili Golubjatnikov, Karl Frontzek, Jean Phillipe Brandel, Phillipe Amouyel, Parmjit S. Jat, Zane Jaunmuktane, Simon Mead, Steven J. Collins, Inga Zerr, Liam Quinn, Piero Parchi, Janis Blevins, Elodie Bouaziz-Amar, Brian S. Appleby, Shannon Sarros, Jacqueline M. Linehan, Miguel Calero, Michael B. Coulthart, Stéphane Haïk, John Collinge, James Uphill, Cornelia M. van Duijn, Diseases, Network Centre for Biomedical Research in Neurodegenerative, Jones E., Hummerich H., Vire E., Uphill J., Dimitriadis A., Speedy H., Campbell T., Norsworthy P., Quinn L., Whitfield J., Linehan J., Jaunmuktane Z., Brandner S., Jat P., Nihat A., How Mok T., Ahmed P., Collins S., Stehmann C., Sarros S., Kovacs G.G., Geschwind M.D., Golubjatnikov A., Frontzek K., Budka H., Aguzzi A., Karamujic-Comic H., van der Lee S.J., Ibrahim-Verbaas C.A., van Duijn C.M., Sikorska B., Golanska E., Liberski P.P., Calero M., Calero O., Sanchez-Juan P., Salas A., Martinon-Torres F., Bouaziz-Amar E., Haik S., Laplanche J.-L., Brandel J.-P., Amouyel P., Lambert J.-C., Parchi P., Bartoletti-Stella A., Capellari S., Poleggi A., Ladogana A., Pocchiari M., Aneli S., Matullo G., Knight R., Zafar S., Zerr I., Booth S., Coulthart M.B., Jansen G.H., Glisic K., Blevins J., Gambetti P., Safar J., Appleby B., Collinge J., Mead S., Universidad de Cantabria, Neurology, Amsterdam Neuroscience - Neurodegeneration, and Epidemiology

Subjects
0301 basic medicine, epidemiology [Creutzfeldt-Jakob Syndrome], Tau protein, Single-nucleotide polymorphism, Genome-wide association study, diagnosis [Creutzfeldt-Jakob Syndrome], Disease, genetics [Genetic Loci], methods [Genome-Wide Association Study], Polymorphism, Single Nucleotide, Creutzfeldt-Jakob Syndrome, PRNP, 03 medical and health sciences, 0302 clinical medicine, Risk Factors, Humans, Genetic Predisposition to Disease, ddc:610, genetics [Genetic Predisposition to Disease], Genotyping, Exome sequencing, Genetics, biology, Odds ratio, genetics [Creutzfeldt-Jakob Syndrome], 030104 developmental biology, Genetic Loci, epidemiology [Genetic Predisposition to Disease], biology.protein, genetics [Polymorphism, Single Nucleotide], Neurology (clinical), 030217 neurology & neurosurgery, Genome-Wide Association Study, Human
Abstract

Background Human prion diseases are rare and usually rapidly fatal neurodegenerative disorders, the most common being sporadic Creutzfeldt-Jakob disease (sCJD). Variants in the PRNP gene that encodes prion protein are strong risk factors for sCJD but, although the condition has similar heritability to other neurodegenerative disorders, no other genetic risk loci have been confirmed. We aimed to discover new genetic risk factors for sCJD, and their causal mechanisms. Methods We did a genome-wide association study of sCJD in European ancestry populations (patients diagnosed with probable or definite sCJD identified at national CJD referral centres) with a two-stage study design using genotyping arrays and exome sequencing. Conditional, transcriptional, and histological analyses of implicated genes and proteins in brain tissues, and tests of the effects of risk variants on clinical phenotypes, were done using deep longitudinal clinical cohort data. Control data from healthy individuals were obtained from publicly available datasets matched for country. Findings Samples from 5208 cases were obtained between 1990 and 2014. We found 41 genome-wide significant single nucleotide polymorphisms (SNPs) and independently replicated findings at three loci associated with sCJD risk; within PRNP (rs1799990; additive model odds ratio [OR] 1·23 [95% CI 1·17–1·30], p=2·68 × 10 −15; heterozygous model p=1·01 × 10 −135), STX6 (rs3747957; OR 1·16 [1·10–1·22], p=9·74 × 10 −9), and GAL3ST1 (rs2267161; OR 1·18 [1·12–1·25], p=8·60 × 10 −10). Follow-up analyses showed that associations at PRNP and GAL3ST1 are likely to be caused by common variants that alter the protein sequence, whereas risk variants in STX6 are associated with increased expression of the major transcripts in disease-relevant brain regions. Interpretation We present, to our knowledge, the first evidence of statistically robust genetic associations in sporadic human prion disease that implicate intracellular trafficking and sphingolipid metabolism as molecular causal mechanisms. Risk SNPs in STX6 are shared with progressive supranuclear palsy, a neurodegenerative disease associated with misfolding of protein tau, indicating that sCJD might share the same causal mechanisms as prion-like disorders. Funding Medical Research Council and the UK National Institute of Health Research in part through the Biomedical Research Centre at University College London Hospitals National Health Service Foundation Trust.

Published
2020

9. Huntington's disease phenocopy syndromes revisited: a clinical comparison and next-generation sequencing exploration.

Author

Koriath CAM, Guntoro F, Norsworthy P, Dolzhenko E, Eberle M, Hensman Moss DJ, Flower M, Hummerich H, Rosser AE, Tabrizi SJ, Mead S, and Wild EJ

Abstract

Background: Genetic testing for Huntington's disease (HD) was initially usually positive but more recently the negative rate has increased: patients with negative HD tests are described as having HD phenocopy syndromes (HDPC). This study examines their clinical characteristics and investigates the genetic causes of HDPC., Methods: Clinical data from neurogenetics clinics and HDPC gene-panel data were analysed. Additionally, a subset of 50 patients with HDPC underwent whole-genome sequencing (WGS) analysed via Expansion Hunter and Ingenuity Variant Analysis., Results: HDPC prevalence was estimated at 2.3-2.9 per 100 000. No clinical discriminators between patients with HD and HDPC could be identified. In the gene-panel data, deleterious variants and potentially deleterious variants were over-represented in cases versus controls. WGS analysis identified one ATXN1 expansion in a patient with HDPC., Conclusions: The HDPC phenotype is consistent with HD, but the genotype is distinct. Both established deleterious variants and novel potentially deleterious variants in genes related to neurodegeneration contribute to HDPC., Competing Interests: Competing interests: None declared., (© Author(s) (or their employer(s)) 2024. Re-use permitted under CC BY. Published by BMJ.)

Published
2024
Full Text
View/download PDF

10. Genome wide association study of clinical duration and age at onset of sporadic CJD.

Author

Hummerich H, Speedy H, Campbell T, Darwent L, Hill E, Collins S, Stehmann C, Kovacs GG, Geschwind MD, Frontzek K, Budka H, Gelpi E, Aguzzi A, van der Lee SJ, van Duijn CM, Liberski PP, Calero M, Sanchez-Juan P, Bouaziz-Amar E, Laplanche JL, Haïk S, Brandel JP, Mammana A, Capellari S, Poleggi A, Ladogana A, Pocchiari M, Zafar S, Booth S, Jansen GH, Areškevičiūtė A, Løbner Lund E, Glisic K, Parchi P, Hermann P, Zerr I, Appleby BS, Safar J, Gambetti P, Collinge J, and Mead S

Subjects
Humans, Aged, Middle Aged, Female, Male, Phenotype, Genotype, Creutzfeldt-Jakob Syndrome genetics, Creutzfeldt-Jakob Syndrome pathology, Age of Onset, Genome-Wide Association Study, Polymorphism, Single Nucleotide
Abstract

Human prion diseases are rare, transmissible and often rapidly progressive dementias. The most common type, sporadic Creutzfeldt-Jakob disease (sCJD), is highly variable in clinical duration and age at onset. Genetic determinants of late onset or slower progression might suggest new targets for research and therapeutics. We assembled and array genotyped sCJD cases diagnosed in life or at autopsy. Clinical duration (median:4, interquartile range (IQR):2.5-9 (months)) was available in 3,773 and age at onset (median:67, IQR:61-73 (years)) in 3,767 cases. Phenotypes were successfully transformed to approximate normal distributions allowing genome-wide analysis without statistical inflation. 53 SNPs achieved genome-wide significance for the clinical duration phenotype; all of which were located at chromosome 20 (top SNP rs1799990, pvalue = 3.45x10-36, beta = 0.34 for an additive model; rs1799990, pvalue = 9.92x10-67, beta = 0.84 for a heterozygous model). Fine mapping, conditional and expression analysis suggests that the well-known non-synonymous variant at codon 129 is the obvious outstanding genome-wide determinant of clinical duration. Pathway analysis and suggestive loci are described. No genome-wide significant SNP determinants of age at onset were found, but the HS6ST3 gene was significant (pvalue = 1.93 x 10-6) in a gene-based test. We found no evidence of genome-wide genetic correlation between case-control (disease risk factors) and case-only (determinants of phenotypes) studies. Relative to other common genetic variants, PRNP codon 129 is by far the outstanding modifier of CJD survival suggesting only modest or rare variant effects at other genetic loci., Competing Interests: Stéphane Haik reports grants from Santé Publique France, during the conduct of the study; grants from LFB Biomedicaments, grants from Institut de Recherche Servier, grants from MedDay Pharmaceuticals, outside the submitted work; In addition, Stéphane Haik has a patent Method for treating prion diseases (PCT/EP2019/070457) pending. Brian Appleby has received funding from CDC, NIH, CJD Foundation, Alector, and Ionis. He has served as a consultant for Ionis, Sangamo, and Gate Biosciences. He has received royalties from Wolter Kluwers. Karl Fronztek reports grants from Ono Pharmaceuticals outside the submitted work. Simon Mead reports grants from Medical Research Council (UK) and grants from National Institute of Health Research’s Biomedical Research Centre at University College London Hospitals NHS Foundation Trust during the conduct of the study. Gabor G Kovacs reports personal fees from Biogen, outside the submitted work. John Collinge reports grants from Medical Research Council, grants from NIHR UCLH Biomedical Research Centre, during the conduct of the study; and is a Director and shareholder of D-Gen Limited, an academic spinout in the field of prion disease diagnostics, decontamination and therapeutics. Inga Zerr reports grants from the Bundesministerium für Gesundheit via Robert Koch institute, JPND and personal fees (not related to the content of the manuscript) from Ferring Pharmaceuticals and IONIS, speaking honoraria for medical lectures from Lilly, Biogen, Medfora, DGLN (German Society for cerebrospinal fluid diagnostics in Neurology). Maurizio Pocchiari reports personal fees from Ferring Pharmaceuticals, personal fees from CNCCS (Collection of National Chemical Compounds and Screening Center), non-financial support from Fondazione Cellule Staminali, outside the submitted work. Michael D Geschwind has consulted for3D Communications, Adept Field Consulting, Advanced Medical Inc., Best Doctors Inc., Second Opinion Inc., Gerson Lehrman Group Inc., Guidepoint Global LLC, InThought Consulting Inc., Market Plus, Trinity Partners LLC, Biohaven Pharmaceuticals, Quest Diagnostics and various medical-legal consulting. He has received speaking honoraria for various medical center lectures and from Oakstone publishing. He has received past research support from Alliance Biosecure, CurePSP, the Tau Consortium, and Quest Diagnostics. Michael D Geschwind serves on the board of directors for San Francisco Bay Area Physicians for Social Responsibility and on the editorial board of Dementia & Neuropsychologia., (Copyright: © 2024 Hummerich et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published
2024
Full Text
View/download PDF

11. Population structure and migration in the Eastern Highlands of Papua New Guinea, a region impacted by the kuru epidemic.

