Neuropathology provides clues to the pathophysiology of Gaucher disease

To better understand the pathogenesis of brain dysfunction in Gaucher disease (GD), we studied brain pathology in seven subjects with type 1 GD (four also exhibited parkinsonism and dementia), three with type 2 GD and four with type 3 GD. Unique pathologic patterns of disease involving the hippocamp...

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Published in	Molecular genetics and metabolism Vol. 82; no. 3; pp. 192 - 207
Main Authors	Wong, Kondi, Sidransky, Ellen, Verma, Ajay, Mixon, Tonghui, Sandberg, Glenn D, Wakefield, Laura K, Morrison, Alan, Lwin, Alicia, Colegial, Carlos, Allman, John M, Schiffmann, Raphael
Format	Journal Article
Language	English
Published	United States Elsevier Inc 01.07.2004
Subjects	Adolescent Aged Aged, 80 and over Animals Astrocytes - pathology Astrogliosis Autoradiography Brain - pathology Calcarine cortex Calcium Radioisotopes - metabolism Child Child, Preschool Epilepsies, Myoclonic - complications Female Gaucher disease Gaucher Disease - complications Gaucher Disease - physiopathology Glucocerebrosidase Glucosylceramidase - metabolism Hippocampus Humans Immunohistochemistry Infant Lewy body Male Middle Aged Nerve Tissue Proteins - metabolism Neuronal loss Neurons - pathology Parkinsonism Rats Synuclein Synucleins Astrogliosis Parkinsonism Glucocerebrosidase Neuronal loss Gaucher disease Synuclein Calcarine cortex Hippocampus Lewy body
Online Access	Get full text
ISSN	1096-7192 1096-7206
DOI	10.1016/j.ymgme.2004.04.011

