Your search keyword '"Hedreen J"' showing total 7 results

1. HIV leucoencephalopathy and TNFα expression in neurones

Author

Rostasy, K, Monti, L, Lipton, S A, Hedreen, J C, Gonzalez, R G, and Navia, B A

Published

2005

2. Phenotypic characterization of individuals with 30-40 CAG repeats in the Huntington disease (HD) gene reveals HD cases with 36 repeats and apparently normal elderly individuals with 36-39 repeats

Author

Rubinsztein, D, Leggo, J, Coles, R, Almqvist, E, Biancalana, V, Cassiman, J, Chotai, K, Connarty, M, Crauford, D, Curtis, A, Curtis, D, Davidson, M, Differ, A, Dode, C, Dodge, A, Frontali, M, Ranen, N, Stine, O, Sherr, M, Abbott, M, Franz, M, Graham, C, Harper, P, Hedreen, J, Jackson-Crawford, Anthony, Kaplan, Jean-Claude, Losekoot, Monique, Macmillan, John, Morrison, Patrick, Trottier, Yvon, Novelletto, Andrea, Simpson, Sheila A, Theilmann, Jane, Whittaker, Joanne, Folstein, Susan E., Ross, Christopher A., Hayden, M, Addenbrooke's Hospital, Cambridge University NHS Trust, Karolinska Institutet [Stockholm], Institut de Génétique et de Biologie Moléculaire et Cellulaire (IGBMC), Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Université de Strasbourg (UNISTRA), Catholic University of Leuven - Katholieke Universiteit Leuven (KU Leuven), Northwick Park Hospital [Harrow, UK] (NPH), Salisbury District Hospital, St Mary's Hospital [London], University of Newcastle, Newcastle upon Tyne, UK, Department of Molecular Biology and Biotechnology, University of Sheffield, University of Aberdeen Medical School, Guy's Hospital [London], Hôpital Cochin [AP-HP], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP), Johns Hopkins University School of Medicine [Baltimore], Johns Hopkins University (JHU), Belfast City Hospital, University of Wales College of Medicine, Tufts New England Medical Center, Leiden University, Università degli Studi di Roma Tor Vergata [Roma], Aberdeen University Medical School, University of British Columbia (UBC), Universiteit Leiden [Leiden], and Peney, Maité

Subjects

Adult, Male, congenital, hereditary, and neonatal diseases and abnormalities, MESH: Trinucleotide Repeats, MESH: Mutation, INSTABILITY, [SDV.GEN] Life Sciences [q-bio]/Genetics, Minisatellite Repeats, MESH: Phenotype, Polymerase Chain Reaction, FAMILIES, MESH: Aged, 80 and over, Trinucleotide Repeats, CHROMOSOMES, Reference Values, LENGTH, Humans, POPULATION, Aged, Aged, 80 and over, MESH: Aged, [SDV.GEN]Life Sciences [q-bio]/Genetics, AGE-OF-ONSET, TRINUCLEOTIDE REPEAT, CLINICAL-FEATURES, POLYMORPHISM, EXPANSIONS, MESH: Middle Aged, MESH: Humans, MESH: Reference Values, MESH: Adult, MESH: Polymerase Chain Reaction, Original Articles, Middle Aged, MESH: Male, MESH: Huntington Disease, Settore BIO/18 - Genetica, Huntington Disease, Phenotype, Mutation, MESH: Minisatellite Repeats, Female, MESH: Female

Abstract

International audience; Abnormal CAG expansions in the IT-15 gene are associated with Huntington disease (HD). In the diagnostic setting it is necessary to define the limits of the CAG size ranges on normal and HD-associated chromosomes. Most large analyses that defined the limits of the normal and pathological size ranges employed PCR assays, which included the CAG repeats and a CCG repeat tract that was thought to be invariant. Many of these experiments found an overlap between the normal and disease size ranges. Subsequent findings that the CCG repeats vary by 8 trinucleotide lengths suggested that the limits of the normal and disease size ranges should be reevaluated with assays that exclude the CCG polymorphism. Since patients with between 30 and 40 repeats are rare, a consortium was assembled to collect such individuals. All 178 samples were reanalyzed in Cambridge by using assays specific for the CAG repeats. We have optimized methods for reliable sizing of CAG repeats and show cases that demonstrate the dangers of using PCR assays that include both the CAG and CCG polymorphisms. Seven HD patients had 36 repeats, which confirms that this allele is associated with disease. Individuals without apparent symptoms or signs of HD were found at 36 repeats (aged 74, 78, 79, and 87 years), 37 repeats (aged 69 years), 38 repeats (aged 69 and 90 years), and 39 repeats (aged 67, 90, and 95 years). The detailed case histories of an exceptional case from this series will be presented: a 95-year-old man with 39 repeats who did not have classical features of HD. The apparently healthy survival into old age of some individuals with 36-39 repeats suggests that the HD mutation may not always be fully penetrant.