Author

Quinn L, Whitfield J, Alpers MP, Campbell T, Hummerich H, Pomat W, Siba P, Koki G, Moltke I, Collinge J, Hellenthal G, and Mead S

Subjects
Adult, Female, Humans, Papua New Guinea epidemiology, Genotype, Learning, Kuru epidemiology, Kuru genetics, Kuru history, Prions genetics
Abstract

Populations of the Eastern Highlands of Papua New Guinea (EHPNG, area 11,157 km 2 ) lived in relative isolation from the rest of the world until the mid-20 th century, and the region contains a wealth of linguistic and cultural diversity. Notably, several populations of EHPNG were devastated by an epidemic prion disease, kuru, which at its peak in the mid-twentieth century led to some villages being almost depleted of adult women. Until now, population genetic analyses to learn about genetic diversity, migration, admixture, and the impact of the kuru epidemic have been restricted to a small number of variants or samples. Here, we present a population genetic analysis of the region based on genome-wide genotype data of 943 individuals from 21 linguistic groups and 68 villages in EHPNG, including 34 villages in the South Fore linguistic group, the group most affected by kuru. We find a striking degree of genetic population structure in the relatively small region (average F ST between linguistic groups 0.024). The genetic population structure correlates well with linguistic grouping, with some noticeable exceptions that reflect the clan system of community organization that has historically existed in EHPNG. We also detect the presence of migrant individuals within the EHPNG region and observe a significant excess of females among migrants compared to among non-migrants in areas of high kuru exposure (p = 0.0145, chi-squared test). This likely reflects the continued practice of patrilocality despite documented fears and strains placed on communities as a result of kuru and its associated skew in female incidence., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2024
Full Text
View/download PDF

12. Exome sequencing identifies rare damaging variants in ATP8B4 and ABCA1 as risk factors for Alzheimer's disease.

Author

Holstege H, Hulsman M, Charbonnier C, Grenier-Boley B, Quenez O, Grozeva D, van Rooij JGJ, Sims R, Ahmad S, Amin N, Norsworthy PJ, Dols-Icardo O, Hummerich H, Kawalia A, Amouyel P, Beecham GW, Berr C, Bis JC, Boland A, Bossù P, Bouwman F, Bras J, Campion D, Cochran JN, Daniele A, Dartigues JF, Debette S, Deleuze JF, Denning N, DeStefano AL, Farrer LA, Fernández MV, Fox NC, Galimberti D, Genin E, Gille JJP, Le Guen Y, Guerreiro R, Haines JL, Holmes C, Ikram MA, Ikram MK, Jansen IE, Kraaij R, Lathrop M, Lemstra AW, Lleó A, Luckcuck L, Mannens MMAM, Marshall R, Martin ER, Masullo C, Mayeux R, Mecocci P, Meggy A, Mol MO, Morgan K, Myers RM, Nacmias B, Naj AC, Napolioni V, Pasquier F, Pastor P, Pericak-Vance MA, Raybould R, Redon R, Reinders MJT, Richard AC, Riedel-Heller SG, Rivadeneira F, Rousseau S, Ryan NS, Saad S, Sanchez-Juan P, Schellenberg GD, Scheltens P, Schott JM, Seripa D, Seshadri S, Sie D, Sistermans EA, Sorbi S, van Spaendonk R, Spalletta G, Tesi N, Tijms B, Uitterlinden AG, van der Lee SJ, Visser PJ, Wagner M, Wallon D, Wang LS, Zarea A, Clarimon J, van Swieten JC, Greicius MD, Yokoyama JS, Cruchaga C, Hardy J, Ramirez A, Mead S, van der Flier WM, van Duijn CM, Williams J, Nicolas G, Bellenguez C, and Lambert JC

Subjects
Humans, Genome-Wide Association Study, Risk Factors, Adenosine Triphosphatases genetics, Alzheimer Disease genetics, ATP Binding Cassette Transporter 1 genetics, Exosomes genetics
Abstract

Alzheimer's disease (AD), the leading cause of dementia, has an estimated heritability of approximately 70% 1 . The genetic component of AD has been mainly assessed using genome-wide association studies, which do not capture the risk contributed by rare variants 2 . Here, we compared the gene-based burden of rare damaging variants in exome sequencing data from 32,558 individuals-16,036 AD cases and 16,522 controls. Next to variants in TREM2, SORL1 and ABCA7, we observed a significant association of rare, predicted damaging variants in ATP8B4 and ABCA1 with AD risk, and a suggestive signal in ADAM10. Additionally, the rare-variant burden in RIN3, CLU, ZCWPW1 and ACE highlighted these genes as potential drivers of respective AD-genome-wide association study loci. Variants associated with the strongest effect on AD risk, in particular loss-of-function variants, are enriched in early-onset AD cases. Our results provide additional evidence for a major role for amyloid-β precursor protein processing, amyloid-β aggregation, lipid metabolism and microglial function in AD., (© 2022. The Author(s).)

Published
2022
Full Text
View/download PDF

14. Simultaneous expression of MMB-FOXM1 complex components enables efficient bypass of senescence.

Author

Kumari R, Hummerich H, Shen X, Fischer M, Litovchick L, Mittnacht S, DeCaprio JA, and Jat PS

Subjects
Breast cytology, Cell Cycle Proteins genetics, Cyclin-Dependent Kinase Inhibitor p21 genetics, Cyclin-Dependent Kinase Inhibitor p21 metabolism, E2F Transcription Factors genetics, E2F Transcription Factors metabolism, Female, Fibroblasts cytology, Forkhead Box Protein M1 genetics, Humans, Kv Channel-Interacting Proteins genetics, Kv Channel-Interacting Proteins metabolism, Multiprotein Complexes genetics, Phosphorylation, Repressor Proteins genetics, Repressor Proteins metabolism, Retinoblastoma Binding Proteins genetics, Retinoblastoma Binding Proteins metabolism, Trans-Activators genetics, Tumor Suppressor Protein p53 genetics, Tumor Suppressor Protein p53 metabolism, Ubiquitin-Protein Ligases genetics, Ubiquitin-Protein Ligases metabolism, YAP-Signaling Proteins genetics, YAP-Signaling Proteins metabolism, Breast metabolism, Cell Cycle Proteins metabolism, Cellular Senescence, Fibroblasts metabolism, Forkhead Box Protein M1 metabolism, Gene Expression Regulation, Multiprotein Complexes metabolism, Trans-Activators metabolism
Abstract

Cellular senescence is a stable cell cycle arrest that normal cells undergo after a finite number of divisions, in response to a variety of intrinsic and extrinsic stimuli. Although senescence is largely established and maintained by the p53/p21 WAF1/CIP1 and pRB/p16 INK4A tumour suppressor pathways, the downstream targets responsible for the stability of the growth arrest are not known. We have employed a stable senescence bypass assay in conditionally immortalised human breast fibroblasts (CL3 EcoR ) to investigate the role of the DREAM complex and its associated components in senescence. DREAM is a multi-subunit complex comprised of the MuvB core, containing LIN9, LIN37, LIN52, LIN54, and RBBP4, that when bound to p130, an RB1 like protein, and E2F4 inhibits cell cycle-dependent gene expression thereby arresting cell division. Phosphorylation of LIN52 at Serine 28 is required for DREAM assembly. Re-entry into the cell cycle upon phosphorylation of p130 leads to disruption of the DREAM complex and the MuvB core, associating initially to B-MYB and later to FOXM1 to form MMB and MMB-FOXM1 complexes respectively. Here we report that simultaneous expression of MMB-FOXM1 complex components efficiently bypasses senescence with LIN52, B-MYB, and FOXM1 as the crucial components. Moreover, bypass of senescence requires non-phosphorylated LIN52 that disrupts the DREAM complex, thereby indicating a central role for assembly of the DREAM complex in senescence., (© 2021. The Author(s).)

Published
2021
Full Text
View/download PDF

15. Identification of novel risk loci and causal insights for sporadic Creutzfeldt-Jakob disease: a genome-wide association study.

Author

Jones E, Hummerich H, Viré E, Uphill J, Dimitriadis A, Speedy H, Campbell T, Norsworthy P, Quinn L, Whitfield J, Linehan J, Jaunmuktane Z, Brandner S, Jat P, Nihat A, How Mok T, Ahmed P, Collins S, Stehmann C, Sarros S, Kovacs GG, Geschwind MD, Golubjatnikov A, Frontzek K, Budka H, Aguzzi A, Karamujić-Čomić H, van der Lee SJ, Ibrahim-Verbaas CA, van Duijn CM, Sikorska B, Golanska E, Liberski PP, Calero M, Calero O, Sanchez-Juan P, Salas A, Martinón-Torres F, Bouaziz-Amar E, Haïk S, Laplanche JL, Brandel JP, Amouyel P, Lambert JC, Parchi P, Bartoletti-Stella A, Capellari S, Poleggi A, Ladogana A, Pocchiari M, Aneli S, Matullo G, Knight R, Zafar S, Zerr I, Booth S, Coulthart MB, Jansen GH, Glisic K, Blevins J, Gambetti P, Safar J, Appleby B, Collinge J, and Mead S

Subjects
Creutzfeldt-Jakob Syndrome diagnosis, Creutzfeldt-Jakob Syndrome epidemiology, Genetic Predisposition to Disease epidemiology, Humans, Polymorphism, Single Nucleotide genetics, Risk Factors, Creutzfeldt-Jakob Syndrome genetics, Genetic Loci genetics, Genetic Predisposition to Disease genetics, Genome-Wide Association Study methods
Abstract

Background: Human prion diseases are rare and usually rapidly fatal neurodegenerative disorders, the most common being sporadic Creutzfeldt-Jakob disease (sCJD). Variants in the PRNP gene that encodes prion protein are strong risk factors for sCJD but, although the condition has similar heritability to other neurodegenerative disorders, no other genetic risk loci have been confirmed. We aimed to discover new genetic risk factors for sCJD, and their causal mechanisms., Methods: We did a genome-wide association study of sCJD in European ancestry populations (patients diagnosed with probable or definite sCJD identified at national CJD referral centres) with a two-stage study design using genotyping arrays and exome sequencing. Conditional, transcriptional, and histological analyses of implicated genes and proteins in brain tissues, and tests of the effects of risk variants on clinical phenotypes, were done using deep longitudinal clinical cohort data. Control data from healthy individuals were obtained from publicly available datasets matched for country., Findings: Samples from 5208 cases were obtained between 1990 and 2014. We found 41 genome-wide significant single nucleotide polymorphisms (SNPs) and independently replicated findings at three loci associated with sCJD risk; within PRNP (rs1799990; additive model odds ratio [OR] 1·23 [95% CI 1·17-1·30], p=2·68 × 10 -15 ; heterozygous model p=1·01 × 10 -135 ), STX6 (rs3747957; OR 1·16 [1·10-1·22], p=9·74 × 10 -9 ), and GAL3ST1 (rs2267161; OR 1·18 [1·12-1·25], p=8·60 × 10 -10 ). Follow-up analyses showed that associations at PRNP and GAL3ST1 are likely to be caused by common variants that alter the protein sequence, whereas risk variants in STX6 are associated with increased expression of the major transcripts in disease-relevant brain regions., Interpretation: We present, to our knowledge, the first evidence of statistically robust genetic associations in sporadic human prion disease that implicate intracellular trafficking and sphingolipid metabolism as molecular causal mechanisms. Risk SNPs in STX6 are shared with progressive supranuclear palsy, a neurodegenerative disease associated with misfolding of protein tau, indicating that sCJD might share the same causal mechanisms as prion-like disorders., Funding: Medical Research Council and the UK National Institute of Health Research in part through the Biomedical Research Centre at University College London Hospitals National Health Service Foundation Trust., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published
2020
Full Text
View/download PDF

16. Variants of PLCXD3 are not associated with variant or sporadic Creutzfeldt-Jakob disease in a large international study.

Author

Balendra R, Uphill J, Collinson C, Druyeh R, Adamson G, Hummerich H, Zerr I, Gambetti P, Collinge J, and Mead S

Subjects
Creutzfeldt-Jakob Syndrome diagnosis, Exons, Genetic Loci, Genome-Wide Association Study, Genotyping Techniques, Germany, Humans, Linkage Disequilibrium, Prion Proteins, Prions genetics, Prions metabolism, Risk Factors, United States, Creutzfeldt-Jakob Syndrome genetics, Phosphoinositide Phospholipase C genetics, Polymorphism, Single Nucleotide
Abstract

Background: Human prion diseases are relentlessly progressive neurodegenerative disorders which include sporadic Creutzfeldt-Jakob disease (sCJD) and variant CJD (vCJD). Aside from variants of the prion protein gene (PRNP) replicated association at genome-wide levels of significance has proven elusive. A recent association study identified variants in or near to the PLCXD3 gene locus as strong disease risk factors in multiple human prion diseases. This study claimed the first non-PRNP locus to be highly significantly associated with prion disease in genomic studies., Methods: A sub-study of a genome-wide association study with imputation aiming to replicate the finding at PLCXD3 including 129 vCJD and 2500 sCJD samples. Whole exome sequencing to identify rare coding variants of PLCXD3., Results: Imputation of relevant polymorphisms was accurate based on wet genotyping of a sample. We found no supportive evidence that PLCXD3 variants are associated with disease., Conclusion: The marked discordance in vCJD genotype frequencies between studies, despite extensive overlap in vCJD cases, and the finding of Hardy-Weinberg disequilibrium in the original study, suggests possible reasons for the discrepancies between studies.

Published
2016
Full Text
View/download PDF

17. Iatrogenic CJD due to pituitary-derived growth hormone with genetically determined incubation times of up to 40 years.

Author

Rudge P, Jaunmuktane Z, Adlard P, Bjurstrom N, Caine D, Lowe J, Norsworthy P, Hummerich H, Druyeh R, Wadsworth JD, Brandner S, Hyare H, Mead S, and Collinge J

Subjects
Adult, Codon, Creutzfeldt-Jakob Syndrome etiology, Creutzfeldt-Jakob Syndrome pathology, Creutzfeldt-Jakob Syndrome physiopathology, Disease Progression, Electroencephalography, Female, Gene-Environment Interaction, Genotype, Homozygote, Humans, Magnetic Resonance Imaging, Male, Methionine, Middle Aged, Prion Proteins, Retrospective Studies, Time Factors, United Kingdom, Valine, Brain pathology, Creutzfeldt-Jakob Syndrome genetics, Drug Contamination, Growth Disorders drug therapy, Human Growth Hormone therapeutic use, Iatrogenic Disease, Infectious Disease Incubation Period, Prions genetics
Abstract

Patients with iatrogenic Creutzfeldt-Jakob disease due to administration of cadaver-sourced growth hormone during childhood are still being seen in the UK 30 years after cessation of this treatment. Of the 77 patients who have developed iatrogenic Creutzfeldt-Jakob disease, 56 have been genotyped. There has been a marked change in genotype profile at polymorphic codon 129 of the prion protein gene (PRNP) from predominantly valine homozygous to a mixed picture of methionine homozygous and methionine-valine heterozygous over time. The incubation period of iatrogenic Creutzfeldt-Jakob disease is significantly different between all three genotypes. This experience is a striking contrast with that in France and the USA, which may relate to contamination of different growth hormone batches with different strains of human prions. We describe the clinical, imaging, molecular and autopsy features in 22 of 24 patients who have developed iatrogenic Creutzfeldt-Jakob disease in the UK since 2003. Mean age at onset of symptoms was 42.7 years. Gait ataxia and lower limb dysaesthesiae were the most frequent presenting symptoms. All had cerebellar signs, and the majority had myoclonus and lower limb pyramidal signs, with relatively preserved cognitive function, when first seen. There was a progressive decline in neurological and cognitive function leading to death after 5-32 (mean 14) months. Despite incubation periods approaching 40 years, the clinical duration in methionine homozygote patients appeared to be shorter than that seen in heterozygote patients. MRI showed restricted diffusion in the basal ganglia, thalamus, hippocampus, frontal and the paracentral motor cortex and cerebellar vermis. The electroencephalogram was abnormal in 15 patients and cerebrospinal fluid 14-3-3 protein was positive in half the patients. Neuropathological examination was conducted in nine patients. All but one showed synaptic prion deposition with numerous kuru type plaques in the basal ganglia, anterior frontal and parietal cortex, thalamus, basal ganglia and cerebellum. The patient with the shortest clinical duration had an atypical synaptic deposition of abnormal prion protein and no kuru plaques. Taken together, these data provide a remarkable example of the interplay between the strain of the pathogen and host prion protein genotype. Based on extensive modelling of human prion transmission barriers in transgenic mice expressing human prion protein on a mouse prion protein null background, the temporal distribution of codon 129 genotypes within the cohort of patients with iatrogenic Creutzfeldt-Jakob disease in the UK suggests that there was a point source of infecting prion contamination of growth hormone derived from a patient with Creutzfeldt-Jakob disease expressing prion protein valine 129., (© The Author (2015). Published by Oxford University Press on behalf of the Guarantors of Brain.)

Published
2015
Full Text
View/download PDF

18. Inherited mtDNA variations are not strong risk factors in human prion disease.

Author

Hudson G, Uphill J, Hummerich H, Blevins J, Gambetti P, Zerr I, Collinge J, Mead S, and Chinnery PF

Subjects
Cohort Studies, Humans, Risk Factors, DNA, Mitochondrial genetics, Genetic Association Studies, Genetic Variation genetics, Prion Diseases genetics
Abstract

Aside from variation in the prion protein gene, genetic risk factors for sporadic Creutzfeldt-Jakob disease remain elusive. Given emerging evidence implicating mitochondrial dysfunction in the pathogenesis of the disorders, we studied the role of inherited mitochondrial DNA variation in a 2255 sporadic prion disease cases and 3768 controls. Our analysis indicates that inherited mitochondrial DNA variation does not have a major role in the risk of developing the disorder., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published
2015
Full Text
View/download PDF

19. Rare structural genetic variation in human prion diseases.

Author

Lukic A, Uphill J, Brown CA, Beck J, Poulter M, Campbell T, Adamson G, Hummerich H, Whitfield J, Ponto C, Zerr I, Lloyd SE, Collinge J, and Mead S

Subjects
3' Untranslated Regions genetics, Aged, Cells, Cultured, Creutzfeldt-Jakob Syndrome genetics, Female, Genetic Predisposition to Disease genetics, Genome-Wide Association Study, Humans, Kuru genetics, Loss of Heterozygosity genetics, Male, Prion Proteins, Risk, Ubiquitin-Protein Ligases genetics, DNA Copy Number Variations genetics, Prion Diseases genetics, Prions genetics
Abstract

Prion diseases are a diverse group of neurodegenerative conditions, caused by the templated misfolding of prion protein. Aside from the strong genetic risk conferred by multiple variants of the prion protein gene (PRNP), several other variants have been suggested to confer risk in the most common type, sporadic Creutzfeldt-Jakob disease (sCJD) or in the acquired prion diseases. Large and rare copy number variants (CNVs) are known to confer risk in several related disorders including Alzheimer's disease (at APP), schizophrenia, epilepsy, mental retardation, and autism. Here, we report the first genome-wide analysis for CNV-associated risk using data derived from a recent international collaborative association study in sCJD (n = 1147 after quality control) and publicly available controls (n = 5427). We also investigated UK patients with variant Creutzfeldt-Jakob disease (n = 114) and elderly women from the Eastern Highlands of Papua New Guinea who proved highly resistant to the epidemic prion disease kuru, who were compared with healthy young Fore population controls (n = 395). There were no statistically significant alterations in the burden of CNVs >100, >500, or >1000 kb, duplications, or deletions in any disease group or geographic region. After correction for multiple testing, no statistically significant associations were found. A UK blood service control sample showed a duplication CNV that overlapped PRNP, but these were not found in prion disease. Heterozygous deletions of a 3' region of the PARK2 gene were found in 3 sCJD patients and no controls (p = 0.001, uncorrected). A cell-based prion infection assay did not provide supportive evidence for a role for PARK2 in prion disease susceptibility. These data are consistent with a modest impact of CNVs on risk of late-onset neurologic conditions and suggest that, unlike APP, PRNP duplication is not a causal high-risk mutation., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published
2015
Full Text
View/download PDF

20. Exome sequencing of 75 individuals from multiply affected coeliac families and large scale resequencing follow up.

Author

Mistry V, Bockett NA, Levine AP, Mirza MM, Hunt KA, Ciclitira PJ, Hummerich H, Neuhausen SL, Simpson MA, Plagnol V, and van Heel DA

Subjects
Case-Control Studies, Female, Follow-Up Studies, Gene Frequency, Genetic Linkage, Genetic Predisposition to Disease, Humans, Male, Pedigree, Polymorphism, Single Nucleotide, Sequence Analysis, DNA, Celiac Disease genetics, Exome
Abstract

Coeliac disease (CeD) is a highly heritable common autoimmune disease involving chronic small intestinal inflammation in response to dietary wheat. The human leukocyte antigen (HLA) region, and 40 newer regions identified by genome wide association studies (GWAS) and dense fine mapping, account for ∼40% of the disease heritability. We hypothesized that in pedigrees with multiple individuals with CeD rare [minor allele frequency (MAF) <0.5%] mutations of larger effect size (odds ratios of ∼2-5) might exist. We sequenced the exomes of 75 coeliac individuals of European ancestry from 55 multiply affected families. We selected interesting variants and genes for further follow up using a combination of: an assessment of shared variants between related subjects, a model-free linkage test, and gene burden tests for multiple, potentially causal, variants. We next performed highly multiplexed amplicon resequencing of all RefSeq exons from 24 candidate genes selected on the basis of the exome sequencing data in 2,248 unrelated coeliac cases and 2,230 controls. 1,335 variants with a 99.9% genotyping call rate were observed in 4,478 samples, of which 939 were present in coding regions of 24 genes (Ti/Tv 2.99). 91.7% of coding variants were rare (MAF <0.5%) and 60% were novel. Gene burden tests performed on rare functional variants identified no significant associations (p<1×10(-3)) in the resequenced candidate genes. Our strategy of sequencing multiply affected families with deep follow up of candidate genes has not identified any new CeD risk mutations.