Published

1996

3. Phenotypic characterization of individuals with 30-40 CAG repeats in the Huntington disease (HD) gene reveals HD cases with 36 repeats and apparently normal elderly individuals with 36-39 repeats.

Author

Rubinsztein, D C, Leggo, J, Coles, R, Almqvist, E, Biancalana, V, Cassiman, J J, Chotai, K, Connarty, M, Crauford, D, Curtis, A, Curtis, D, Davidson, M J, Differ, A M, Dode, C, Dodge, A, Frontali, M, Ranen, N G, Stine, O C, Sherr, M, Abbott, M H, Franz, M L, Graham, C A, Harper, P S, Hedreen, J C, Hayden, M R, Rubinsztein, D C, Leggo, J, Coles, R, Almqvist, E, Biancalana, V, Cassiman, J J, Chotai, K, Connarty, M, Crauford, D, Curtis, A, Curtis, D, Davidson, M J, Differ, A M, Dode, C, Dodge, A, Frontali, M, Ranen, N G, Stine, O C, Sherr, M, Abbott, M H, Franz, M L, Graham, C A, Harper, P S, Hedreen, J C, and Hayden, M R

Abstract

Abnormal CAG expansions in the IT-15 gene are associated with Huntington disease (HD). In the diagnostic setting it is necessary to define the limits of the CAG size ranges on normal and HD-associated chromosomes. Most large analyses that defined the limits of the normal and pathological size ranges employed PCR assays, which included the CAG repeats and a CCG repeat tract that was thought to be invariant. Many of these experiments found an overlap between the normal and disease size ranges. Subsequent findings that the CCG repeats vary by 8 trinucleotide lengths suggested that the limits of the normal and disease size ranges should be reevaluated with assays that exclude the CCG polymorphism. Since patients with between 30 and 40 repeats are rare, a consortium was assembled to collect such individuals. All 178 samples were reanalyzed in Cambridge by using assays specific for the CAG repeats. We have optimized methods for reliable sizing of CAG repeats and show cases that demonstrate the dangers of using PCR assays that include both the CAG and CCG polymorphisms. Seven HD patients had 36 repeats, which confirms that this allele is associated with disease. Individuals without apparent symptoms or signs of HD were found at 36 repeats (aged 74, 78, 79, and 87 years), 37 repeats (aged 69 years), 38 repeats (aged 69 and 90 years), and 39 repeats (aged 67, 90, and 95 years). The detailed case histories of an exceptional case from this series will be presented: a 95-year-old man with 39 repeats who did not have classical features of HD. The apparently healthy survival into old age of some individuals with 36-39 repeats suggests that the HD mutation may not always be fully penetrant.

Published

1996

4. A modified histochemical technique to visualize acetylcholinesterase-containing axons.

Author

Hedreen, J C, Bacon, S J, and Price, D L

Abstract

An improved histochemical method for light microscopic demonstration of acetylcholinesterase (AChE) has been developed. Axonal, dendritic, and perikaryal staining are well delineated, both in areas of low AChE content, such as cerebral cortex, and in areas of high AChE content, such as neostriatum. Axonal staining, including arborizations, stands out against a clear background devoid of diffuse reaction product.

Published

1985

5. Critical role of truncated α-synuclein and aggregates in Parkinson's disease and incidental Lewy body disease.

Author

Prasad K, Beach TG, Hedreen J, and Richfield EK

Subjects

Aged, Autopsy, Brain metabolism, Brain pathology, Female, Humans, Immunohistochemistry, Incidental Findings, Lewy Body Disease complications, Male, Microscopy, Confocal, Parkinson Disease complications, Lewy Body Disease metabolism, Lewy Body Disease pathology, Parkinson Disease metabolism, Parkinson Disease pathology, alpha-Synuclein metabolism

Abstract

The role of Lewy bodies, Lewy neurites and α-synuclein (αSYN) in the pathophysiology and diagnosis of Parkinson's disease (PD) is unclear. We used postmortem human tissue, a panel of antibodies (Abs) and confocal microscopy to examine the three-dimensional neurochemical anatomy of the nigrostriatal system. Abs were specific to truncated (tαSYN), phosphorylated and full-length αSYN. The findings demonstrate the critical role of tαSYN in initiating aggregation, a role for other forms of αSYN in aggregate expansion, a reason for the wide variety of proteins present in different aggregates, an explanation for the laminar appearance of aggregates described historically using different methods, the existence of proximal greater than distal aggregation in the vulnerable nigrostriatal pathway, the independent transport of different forms of αSYN as cargo along axons and a possible sequence for the formation of Lewy bodies. Findings differed between incidental Lewy body disease and PD only quantitatively. These findings have implications for understanding the pathogenesis and treatment of PD., (© 2012 The Authors; Brain Pathology © 2012 International Society of Neuropathology.)