Published
2015
Full Text
View/download PDF

21. In vitro screen of prion disease susceptibility genes using the scrapie cell assay.

Author

Brown CA, Schmidt C, Poulter M, Hummerich H, Klöhn PC, Jat P, Mead S, Collinge J, and Lloyd SE

Subjects
Animals, Cell Line, Gene Expression, Gene Knockout Techniques, Genome-Wide Association Study, Humans, In Vitro Techniques, Mice, Quantitative Trait Loci, RNA Interference, Scrapie, Genetic Predisposition to Disease, Prion Diseases genetics
Abstract

Prion diseases (transmissible spongiform encephalopathies) are fatal neurodegenerative diseases, including Creutzfeldt-Jakob disease in humans, scrapie in sheep and bovine spongiform encephalopathy in cattle. While genome-wide association studies in human and quantitative trait loci mapping in mice have provided evidence for multiple susceptibility genes, few of these have been confirmed functionally. Phenotyping mouse models is generally the method of choice. However, this is not a feasible option where many novel genes, without pre-existing models, would need to be tested. We have therefore developed and applied an in-vitro screen to triage and prioritize candidate modifier genes for more detailed future studies which is faster, far more cost effective and ethical relative to mouse bioassay models. An in vitro prion bioassay, the scrapie cell assay, uses a neuroblastoma-derived cell line (PK1) that is susceptible to RML prions and able to propagate prions at high levels. In this study, we have generated stable gene silencing and/or overexpressing PK1-derived cell lines to test whether perturbation of 14 candidate genes affects prion susceptibility. While no consistent differences were determined for seven genes, highly significant changes were detected for Zbtb38, Sorcs1, Stmn2, Hspa13, Fkbp9, Actr10 and Plg, suggesting that they play key roles in the fundamental processes of prion propagation or clearance. Many neurodegenerative diseases involve the accumulation of misfolded protein aggregates and 'prion-like' seeding and spread has been implicated in their pathogenesis. It is therefore expected that some of these prion-modifier genes may be of wider relevance in neurodegeneration., (© The Author 2014. Published by Oxford University Press.)

Published
2014
Full Text
View/download PDF

22. Regulation of p53 and Rb links the alternative NF-κB pathway to EZH2 expression and cell senescence.

Author

Iannetti A, Ledoux AC, Tudhope SJ, Sellier H, Zhao B, Mowla S, Moore A, Hummerich H, Gewurz BE, Cockell SJ, Jat PS, Willmore E, and Perkins ND

Subjects
CD40 Ligand agonists, CD40 Ligand metabolism, Cluster Analysis, Enhancer of Zeste Homolog 2 Protein, Enzyme Activation, Fibroblasts metabolism, Gene Expression Profiling, Gene Expression Regulation, Humans, Leukemia, Lymphocytic, Chronic, B-Cell genetics, Leukemia, Lymphocytic, Chronic, B-Cell metabolism, Models, Biological, NF-kappa B p52 Subunit metabolism, Polycomb Repressive Complex 2 metabolism, Protein Binding, Protein Stability, RNA Interference, Reactive Oxygen Species metabolism, Transcription Factor RelB metabolism, Transcription, Genetic, Transcriptome, Cellular Senescence genetics, NF-kappa B metabolism, Polycomb Repressive Complex 2 genetics, Retinoblastoma Protein metabolism, Signal Transduction, Tumor Suppressor Protein p53 metabolism
Abstract

There are two major pathways leading to induction of NF-κB subunits. The classical (or canonical) pathway typically leads to the induction of RelA or c-Rel containing complexes, and involves the degradation of IκBα in a manner dependent on IκB kinase (IKK) β and the IKK regulatory subunit NEMO. The alternative (or non-canonical) pathway, involves the inducible processing of p100 to p52, leading to the induction of NF-κB2(p52)/RelB containing complexes, and is dependent on IKKα and NF-κB inducing kinase (NIK). Here we demonstrate that in primary human fibroblasts, the alternative NF-κB pathway subunits NF-κB2 and RelB have multiple, but distinct, effects on the expression of key regulators of the cell cycle, reactive oxygen species (ROS) generation and protein stability. Specifically, following siRNA knockdown, quantitative PCR, western blot analyses and chromatin immunoprecipitation (ChIP) show that NF-κB2 regulates the expression of CDK4 and CDK6, while RelB, through the regulation of genes such as PSMA5 and ANAPC1, regulates the stability of p21WAF1 and the tumour suppressor p53. These combine to regulate the activity of the retinoblastoma protein, Rb, leading to induction of polycomb protein EZH2 expression. Moreover, our ChIP analysis demonstrates that EZH2 is also a direct NF-κB target gene. Microarray analysis revealed that in fibroblasts, EZH2 antagonizes a subset of p53 target genes previously associated with the senescent cell phenotype, including DEK and RacGAP1. We show that this pathway provides the major route of crosstalk between the alternative NF-κB pathway and p53, a consequence of which is to suppress cell senescence. Importantly, we find that activation of NF-κB also induces EZH2 expression in CD40L stimulated cells from Chronic Lymphocytic Leukemia patients. We therefore propose that this pathway provides a mechanism through which microenvironment induced NF-κB can inhibit tumor suppressor function and promote tumorigenesis.

Published
2014
Full Text
View/download PDF

23. Identification of a gene regulatory network associated with prion replication.

Author

Marbiah MM, Harvey A, West BT, Louzolo A, Banerjee P, Alden J, Grigoriadis A, Hummerich H, Kan HM, Cai Y, Bloom GS, Jat P, Collinge J, and Klöhn PC

Subjects
Animals, Cloning, Molecular, Flow Cytometry, Humans, Mice, Microarray Analysis, Microscopy, Fluorescence, PrPC Proteins genetics, Prions chemistry, RNA, Small Interfering genetics, Real-Time Polymerase Chain Reaction, Spectrophotometry, ras GTPase-Activating Proteins genetics, ras GTPase-Activating Proteins metabolism, Cell Differentiation genetics, Extracellular Matrix metabolism, Gene Regulatory Networks genetics, Models, Molecular, PrPC Proteins metabolism, Prions genetics, Transcriptome genetics
Abstract

Prions consist of aggregates of abnormal conformers of the cellular prion protein (PrP(C)). They propagate by recruiting host-encoded PrP(C) although the critical interacting proteins and the reasons for the differences in susceptibility of distinct cell lines and populations are unknown. We derived a lineage of cell lines with markedly differing susceptibilities, unexplained by PrP(C) expression differences, to identify such factors. Transcriptome analysis of prion-resistant revertants, isolated from highly susceptible cells, revealed a gene expression signature associated with susceptibility and modulated by differentiation. Several of these genes encode proteins with a role in extracellular matrix (ECM) remodelling, a compartment in which disease-related PrP is deposited. Silencing nine of these genes significantly increased susceptibility. Silencing of Papss2 led to undersulphated heparan sulphate and increased PrP(C) deposition at the ECM, concomitantly with increased prion propagation. Moreover, inhibition of fibronectin 1 binding to integrin α8 by RGD peptide inhibited metalloproteinases (MMP)-2/9 whilst increasing prion propagation. In summary, we have identified a gene regulatory network associated with prion propagation at the ECM and governed by the cellular differentiation state., (© 2014 The Authors. Published under the terms of the CC BY 4.0 license.)

Published
2014
Full Text
View/download PDF

24. Sod1 deficiency reduces incubation time in mouse models of prion disease.

Author

Akhtar S, Grizenkova J, Wenborn A, Hummerich H, Fernandez de Marco M, Brandner S, Collinge J, and Lloyd SE

Subjects
Amyloid beta-Protein Precursor genetics, Animals, Disease Models, Animal, Humans, Mice, Polymorphism, Single Nucleotide, Prion Diseases physiopathology, Quantitative Trait Loci genetics, Receptors, Interleukin-11 genetics, Superoxide Dismutase deficiency, Superoxide Dismutase-1, Genetic Association Studies, Prion Diseases genetics, Superoxide Dismutase genetics
Abstract

Prion infections, causing neurodegenerative conditions such as Creutzfeldt-Jakob disease and kuru in humans, scrapie in sheep and BSE in cattle are characterised by prolonged and variable incubation periods that are faithfully reproduced in mouse models. Incubation time is partly determined by genetic factors including polymorphisms in the prion protein gene. Quantitative trait loci studies in mice and human genome-wide association studies have confirmed that multiple genes are involved. Candidate gene approaches have also been used and identified App, Il1-r1 and Sod1 as affecting incubation times. In this study we looked for an association between App, Il1-r1 and Sod1 representative SNPs and prion disease incubation time in the Northport heterogeneous stock of mice inoculated with the Chandler/RML prion strain. No association was seen with App, however, significant associations were seen with Il1-r1 (P = 0.02) and Sod1 (P<0.0001) suggesting that polymorphisms at these loci contribute to the natural variation observed in incubation time. Furthermore, following challenge with Chandler/RML, ME7 and MRC2 prion strains, Sod1 deficient mice showed highly significant reductions in incubation time of 20, 13 and 24%, respectively. No differences were detected in Sod1 expression or activity. Our data confirm the protective role of endogenous Sod1 in prion disease.

Published
2013
Full Text
View/download PDF

25. Overexpression of the Hspa13 (Stch) gene reduces prion disease incubation time in mice.

Author

Grizenkova J, Akhtar S, Hummerich H, Tomlinson A, Asante EA, Wenborn A, Fizet J, Poulter M, Wiseman FK, Fisher EM, Tybulewicz VL, Brandner S, Collinge J, and Lloyd SE

Subjects
Adenosine Triphosphatases chemistry, Animals, HSP70 Heat-Shock Proteins genetics, Humans, Mice, Mice, Inbred C57BL, Mice, Inbred CBA, Mice, Transgenic, Models, Genetic, Neurons metabolism, Oligonucleotide Array Sequence Analysis, Phenotype, Prions metabolism, RNA, Complementary metabolism, Gene Expression Regulation, HSP70 Heat-Shock Proteins biosynthesis, HSP70 Heat-Shock Proteins physiology, Prion Diseases genetics
Abstract

Prion diseases are fatal neurodegenerative disorders that include bovine spongiform encephalopathy (BSE) and scrapie in animals and Creutzfeldt-Jakob disease (CJD) in humans. They are characterized by long incubation periods, variation in which is determined by many factors including genetic background. In some cases it is possible that incubation time may be directly correlated to the level of gene expression. To test this hypothesis, we combined incubation time data from five different inbred lines of mice with quantitative gene expression profiling in normal brains and identified five genes with expression levels that correlate with incubation time. One of these genes, Hspa13 (Stch), is a member of the Hsp70 family of ATPase heat shock proteins, which have been previously implicated in prion propagation. To test whether Hspa13 plays a causal role in determining the incubation period, we tested two overexpressing mouse models. The Tc1 human chromosome 21 (Hsa21) transchromosomic mouse model of Down syndrome is trisomic for many Hsa21 genes including Hspa13 and following Chandler/Rocky Mountain Laboratory (RML) prion inoculation, shows a 4% reduction in incubation time. Furthermore, a transgenic model with eightfold overexpression of mouse Hspa13 exhibited highly significant reductions in incubation time of 16, 15, and 7% following infection with Chandler/RML, ME7, and MRC2 prion strains, respectively. These data further implicate Hsp70-like molecular chaperones in protein misfolding disorders such as prion disease.

Published
2012
Full Text
View/download PDF

26. Genome-wide association study in multiple human prion diseases suggests genetic risk factors additional to PRNP.

Author

Mead S, Uphill J, Beck J, Poulter M, Campbell T, Lowe J, Adamson G, Hummerich H, Klopp N, Rückert IM, Wichmann HE, Azazi D, Plagnol V, Pako WH, Whitfield J, Alpers MP, Whittaker J, Balding DJ, Zerr I, Kretzschmar H, and Collinge J

Subjects
Case-Control Studies, Creutzfeldt-Jakob Syndrome genetics, Disease Resistance, Encephalopathy, Bovine Spongiform genetics, Female, Humans, Kuru genetics, Neoplasm Proteins genetics, Prion Proteins, Risk Factors, ras GTPase-Activating Proteins genetics, Genetic Predisposition to Disease, Genome-Wide Association Study, Polymorphism, Single Nucleotide, Prion Diseases genetics, Prions genetics
Abstract

Prion diseases are fatal neurodegenerative diseases of humans and animals caused by the misfolding and aggregation of prion protein (PrP). Mammalian prion diseases are under strong genetic control but few risk factors are known aside from the PrP gene locus (PRNP). No genome-wide association study (GWAS) has been done aside from a small sample of variant Creutzfeldt-Jakob disease (CJD). We conducted GWAS of sporadic CJD (sCJD), variant CJD (vCJD), iatrogenic CJD, inherited prion disease, kuru and resistance to kuru despite attendance at mortuary feasts. After quality control, we analysed 2000 samples and 6015 control individuals (provided by the Wellcome Trust Case Control Consortium and KORA-gen) for 491032-511862 SNPs in the European study. Association studies were done in each geographical and aetiological group followed by several combined analyses. The PRNP locus was highly associated with risk in all geographical and aetiological groups. This association was driven by the known coding variation at rs1799990 (PRNP codon 129). No non-PRNP loci achieved genome-wide significance in the meta-analysis of all human prion disease. SNPs at the ZBTB38-RASA2 locus were associated with CJD in the UK (rs295301, P = 3.13 × 10(-8); OR, 0.70) but these SNPs showed no replication evidence of association in German sCJD or in Papua New Guinea-based tests. A SNP in the CHN2 gene was associated with vCJD [P = 1.5 × 10(-7); odds ratio (OR), 2.36], but not in UK sCJD (P = 0.049; OR, 1.24), in German sCJD or in PNG groups. In the overall meta-analysis of CJD, 14 SNPs were associated (P < 10(-5); two at PRNP, three at ZBTB38-RASA2, nine at nine other independent non-PRNP loci), more than would be expected by chance. None of the loci recently identified as genome-wide significant in studies of other neurodegenerative diseases showed any clear evidence of association in prion diseases. Concerning common genetic variation, it is likely that the PRNP locus contains the only strong risk factors that act universally across human prion diseases. Our data are most consistent with several other risk loci of modest overall effects which will require further genetic association studies to provide definitive evidence.

Published
2012
Full Text
View/download PDF

27. Plasmacytoid dendritic cells sequester high prion titres at early stages of prion infection.

Author

Castro-Seoane R, Hummerich H, Sweeting T, Tattum MH, Linehan JM, Fernandez de Marco M, Brandner S, Collinge J, and Klöhn PC

Subjects
Animals, Cell Separation, Dendritic Cells metabolism, Exosomes metabolism, Flow Cytometry, Immunohistochemistry, Mice, Mice, Inbred C57BL, Microscopy, Electron, PrPC Proteins metabolism, PrPC Proteins ultrastructure, Scrapie metabolism, Spleen metabolism, Spleen pathology, Dendritic Cells ultrastructure, Exosomes ultrastructure, PrPC Proteins analysis, Scrapie pathology
Abstract

In most transmissible spongiform encephalopathies prions accumulate in the lymphoreticular system (LRS) long before they are detectable in the central nervous system. While a considerable body of evidence showed that B lymphocytes and follicular dendritic cells play a major role in prion colonization of lymphoid organs, the contribution of various other cell types, including antigen-presenting cells, to the accumulation and the spread of prions in the LRS are not well understood. A comprehensive study to compare prion titers of candidate cell types has not been performed to date, mainly due to limitations in the scope of animal bioassays where prohibitively large numbers of mice would be required to obtain sufficiently accurate data. By taking advantage of quantitative in vitro prion determination and magnetic-activated cell sorting, we studied the kinetics of prion accumulation in various splenic cell types at early stages of prion infection. Robust estimates for infectious titers were obtained by statistical modelling using a generalized linear model. Whilst prions were detectable in B and T lymphocytes and in antigen-presenting cells like dendritic cells and macrophages, highest infectious titers were determined in two cell types that have previously not been associated with prion pathogenesis, plasmacytoid dendritic (pDC) and natural killer (NK) cells. At 30 days after infection, NK cells were more than twice, and pDCs about seven-fold, as infectious as lymphocytes respectively. This result was unexpected since, in accordance to previous reports prion protein, an obligate requirement for prion replication, was undetectable in pDCs. This underscores the importance of prion sequestration and dissemination by antigen-presenting cells which are among the first cells of the immune system to encounter pathogens. We furthermore report the first evidence for a release of prions from lymphocytes and DCs of scrapie-infected mice ex vivo, a process that is associated with a release of exosome-like membrane vesicles.

Published
2012
Full Text
View/download PDF

28. A Copine family member, Cpne8, is a candidate quantitative trait gene for prion disease incubation time in mouse.

Author

Lloyd SE, Maytham EG, Grizenkova J, Hummerich H, and Collinge J

Subjects
Animals, Chromosomes, Mammalian, Genetic Linkage, Genetic Predisposition to Disease, Humans, Mice, Mice, Inbred C57BL, Polymorphism, Single Nucleotide, Carrier Proteins genetics, Infectious Disease Incubation Period, Prion Diseases genetics, Quantitative Trait Loci
Abstract

Prion disease incubation time in mice is determined by many factors including genetic background. The prion gene itself plays a major role in incubation time; however, other genes are also known to be important. Whilst quantitative trait loci (QTL) studies have identified multiple loci across the genome, these regions are often large, and with the exception of Hectd2 on Mmu19, no quantitative trait genes or nucleotides for prion disease incubation time have been demonstrated. In this study, we use the Northport heterogeneous stock of mice to reduce the size of a previously identified QTL on Mmu15 from approximately 25 to 1.2 cM. We further characterised the genes in this region and identify Cpne8, a member of the copine family, as the most promising candidate gene. We also show that Cpne8 mRNA is upregulated at the terminal stage of disease, supporting a role in prion disease. Applying these techniques to other loci will facilitate the identification of key pathways in prion disease pathogenesis.

Published
2010
Full Text
View/download PDF

29. A novel protective prion protein variant that colocalizes with kuru exposure.

Author

Mead S, Whitfield J, Poulter M, Shah P, Uphill J, Campbell T, Al-Dujaily H, Hummerich H, Beck J, Mein CA, Verzilli C, Whittaker J, Alpers MP, and Collinge J

Subjects
Adolescent, Adult, Aged, Cannibalism, Disease Outbreaks, Female, Gene Frequency, Genetic Fitness, Genotype, Haplotypes, Humans, Kuru epidemiology, Male, Middle Aged, Papua New Guinea epidemiology, Prion Proteins, Young Adult, Genetic Predisposition to Disease, Kuru genetics, Polymorphism, Genetic, Prions genetics
Abstract

Background: Kuru is a devastating epidemic prion disease that affected a highly restricted geographic area of the Papua New Guinea highlands; at its peak, it predominantly affected adult women and children of both sexes. Its incidence has steadily declined since the cessation of its route of transmission, endocannibalism., Methods: We performed genetic and selected clinical and genealogic assessments of more than 3000 persons from Eastern Highland populations, including 709 who participated in cannibalistic mortuary feasts, 152 of whom subsequently died of kuru., Results: Persons who were exposed to kuru and survived the epidemic in Papua New Guinea are predominantly heterozygotes at the known resistance factor at codon 129 of the prion protein gene (PRNP). We now report a novel PRNP variant--G127V--that was found exclusively in people who lived in the region in which kuru was prevalent and that was present in half of the otherwise susceptible women from the region of highest exposure who were homozygous for methionine at PRNP codon 129. Although this allele is common in the area with the highest incidence of kuru, it is not found in patients with kuru and in unexposed population groups worldwide. Genealogic analysis reveals a significantly lower incidence of kuru in pedigrees that harbor the protective allele than in geographically matched control families., Conclusions: The 127V polymorphism is an acquired prion disease resistance factor selected during the kuru epidemic, rather than a pathogenic mutation that could have triggered the kuru epidemic. Variants at codons 127 and 129 of PRNP demonstrate the population genetic response to an epidemic of prion disease and represent a powerful episode of recent selection in humans., (2009 Massachusetts Medical Society)

Published
2009
Full Text
View/download PDF

30. HECTD2 is associated with susceptibility to mouse and human prion disease.

Author

Lloyd SE, Maytham EG, Pota H, Grizenkova J, Molou E, Uphill J, Hummerich H, Whitfield J, Alpers MP, Mead S, and Collinge J

Subjects
Adolescent, Adult, Aged, Animals, Cells, Cultured, Female, Gene Expression, Humans, Lymphocytes metabolism, Male, Mice, Middle Aged, Polymorphism, Single Nucleotide, Prion Diseases metabolism, Quantitative Trait Loci, Rodent Diseases metabolism, Ubiquitin-Protein Ligases metabolism, White People genetics, Young Adult, Genetic Predisposition to Disease, Prion Diseases genetics, Prion Diseases veterinary, Rodent Diseases genetics, Ubiquitin-Protein Ligases genetics
Abstract

Prion diseases are fatal transmissible neurodegenerative disorders, which include Scrapie, Bovine Spongiform Encephalopathy (BSE), Creutzfeldt-Jakob Disease (CJD), and kuru. They are characterised by a prolonged clinically silent incubation period, variation in which is determined by many factors, including genetic background. We have used a heterogeneous stock of mice to identify Hectd2, an E3 ubiquitin ligase, as a quantitative trait gene for prion disease incubation time in mice. Further, we report an association between HECTD2 haplotypes and susceptibility to the acquired human prion diseases, vCJD and kuru. We report a genotype-associated differential expression of Hectd2 mRNA in mouse brains and human lymphocytes and a significant up-regulation of transcript in mice at the terminal stage of prion disease. Although the substrate of HECTD2 is unknown, these data highlight the importance of proteosome-directed protein degradation in neurodegeneration. This is the first demonstration of a mouse quantitative trait gene that also influences susceptibility to human prion diseases. Characterisation of such genes is key to understanding human risk and the molecular basis of incubation periods., Competing Interests: The authors have declared that no competing interests exist.