Published

2012

6. Phenotypic characterization of individuals with 30-40 CAG repeats in the Huntington disease (HD) gene reveals HD cases with 36 repeats and apparently normal elderly individuals with 36-39 repeats.

Author

Rubinsztein DC, Leggo J, Coles R, Almqvist E, Biancalana V, Cassiman JJ, Chotai K, Connarty M, Crauford D, Curtis A, Curtis D, Davidson MJ, Differ AM, Dode C, Dodge A, Frontali M, Ranen NG, Stine OC, Sherr M, Abbott MH, Franz ML, Graham CA, Harper PS, Hedreen JC, and Hayden MR

Subjects

Adult, Aged, Aged, 80 and over, Female, Humans, Huntington Disease diagnosis, Male, Middle Aged, Mutation, Polymerase Chain Reaction, Reference Values, Huntington Disease genetics, Minisatellite Repeats, Phenotype, Trinucleotide Repeats

Abstract

Abnormal CAG expansions in the IT-15 gene are associated with Huntington disease (HD). In the diagnostic setting it is necessary to define the limits of the CAG size ranges on normal and HD-associated chromosomes. Most large analyses that defined the limits of the normal and pathological size ranges employed PCR assays, which included the CAG repeats and a CCG repeat tract that was thought to be invariant. Many of these experiments found an overlap between the normal and disease size ranges. Subsequent findings that the CCG repeats vary by 8 trinucleotide lengths suggested that the limits of the normal and disease size ranges should be reevaluated with assays that exclude the CCG polymorphism. Since patients with between 30 and 40 repeats are rare, a consortium was assembled to collect such individuals. All 178 samples were reanalyzed in Cambridge by using assays specific for the CAG repeats. We have optimized methods for reliable sizing of CAG repeats and show cases that demonstrate the dangers of using PCR assays that include both the CAG and CCG polymorphisms. Seven HD patients had 36 repeats, which confirms that this allele is associated with disease. Individuals without apparent symptoms or signs of HD were found at 36 repeats (aged 74, 78, 79, and 87 years), 37 repeats (aged 69 years), 38 repeats (aged 69 and 90 years), and 39 repeats (aged 67, 90, and 95 years). The detailed case histories of an exceptional case from this series will be presented: a 95-year-old man with 39 repeats who did not have classical features of HD. The apparently healthy survival into old age of some individuals with 36-39 repeats suggests that the HD mutation may not always be fully penetrant.

Published

1996

7. Evidence for apoptotic cell death in Huntington disease and excitotoxic animal models.

Author

Portera-Cailliau C, Hedreen JC, Price DL, and Koliatsos VE

Subjects

Adult, Aged, Aged, 80 and over, Animals, DNA analysis, DNA Damage, Disease Models, Animal, Female, Humans, Male, Microscopy, Electron, Middle Aged, Models, Neurological, Necrosis, Neurons drug effects, Neurons ultrastructure, Neurotoxins toxicity, Quinolinic Acid toxicity, Rats, Rats, Sprague-Dawley, Reference Values, Apoptosis, Corpus Striatum pathology, Huntington Disease pathology, Neurons pathology

Abstract

Huntington disease (HD) is an inherited neurodegenerative disorder characterized by selective death of striatal medium spiny neurons. Intrastriatal injections of glutamate receptor agonists (excitotoxins) recapitulate some neuropathological features of this disorder. Although this model suggests that excitotoxic injury may be involved in HD, the exact mechanisms of cell death in HD and its models are unknown. The present study was designed to test the hypothesis that HD can develop via the activation of an apoptotic mechanism of cell death and to examine whether excitotoxic striatal lesions with quinolinic acid in rats represent accurate models of HD. To characterize cell death, we employed DNA electrophoresis, electron microscopy (EM), and the terminal transferase-mediated (TdT) deoxyuridine triphosphate (d-UTP)-biotin nick end labeling (TUNEL) method for the in situ detection of DNA strand breaks. In the neostriatum of individuals with HD, patterns of distribution of TUNEL-positive neurons and glia were reminiscent of those seen in apoptotic cell death during normal development of the nervous system; in the same areas, nonrandom DNA fragmentation was detected occasionally. Following excitotoxic injury of the rat striatum, internucleosomal DNA fragmentation (evidence of apoptosis) was seen at early time intervals and random DNA fragmentation (evidence of necrosis) at later time points. In addition, EM detected necrotic profiles of medium spiny neurons in the lesioned rats. In concert, these results suggest that apoptosis occurs in both HD and excitotoxic animal models and that apoptotic and necrotic mechanisms of neuronal death may occur simultaneously within individual dying cells in the excitotoxically injured brain. However, the distribution of dying neurons in the neostriatum, the degree of glial degeneration, and the involvement of striatofugal pathways are very different between HD and excitotoxically damaged striatum. The present study suggests that multiple methods should be employed for a proper characterization of neuronal cell death in vivo.

Published

1995