Published
2009
Full Text
View/download PDF

31. Genetic risk factors for variant Creutzfeldt-Jakob disease: a genome-wide association study.

Author

Mead S, Poulter M, Uphill J, Beck J, Whitfield J, Webb TE, Campbell T, Adamson G, Deriziotis P, Tabrizi SJ, Hummerich H, Verzilli C, Alpers MP, Whittaker JC, and Collinge J

Subjects
Adult, Age of Onset, Aged, Alleles, Chromosomes, Human genetics, DNA genetics, Data Interpretation, Statistical, Female, Genome-Wide Association Study, Genotype, Humans, Kuru epidemiology, Linkage Disequilibrium genetics, Male, Membrane Proteins genetics, Middle Aged, Papua New Guinea epidemiology, Polymorphism, Single Nucleotide, Population Surveillance, Prion Proteins, Prions genetics, Quality Control, Risk Factors, Stathmin, United Kingdom epidemiology, Creutzfeldt-Jakob Syndrome epidemiology, Creutzfeldt-Jakob Syndrome genetics
Abstract

Background: Human and animal prion diseases are under genetic control, but apart from PRNP (the gene that encodes the prion protein), we understand little about human susceptibility to bovine spongiform encephalopathy (BSE) prions, the causal agent of variant Creutzfeldt-Jakob disease (vCJD)., Methods: We did a genome-wide association study of the risk of vCJD and tested for replication of our findings in samples from many categories of human prion disease (929 samples) and control samples from the UK and Papua New Guinea (4254 samples), including controls in the UK who were genotyped by the Wellcome Trust Case Control Consortium. We also did follow-up analyses of the genetic control of the clinical phenotype of prion disease and analysed candidate gene expression in a mouse cellular model of prion infection., Findings: The PRNP locus was strongly associated with risk across several markers and all categories of prion disease (best single SNP [single nucleotide polymorphism] association in vCJD p=2.5 x 10(-17); best haplotypic association in vCJD p=1 x 10(-24)). Although the main contribution to disease risk was conferred by PRNP polymorphic codon 129, another nearby SNP conferred increased risk of vCJD. In addition to PRNP, one technically validated SNP association upstream of RARB (the gene that encodes retinoic acid receptor beta) had nominal genome-wide significance (p=1.9 x 10(-7)). A similar association was found in a small sample of patients with iatrogenic CJD (p=0.030) but not in patients with sporadic CJD (sCJD) or kuru. In cultured cells, retinoic acid regulates the expression of the prion protein. We found an association with acquired prion disease, including vCJD (p=5.6 x 10(-5)), kuru incubation time (p=0.017), and resistance to kuru (p=2.5 x 10(-4)), in a region upstream of STMN2 (the gene that encodes SCG10). The risk genotype was not associated with sCJD but conferred an earlier age of onset. Furthermore, expression of Stmn2 was reduced 30-fold post-infection in a mouse cellular model of prion disease., Interpretation: The polymorphic codon 129 of PRNP was the main genetic risk factor for vCJD; however, additional candidate loci have been identified, which justifies functional analyses of these biological pathways in prion disease.

Published
2009
Full Text
View/download PDF

32. Genetic susceptibility, evolution and the kuru epidemic.

Author

Mead S, Whitfield J, Poulter M, Shah P, Uphill J, Beck J, Campbell T, Al-Dujaily H, Hummerich H, Alpers MP, and Collinge J

Subjects
Female, Gene Frequency, Haplotypes genetics, Heterozygote, Humans, Male, Papua New Guinea epidemiology, Prion Proteins, Selection, Genetic, Ethnicity genetics, Genetic Predisposition to Disease genetics, Genetic Variation, Kuru epidemiology, Kuru genetics, Prions genetics
Abstract

The acquired prion disease kuru was restricted to the Fore and neighbouring linguistic groups of the Papua New Guinea highlands and largely affected children and adult women. Oral history documents the onset of the epidemic in the early twentieth century, followed by a peak in the mid-twentieth century and subsequently a well-documented decline in frequency. In the context of these strong associations (gender, region and time), we have considered the genetic factors associated with susceptibility and resistance to kuru. Heterozygosity at codon 129 of the human prion protein gene (PRNP) is known to confer relative resistance to both sporadic and acquired prion diseases. In kuru, heterozygosity is associated with older patients and longer incubation times. Elderly survivors of the kuru epidemic, who had multiple exposures at mortuary feasts, are predominantly PRNP codon 129 heterozygotes and this group show marked Hardy-Weinberg disequilibrium. The deviation from Hardy-Weinberg equilibrium is most marked in elderly women, but is also significant in a slightly younger cohort of men, consistent with their exposure to kuru as boys. Young Fore and the elderly from populations with no history of kuru show Hardy-Weinberg equilibrium. An increasing cline in 129V allele frequency centres on the kuru region, consistent with the effect of selection in elevating the frequency of resistant genotypes in the exposed population. The genetic data are thus strikingly correlated with exposure. Considering the strong coding sequence conservation of primate prion protein genes, the number of global coding polymorphisms in man is surprising. By intronic resequencing in a European population, we have shown that haplotype diversity at PRNP comprises two major and divergent clades associated with 129M and 129V. Kuru may have imposed the strongest episode of recent human balancing selection, which may not have been an isolated episode in human history.

Published
2008
Full Text
View/download PDF

33. Genomic anatomy of the Tyrp1 (brown) deletion complex.

Author

Smyth IM, Wilming L, Lee AW, Taylor MS, Gautier P, Barlow K, Wallis J, Martin S, Glithero R, Phillimore B, Pelan S, Andrew R, Holt K, Taylor R, McLaren S, Burton J, Bailey J, Sims S, Squares J, Plumb B, Joy A, Gibson R, Gilbert J, Hart E, Laird G, Loveland J, Mudge J, Steward C, Swarbreck D, Harrow J, North P, Leaves N, Greystrong J, Coppola M, Manjunath S, Campbell M, Smith M, Strachan G, Tofts C, Boal E, Cobley V, Hunter G, Kimberley C, Thomas D, Cave-Berry L, Weston P, Botcherby MR, White S, Edgar R, Cross SH, Irvani M, Hummerich H, Simpson EH, Johnson D, Hunsicker PR, Little PF, Hubbard T, Campbell RD, Rogers J, and Jackson IJ

Subjects
Animals, Base Sequence, Biological Evolution, Chromosome Mapping, Chromosomes, Artificial, Bacterial genetics, Female, Fetal Death genetics, Genes, Lethal, Hair Color genetics, Mice, Mice, Inbred C57BL, Mice, Mutant Strains, Phenotype, Polymorphism, Single Nucleotide, Pregnancy, Chromosome Deletion, Membrane Glycoproteins genetics, Oxidoreductases genetics
Abstract

Chromosome deletions in the mouse have proven invaluable in the dissection of gene function. The brown deletion complex comprises >28 independent genome rearrangements, which have been used to identify several functional loci on chromosome 4 required for normal embryonic and postnatal development. We have constructed a 172-bacterial artificial chromosome contig that spans this 22-megabase (Mb) interval and have produced a contiguous, finished, and manually annotated sequence from these clones. The deletion complex is strikingly gene-poor, containing only 52 protein-coding genes (of which only 39 are supported by human homologues) and has several further notable genomic features, including several segments of >1 Mb, apparently devoid of a coding sequence. We have used sequence polymorphisms to finely map the deletion breakpoints and identify strong candidate genes for the known phenotypes that map to this region, including three lethal loci (l4Rn1, l4Rn2, and l4Rn3) and the fitness mutant brown-associated fitness (baf). We have also characterized misexpression of the basonuclin homologue, Bnc2, associated with the inversion-mediated coat color mutant white-based brown (B(w)). This study provides a molecular insight into the basis of several characterized mouse mutants, which will allow further dissection of this region by targeted or chemical mutagenesis.

Published
2006
Full Text
View/download PDF

34. Genetic analysis of the cytoplasmic dynein subunit families.

Author

Pfister KK, Shah PR, Hummerich H, Russ A, Cotton J, Annuar AA, King SM, and Fisher EM

Subjects
Animals, COS Cells, Chlamydomonas metabolism, Chlorocebus aethiops, Cytoplasmic Dyneins, Humans, Mice, Microtubules chemistry, Multigene Family, Cytoplasm metabolism, Dyneins chemistry, Models, Genetic
Abstract

Cytoplasmic dyneins, the principal microtubule minus-end-directed motor proteins of the cell, are involved in many essential cellular processes. The major form of this enzyme is a complex of at least six protein subunits, and in mammals all but one of the subunits are encoded by at least two genes. Here we review current knowledge concerning the subunits, their interactions, and their functional roles as derived from biochemical and genetic analyses. We also carried out extensive database searches to look for new genes and to clarify anomalies in the databases. Our analysis documents evolutionary relationships among the dynein subunits of mammals and other model organisms, and sheds new light on the role of this diverse group of proteins, highlighting the existence of two cytoplasmic dynein complexes with distinct cellular roles.

Published
2006
Full Text
View/download PDF

35. Mutations in the endosomal ESCRTIII-complex subunit CHMP2B in frontotemporal dementia.

Author

Skibinski G, Parkinson NJ, Brown JM, Chakrabarti L, Lloyd SL, Hummerich H, Nielsen JE, Hodges JR, Spillantini MG, Thusgaard T, Brandner S, Brun A, Rossor MN, Gade A, Johannsen P, Sørensen SA, Gydesen S, Fisher EM, and Collinge J

Subjects
Endosomal Sorting Complexes Required for Transport, Humans, Mutation, Missense, Pedigree, RNA Splicing, Dementia genetics, Mutation, Nerve Tissue Proteins genetics
Abstract

We have previously reported a large Danish pedigree with autosomal dominant frontotemporal dementia (FTD) linked to chromosome 3 (FTD3). Here we identify a mutation in CHMP2B, encoding a component of the endosomal ESCRTIII complex, and show that it results in aberrant mRNA splicing in tissue samples from affected members of this family. We also describe an additional missense mutation in an unrelated individual with FTD. Aberration in the endosomal ESCRTIII complex may result in FTD and neurodegenerative disease.

Published
2005
Full Text
View/download PDF

36. Paradigms for the identification of new genes in motor neuron degeneration.

Author

Hafezparast M, Ahmad-Annuar A, Hummerich H, Shah P, Ford M, Baker C, Bowen S, Martin JE, and Fisher EM

Subjects
Animals, Chromosome Mapping methods, Dynactin Complex, Mice, Mice, Inbred C57BL, Mice, Transgenic, Microtubule-Associated Proteins genetics, Mutation, Phenotype, Superoxide Dismutase genetics, Superoxide Dismutase-1, Amyotrophic Lateral Sclerosis genetics, Disease Models, Animal, Motor Neurons, Nerve Degeneration genetics
Abstract

It is estimated that between 10-20% of amyotrophic lateral sclerosis (ALS) is familial and these cases encompass recessive and dominant modes of inheritance. So far, mutations in three genes, superoxide dismutase 1 (SOD1), the p150 subunit of dynactin (DCTN1), and alsin have been shown to be directly causal for motor neuron degeneration in humans. However, clearly the disorder is genetically heterogeneous and other causal genes remain to be found that explain the vast majority of familial ALS cases. Human genetics can be problematical in that it is difficult to detect linkage in disorders in which multiple loci give similar phenotypes and where families are often small. In addition, the vertical collection of generations is often not possible with late onset disorders. An excellent genetic model of humans is provided by the mouse. We can use mouse models of neurodegeneration to find new genes in the human population. These models are not exact replicas of the human condition, but are the mouse equivalent and are incredibly valuable resources for highlighting genes and biochemical pathways disrupted in ALS and other diseases. In addition mouse models give us access to both control and affected tissues, at all stages of development and disease, thus greatly facilitating our understanding of pathogenesis. They also provide us with model systems for testing new therapies. Here we describe the approach taken to the characterization of new models of motor neuron disease and illustrate this with examples, including a recently characterized mouse model, Legs at odd angles (Loa).

Published
2003
Full Text
View/download PDF

37. No association with common Caucasian genotypes in exons 8, 13 and 14 of the human cytoplasmic dynein heavy chain gene (DNCHC1) and familial motor neuron disorders.

Author

Ahmad-Annuar A, Shah P, Hafezparast M, Hummerich H, Witherden AS, Morrison KE, Shaw PJ, Kirby J, Warner TT, Crosby A, Proukakis C, Wilkinson P, Orrell RW, Bradley L, Martin JE, and Fisher EM

Subjects
DNA Mutational Analysis, Family Health, Female, Genomics, Genotype, Humans, Molecular Sequence Data, Polymorphism, Single Nucleotide, Reverse Transcriptase Polymerase Chain Reaction, Sequence Analysis, DNA, White People genetics, Dyneins genetics, Exons, Motor Neuron Disease genetics, Protein Subunits genetics
Abstract

We have shown in a mouse model of motor neuron disease, the legs-at-odd-angles (Loa) mutant, and that mutations in the cytoplasmic dynein heavy chain gene (Dnchc1) cause motor neuron degeneration. Mice exhibiting the Loa phenotype suffer progressive loss of locomotor function and homozygous animals have neuronal inclusion bodies that are positive for SOD1, CDK5, neurofilament and ubiquitin proteins. As this phenotype models some aspects of human motor neuron degeneration disorders, we think there is a reasonable likelihood that dynein may be a causative gene or susceptibility factor in human motor neuron disease. Therefore we have screened exons of this gene in a set of human patients with familial forms of disparate motor neuron degeneration diseases, affecting both upper and lower motor neurons: amyotrophic lateral sclerosis (ALS), spinal muscular atrophy (SMA), and hereditary spastic paraplegia. As part of this study, we have determined that DNCHC1 is a large gene of 78 exons spanning 86 kb genomic length. We have focused on the exons known to be mutated in Loa, and in a very similar mouse mutation, cramping 1 (Cra1); both mutations result in loss of anterior horn cells. The exons studied are highly conserved in a wide range of eukaryotes. We screened our patient samples by sequencing and although we detect single nucleotide polymorphisms, our results show these occur at the same frequency in our patient group as in control samples of unaffected individuals. Therefore we do not find any association between familial motor neuron disease and the genotypes presented here in the exons screened.

Published
2003
Full Text
View/download PDF

38. GANESH: software for customized annotation of genome regions.

Author

Huntley D, Hummerich H, Smedley D, Kittivoravitkul S, McCarthy M, Little P, and Sergot M

Subjects
Animals, Base Sequence, Calcium-Binding Proteins classification, Calcium-Binding Proteins genetics, Computational Biology trends, Database Management Systems, Eye Proteins, Homeodomain Proteins classification, Homeodomain Proteins genetics, Humans, Molecular Sequence Data, PAX6 Transcription Factor, Paired Box Transcription Factors, Proteome classification, Proteome genetics, Repressor Proteins, Takifugu genetics, WT1 Proteins classification, WT1 Proteins genetics, Computational Biology methods, Databases, Genetic classification, Databases, Genetic standards, Databases, Genetic statistics & numerical data, Genome, Genome, Human, Software
Abstract

GANESH is a software package designed to support the genetic analysis of regions of human and other genomes. It provides a set of components that may be assembled to construct a self-updating database of DNA sequence, mapping data, and annotations of possible genome features. Once one or more remote sources of data for the target region have been identified, all sequences for that region are downloaded, assimilated, and subjected to a (configurable) set of standard database-searching and genome-analysis packages. The results are stored in compressed form in a relational database, and are updated automatically on a regular schedule so that they are always immediately available in their most up-to-date versions. A Java front-end, executed as a stand alone application or web applet, provides a graphical interface for navigating the database and for viewing the annotations. There are facilities for importing and exporting data in the format of the Distributed Annotation System (DAS), enabling a GANESH database to be used as a component of a DAS configuration. The system has been used to construct databases for about a dozen regions of human chromosomes and for three regions of mouse chromosomes.

Published
2003
Full Text
View/download PDF

39. Mutations in dynein link motor neuron degeneration to defects in retrograde transport.

Author

Hafezparast M, Klocke R, Ruhrberg C, Marquardt A, Ahmad-Annuar A, Bowen S, Lalli G, Witherden AS, Hummerich H, Nicholson S, Morgan PJ, Oozageer R, Priestley JV, Averill S, King VR, Ball S, Peters J, Toda T, Yamamoto A, Hiraoka Y, Augustin M, Korthaus D, Wattler S, Wabnitz P, Dickneite C, Lampel S, Boehme F, Peraus G, Popp A, Rudelius M, Schlegel J, Fuchs H, Hrabe de Angelis M, Schiavo G, Shima DT, Russ AP, Stumm G, Martin JE, and Fisher EM

Subjects
Animals, Anterior Horn Cells pathology, Apoptosis, Cell Differentiation, Cell Movement, Central Nervous System embryology, Chromosome Mapping, Dimerization, Dyneins chemistry, Female, Ganglia, Spinal pathology, Golgi Apparatus metabolism, Golgi Apparatus ultrastructure, Heterozygote, Homozygote, Lewy Bodies pathology, Male, Mice, Mice, Inbred C3H, Mice, Inbred C57BL, Motor Neuron Disease pathology, Motor Neuron Disease physiopathology, Motor Neurons ultrastructure, Mutation, Mutation, Missense, Peptide Fragments metabolism, Phenotype, Point Mutation, Spinal Nerves growth & development, Tetanus Toxin metabolism, Axonal Transport, Dyneins genetics, Dyneins physiology, Motor Neuron Disease genetics, Motor Neurons physiology, Nerve Degeneration
Abstract

Degenerative disorders of motor neurons include a range of progressive fatal diseases such as amyotrophic lateral sclerosis (ALS), spinal-bulbar muscular atrophy (SBMA), and spinal muscular atrophy (SMA). Although the causative genetic alterations are known for some cases, the molecular basis of many SMA and SBMA-like syndromes and most ALS cases is unknown. Here we show that missense point mutations in the cytoplasmic dynein heavy chain result in progressive motor neuron degeneration in heterozygous mice, and in homozygotes this is accompanied by the formation of Lewy-like inclusion bodies, thus resembling key features of human pathology. These mutations exclusively perturb neuron-specific functions of dynein.

Published
2003
Full Text
View/download PDF

40. An integrated genetic, radiation hybrid, physical and transcription map of a region of distal mouse chromosome 12, including an imprinted locus and the 'Legs at odd angles' (Loa) mutation.

Author

Witherden AS, Hafezparast M, Nicholson SJ, Ahmad-Annuar A, Bermingham N, Arac D, Rankin J, Iravani M, Ball S, Peters J, Martin JE, Huntley D, Hummerich H, Sergot M, and Fisher EM

Subjects
Animals, Chromosomes, Human, Pair 14 genetics, Contig Mapping, Gene Order, Humans, Mice, Physical Chromosome Mapping, Radiation Hybrid Mapping, Synteny, Transcription, Genetic, Chromosome Mapping, Chromosomes genetics, Genomic Imprinting
Abstract

A variety of loci with interesting patterns of regulation such as imprinted expression, and critical functions such as involvement in tumour necrosis factor pathways, map to a distal portion of mouse chromosome 12. This region also contains disease related loci including the 'Legs at odd angles' mutation (Loa) that we are pursuing in a positional cloning project. To further define the region and prepare for comparative sequencing projects, we have produced genetic, radiation hybrid, physical and transcript maps of the region, with probes providing anchors between the maps. We show a summary of 95 markers and 91 genomic clones that has enabled us to identify 18 transcripts including new genes and candidates for Loa which will help in future studies of gene context and regulation.

Published
2002
Full Text
View/download PDF

41. A 7.5 Mb sequence-ready PAC contig and gene expression map of human chromosome 11p13-p14.1.

Author

Gawin B, Niederführ A, Schumacher N, Hummerich H, Little PF, and Gessler M

Subjects
Animals, Bacteriophage P1 genetics, Blotting, Northern methods, Chromosome Mapping, Chromosome Walking methods, Chromosomes, Artificial, Yeast genetics, Contig Mapping methods, DNA Fingerprinting methods, DNA Probes genetics, DNA, Complementary genetics, DNA, Viral genetics, Databases, Factual, Embryo, Mammalian, Expressed Sequence Tags, Humans, In Situ Hybridization methods, Mice, Physical Chromosome Mapping, RNA analysis, Chromosomes, Human, Pair 11, Gene Expression
Abstract

The region p13 of the short arm of human chromosome 11 has been studied intensely during the search for genes involved in the etiology of the Wilms' tumor, aniridia, genitourinary abnormalities, mental retardation (WAGR) syndrome, and related conditions. The gene map for this region is far from being complete, however, strengthening the need for additional gene identification efforts. We describe the extension of an existing contig map with P1-derived artificial chromosomes (PACs) to cover 7.5 Mb of 11p13-14.1. The extended sequence-ready contig was established by end probe walking and fingerprinting and consists of 201 PAC clones. Utilizing bins defined by overlapping PACs, we generated a detailed gene map containing 20 genes as well as 22 anonymous ESTs which have been identified by searching the RH databases. RH maps and our established gene map show global correlation, but the limits of resolution of the current RH panels are evident at this scale. Initial expression studies on the novel genes have been performed by Northern blot analyses. To extend these expression profiles, corresponding mouse cDNA clones were identified by database search and employed for Northern blot analyses and RNA in situ hybridizations to mouse embryo sections. Genomic sequencing of clones along a minimal tiling path through the contig is currently under way and will facilitate these expression studies by in silico gene identification approaches.

Published
1999
Full Text
View/download PDF

42. A 500-kb sequence-ready cosmid contig and transcript map of the MEN1 region on 11q13.

Author

Bergman L, Silins G, Grimmond S, Hummerich H, Stewart C, Little P, and Hayward N

Subjects
Animals, Contig Mapping, Expressed Sequence Tags, Genes, Synthetic, Humans, Nerve Tissue Proteins genetics, RNA, Messenger genetics, Transcription, Genetic, Chromosomes, Human, Pair 11, Cosmids, Multiple Endocrine Neoplasia Type 1 genetics
Abstract

We have generated a transcript map of an approximately 1.2-Mb region from human chromosome band 11q13 between the loci VEGFB and CAPN1, which flank the multiple endocrine neoplasia type 1 (MEN 1) locus. In total, we isolated 144 cosmids from this region and generated a sequence-ready cosmid contig of the approximately 500-kb region between the neurexin locus and D11S2196E. We identified 54 genes/ESTs by sample sequencing and have constructed a transcript map of this region. Genes were found to be clustered in three regions, and one of these genes was identical to the recently identified MEN1 locus. Relative to the latter, we have mapped the positions of 13 known genes, 18 genes which show homology to genes from humans or other organisms, and 22 genes/ESTs that appear novel. In addition, we have ascertained the directions of transcription of some of these genes and have determined intergenic distances between many loci. Full characterization of some of these genes, as well as the novel ESTs, will be useful in identifying candidate genes for other diseases known to map to this chromosomal region., (Copyright 1999 Academic Press.)

Published
1999
Full Text
View/download PDF

43. Report of the Sixth International Workshop on Human Chromosome 11 Mapping 1998. Nice, France, May 2-5, 1998.

Author

Gaudray P, Carle GF, Gerhard DS, Gessler M, Mannens MM, Athanasiou M, Bliek J, Calender A, Debelenko LV, Devignes M, Evans GA, Favier R, Forbes S, Gaudray G, Gawin B, Gordon M, Grimmond S, Grossfeld P, Harris J, Hattori M, Hosoda F, Hummerich H, James M, Kalla J, and Katsanis N

Subjects
Animals, Genetic Markers, Humans, Chromosome Mapping, Chromosomes, Human, Pair 11, Genetic Diseases, Inborn genetics
Published
1999
Full Text
View/download PDF

44. A sequence-ready 3-Mb PAC contig covering 16 breakpoints of the Wilms tumor/anirida region of human chromosome 11p13.

Author

Niederführ A, Hummerich H, Gawin B, Boyle S, Little PF, and Gessler M

Subjects
Chromosome Aberrations, DNA Fingerprinting, Gene Library, Humans, Sequence Analysis, DNA, Chromosome Mapping methods, Chromosomes, Human, Pair 11, Cloning, Molecular methods, Contig Mapping, Wilms Tumor genetics
Abstract

A large body of evidence that links alterations of chromosome 11p13 to tumor formation and various developmental disorders has been accumulated. To address the underlying genetic events it would be helpful to have a comprehensive gene map of the region, and this is most readily achieved by generating the complete genomic sequence. Building upon previous mapping and YAC contig analysis we have established a 3-Mb sequence-ready PAC contig. It was constructed by chromosome walking and independently verified by fingerprint analysis of individual clones. The contig starts from the catalase gene on the centromeric side and reaches beyond the PAX6 gene at the 11p13/p14.1 boundary. Additional smaller contigs on either side were identified, but still have to be linked up. The 3-Mb contig spans the central region of deletions encompassing 16 chromosomal breakpoints in patients with WAGR syndrome (Wilms tumor, aniridia, genitourinary malformation, mental retardation), and its construction is an important step in facilitating functional analysis of these genes., (Copyright 1998 Academic Press.)

Published
1998
Full Text
View/download PDF

45. Report of the Fifth International Workshop on Human Chromosome 11 Mapping 1996.

Author

Shows TB, Alders M, Bennett S, Burbee D, Cartwright P, Chandrasekharappa S, Cooper P, Courseaux A, Davies C, Devignes MD, Devilee P, Elliott R, Evans G, Fantes J, Garner H, Gaudray P, Gerhard DS, Gessler M, Higgins M, Hummerich H, James M, Lagercrantz J, Litt M, Little P, and Zabel B

Subjects
Humans, Chromosome Mapping, Chromosomes, Human, Pair 11
Published
1996
Full Text
View/download PDF

46. Trinucleotide repeat expansion and human disease.

Author

Hummerich H and Lehrach H

Subjects
Age of Onset, Chromosome Fragile Sites, Female, Humans, Male, Myotonic Dystrophy genetics, Nerve Degeneration, Syndrome, Chromosome Fragility, Genetic Diseases, Inborn genetics, Sex Characteristics, Trinucleotide Repeats
Abstract

Trinucleotide repeat expansions have been identified as the underlying mutation in an increasing number of human genetic diseases, such as fragile site syndromes, myotonic dystrophy and several neurodegenerative disorders including Huntington's disease. By an unknown mechanism, polymorphic GC-rich triplet repeats expand in all these diseases. The expansions of a CCG repeat in fragile-site-associated disorders and the CTG repeat (in the 3'-untranslated region of the myotonin kinase gene) causing myotonic dystrophy are very large, whereas small expansions of CAG repeats have been identified in the open reading frame of genes in a number of neurological genetic disorders.

Published
1995
Full Text
View/download PDF

47. Structure and expression of the Huntington's disease gene: evidence against simple inactivation due to an expanded CAG repeat.

Author

Ambrose CM, Duyao MP, Barnes G, Bates GP, Lin CS, Srinidhi J, Baxendale S, Hummerich H, Lehrach H, Altherr M, Wasmuth J, Buckler A, Church D, Housman D, Berks M, Micklem G, Durbin R, Dodge A, Read A, Gusella J, and MacDonald ME

Subjects
Adult, Alleles, Base Sequence, Cell Line, Codon, DNA, Complementary, Exons, Female, Fetal Diseases genetics, Humans, Huntington Disease embryology, Introns, Molecular Sequence Data, Polymorphism, Genetic, RNA, Messenger metabolism, Translocation, Genetic, Gene Expression, Huntington Disease genetics, Repetitive Sequences, Nucleic Acid
Abstract

Huntington's disease, a neurodegenerative disorder characterized by loss of striatal neurons, is caused by an expanded, unstable trinucleotide repeat in a novel 4p16.3 gene. To lay the foundation for exploring the pathogenic mechanism in HD, we have determined the structure of the disease gene and examined its expression. The HD locus spans 180 kb and consists of 67 exons ranging in size from 48 bp to 341 bp with an average of 138 bp. Scanning of the HD transcript failed to reveal any additional sequence alterations characteristic of HD chromosomes. A codon loss polymorphism in linkage disequilibrium with the disorder revealed that both normal and HD alleles are represented in the mRNA population in HD heterozygotes, indicating that the defect does not eliminate transcription. The gene is ubiquitously expressed as two alternatively polyadenylated forms displaying different relative abundance in various fetal and adult tissues, suggesting the operation of interacting factors in determining specificity of cell loss. The HD gene was disrupted in a female carrying a balanced translocation with a breakpoint between exons 40 and 41. The absence of any abnormal phenotype in this individual argues against simple inactivation of the gene as the mechanism by which the expanded trinucleotide repeat causes HD. Taken together, these observations suggest that the dominant HD mutation either confers a new property on the mRNA or, more likely, alters an interaction at the protein level.

Published
1994
Full Text
View/download PDF

48. Distribution of trinucleotide repeat sequences across a 2 Mbp region containing the Huntington's disease gene.

Author

Hummerich H, Baxendale S, Mott R, Kirby SF, MacDonald ME, Gusella J, Lehrach H, and Bates GP

Subjects
Base Sequence, Chromosome Fragile Sites, Chromosome Fragility, Chromosome Mapping, Cosmids, Humans, Molecular Sequence Data, Myotonic Dystrophy genetics, Spinocerebellar Degenerations genetics, Chromosomes, Human, Pair 4, Genetic Diseases, Inborn genetics, Huntington Disease genetics, Repetitive Sequences, Nucleic Acid
Abstract

The recent observation that the mutation underlying a number of genetic diseases including fragile sites, FRAXA and FRAXE (associated with mental retardation), myotonic dystrophy, spinal and bulbar muscular atrophy (Kennedy's disease), Huntington's disease and spinocerebellar ataxia type 1 are caused by the expansion of a trinucleotide repeat sequence will lead to interest in the identification of such sequences in regions related to other diseases. We report here the identification of all ten classes of trinucleotide repeats within a 2 Mbp region of 4p16.3 containing the Huntington's disease (HD) gene. Fifty one triplet repeats were identified and localised on a high resolution restriction map of a cosmid contig covering this region. This included the triplet repeat (CAG)n, which has subsequently been shown to be expanded in Huntington's disease patients.

Published
1994
Full Text
View/download PDF

49. Long range restriction map of the von Hippel-Lindau gene region on human chromosome 3p.

Author

Szymanski SC, Hummerich H, Latif F, Lerman MI, Röhrborn G, and Schröder E

Subjects
Carcinoma, Renal Cell genetics, Centromere, Dinucleoside Phosphates genetics, Electrophoresis, Gel, Pulsed-Field, Gene Expression Regulation, Neoplastic, Genes, Tumor Suppressor, Genetic Linkage, Humans, Kidney Neoplasms genetics, Telomere, Tumor Cells, Cultured, Chromosomes, Human, Pair 3, Restriction Mapping, von Hippel-Lindau Disease genetics
Abstract

Von Hippel-Lindau disease is a heritable tumour syndrome caused by the loss of the function of a tumour suppressor gene on the short arm of human chromosome 3. The interval RAF1-D3S18 (3p25-3p26) has been identified by genetic linkage studies to harbour the von Hippel-Lindau gene. We have constructed a long range restriction map of this region and have succeeded in demonstrating the physical linkage of loci D3S726 (DNA probe LIB31-38), D3S18 (c-LIB-1, L162E5), D3S601 (LIB19-63) and D3S587 (LIB12-48). Since multipoint analysis has located D3S601 proximal to D3S726, the physical map should be oriented with D3S726 towards the telomere. The order and distances of probes within the von Hippel-Lindau gene region is as follows: telomere--LIB31-38--(< 280 kb)--c-LIB-1--(overlapping)--L162E5--(900-1600 kb)--(LIB19-63, LIB12-48)--centromere. In tissues that included blood, semen and Epstein-Barr-virus-transformed lymphocytes, we detected a putative CpG island flanking D3S18.

Published
1993
Full Text
View/download PDF

50. A cosmid contig and high resolution restriction map of the 2 megabase region containing the Huntington's disease gene.

Author

Baxendale S, MacDonald ME, Mott R, Francis F, Lin C, Kirby SF, James M, Zehetner G, Hummerich H, and Valdes J

Subjects
Base Sequence, Chromosome Mapping, Chromosome Walking, Chromosomes, Fungal, Genetic Markers, Genome, Human, Humans, Molecular Sequence Data, Recombination, Genetic, Repetitive Sequences, Nucleic Acid, Chromosomes, Human, Pair 4, Cosmids, Gene Library, Genes, Huntington Disease genetics, Restriction Mapping
Abstract

The quest for the mutation responsible for Huntington's disease (HD) has required an exceptionally detailed analysis of a large part of 4p16.3 by molecular genetic techniques, making this stretch of 2.2 megabases one of the best characterized regions of the human genome. Here we describe the construction of a cosmid and P1 clone contig spanning the region containing the HD gene, and the establishment of a detailed, high resolution restriction map. This ordered clone library has allowed the identification of several genes from the region, and has played a vital role in the recent identification of the Huntington's disease gene. The restriction map provides the framework for the detailed analysis of a region extremely rich in coding sequences. This study also exemplifies many of the strategies to be used in the analysis of larger regions of the human genome.

Published
1993
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results