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Abstract	To better understand the pathogenesis of brain dysfunction in Gaucher disease (GD), we studied brain pathology in seven subjects with type 1 GD (four also exhibited parkinsonism and dementia), three with type 2 GD and four with type 3 GD. Unique pathologic patterns of disease involving the hippocampal CA2-4 regions and layer 4b of the calcarine cortex were identified. While these findings were common to all three GD phenotypes, the extent of the changes varied depending on the severity of disease. Cerebral cortical layers 3 and 5, hippocampal CA2-4, and layer 4b were involved in all GD patients. Neuronal loss predominated in both type 2 and type 3 patients with progressive myoclonic encephalopathy, whereas patients classified as type 1 GD had only astrogliosis. Adjacent regions and lamina, including hippocampal CA1 and calcarine lamina 4a and 4c were spared of pathology, highlighting the specificity of the vulnerability of selective neurons. Elevated glucocerebrosidase expression by immunohistochemistry was found in CA2-4. Hippocampal 45Ca 2+ uptake autoradiography in rat brain was performed demonstrating that hippocampal CA2-4 neurons, rather than CA1 neurons, were calcium-induced calcium release sensitive (CICR-sensitive). These findings match recent biochemical studies linking elevated glucosylceramide levels to sensitization of CA2-4 RyaR receptors and 300% potentiation of neuronal CICR sensitivity. In two patients with type 1 GD and parkinsonism, numerous synuclein positive inclusions, similar to brainstem-type Lewy bodies found in Parkinson disease, were also found hippocampal CA2-4 neurons. These findings argue for a common cytotoxic mechanism linking aberrant glucocerebrosidase activity, neuronal cytotoxicity, and cytotoxic Lewy body formation in GD.
AbstractList	To better understand the pathogenesis of brain dysfunction in Gaucher disease (GD), we studied brain pathology in seven subjects with type 1 GD (four also exhibited parkinsonism and dementia), three with type 2 GD and four with type 3 GD. Unique pathologic patterns of disease involving the hippocampal CA2-4 regions and layer 4b of the calcarine cortex were identified. While these findings were common to all three GD phenotypes, the extent of the changes varied depending on the severity of disease. Cerebral cortical layers 3 and 5, hippocampal CA2-4, and layer 4b were involved in all GD patients. Neuronal loss predominated in both type 2 and type 3 patients with progressive myoclonic encephalopathy, whereas patients classified as type 1 GD had only astrogliosis. Adjacent regions and lamina, including hippocampal CA1 and calcarine lamina 4a and 4c were spared of pathology, highlighting the specificity of the vulnerability of selective neurons. Elevated glucocerebrosidase expression by immunohistochemistry was found in CA2-4. Hippocampal 45Ca 2+ uptake autoradiography in rat brain was performed demonstrating that hippocampal CA2-4 neurons, rather than CA1 neurons, were calcium-induced calcium release sensitive (CICR-sensitive). These findings match recent biochemical studies linking elevated glucosylceramide levels to sensitization of CA2-4 RyaR receptors and 300% potentiation of neuronal CICR sensitivity. In two patients with type 1 GD and parkinsonism, numerous synuclein positive inclusions, similar to brainstem-type Lewy bodies found in Parkinson disease, were also found hippocampal CA2-4 neurons. These findings argue for a common cytotoxic mechanism linking aberrant glucocerebrosidase activity, neuronal cytotoxicity, and cytotoxic Lewy body formation in GD. To better understand the pathogenesis of brain dysfunction in Gaucher disease (GD), we studied brain pathology in seven subjects with type 1 GD (four also exhibited parkinsonism and dementia), three with type 2 GD and four with type 3 GD. Unique pathologic patterns of disease involving the hippocampal CA2-4 regions and layer 4b of the calcarine cortex were identified. While these findings were common to all three GD phenotypes, the extent of the changes varied depending on the severity of disease. Cerebral cortical layers 3 and 5, hippocampal CA2-4, and layer 4b were involved in all GD patients. Neuronal loss predominated in both type 2 and type 3 patients with progressive myoclonic encephalopathy, whereas patients classified as type 1 GD had only astrogliosis. Adjacent regions and lamina, including hippocampal CA1 and calcarine lamina 4a and 4c were spared of pathology, highlighting the specificity of the vulnerability of selective neurons. Elevated glucocerebrosidase expression by immunohistochemistry was found in CA2-4. Hippocampal (45)Ca(2+) uptake autoradiography in rat brain was performed demonstrating that hippocampal CA2-4 neurons, rather than CA1 neurons, were calcium-induced calcium release sensitive (CICR-sensitive). These findings match recent biochemical studies linking elevated glucosylceramide levels to sensitization of CA2-4 RyaR receptors and 300% potentiation of neuronal CICR sensitivity. In two patients with type 1 GD and parkinsonism, numerous synuclein positive inclusions, similar to brainstem-type Lewy bodies found in Parkinson disease, were also found hippocampal CA2-4 neurons. These findings argue for a common cytotoxic mechanism linking aberrant glucocerebrosidase activity, neuronal cytotoxicity, and cytotoxic Lewy body formation in GD. To better understand the pathogenesis of brain dysfunction in Gaucher disease (GD), we studied brain pathology in seven subjects with type 1 GD (four also exhibited parkinsonism and dementia), three with type 2 GD and four with type 3 GD. Unique pathologic patterns of disease involving the hippocampal CA2-4 regions and layer 4b of the calcarine cortex were identified. While these findings were common to all three GD phenotypes, the extent of the changes varied depending on the severity of disease. Cerebral cortical layers 3 and 5, hippocampal CA2-4, and layer 4b were involved in all GD patients. Neuronal loss predominated in both type 2 and type 3 patients with progressive myoclonic encephalopathy, whereas patients classified as type 1 GD had only astrogliosis. Adjacent regions and lamina, including hippocampal CA1 and calcarine lamina 4a and 4c were spared of pathology, highlighting the specificity of the vulnerability of selective neurons. Elevated glucocerebrosidase expression by immunohistochemistry was found in CA2-4. Hippocampal super(45)Ca super(2+) uptake autoradiography in rat brain was performed demonstrating that hippocampal CA2-4 neurons, rather than CA1 neurons, were calcium-induced calcium release sensitive (CICR-sensitive). These findings match recent biochemical studies linking elevated glucosylceramide levels to sensitization of CA2-4 RyaR receptors and 300% potentiation of neuronal CICR sensitivity. In two patients with type 1 GD and parkinsonism, numerous synuclein positive inclusions, similar to brainstem- type Lewy bodies found in Parkinson disease, were also found hippocampal CA2-4 neurons. These findings argue for a common cytotoxic mechanism linking aberrant glucocerebrosidase activity, neuronal cytotoxicity, and cytotoxic Lewy body formation in GD. To better understand the pathogenesis of brain dysfunction in Gaucher disease (GD), we studied brain pathology in seven subjects with type 1 GD (four also exhibited parkinsonism and dementia), three with type 2 GD and four with type 3 GD. Unique pathologic patterns of disease involving the hippocampal CA2-4 regions and layer 4b of the calcarine cortex were identified. While these findings were common to all three GD phenotypes, the extent of the changes varied depending on the severity of disease. Cerebral cortical layers 3 and 5, hippocampal CA2-4, and layer 4b were involved in all GD patients. Neuronal loss predominated in both type 2 and type 3 patients with progressive myoclonic encephalopathy, whereas patients classified as type 1 GD had only astrogliosis. Adjacent regions and lamina, including hippocampal CA1 and calcarine lamina 4a and 4c were spared of pathology, highlighting the specificity of the vulnerability of selective neurons. Elevated glucocerebrosidase expression by immunohistochemistry was found in CA2-4. Hippocampal (45)Ca(2+) uptake autoradiography in rat brain was performed demonstrating that hippocampal CA2-4 neurons, rather than CA1 neurons, were calcium-induced calcium release sensitive (CICR-sensitive). These findings match recent biochemical studies linking elevated glucosylceramide levels to sensitization of CA2-4 RyaR receptors and 300% potentiation of neuronal CICR sensitivity. In two patients with type 1 GD and parkinsonism, numerous synuclein positive inclusions, similar to brainstem-type Lewy bodies found in Parkinson disease, were also found hippocampal CA2-4 neurons. These findings argue for a common cytotoxic mechanism linking aberrant glucocerebrosidase activity, neuronal cytotoxicity, and cytotoxic Lewy body formation in GD.To better understand the pathogenesis of brain dysfunction in Gaucher disease (GD), we studied brain pathology in seven subjects with type 1 GD (four also exhibited parkinsonism and dementia), three with type 2 GD and four with type 3 GD. Unique pathologic patterns of disease involving the hippocampal CA2-4 regions and layer 4b of the calcarine cortex were identified. While these findings were common to all three GD phenotypes, the extent of the changes varied depending on the severity of disease. Cerebral cortical layers 3 and 5, hippocampal CA2-4, and layer 4b were involved in all GD patients. Neuronal loss predominated in both type 2 and type 3 patients with progressive myoclonic encephalopathy, whereas patients classified as type 1 GD had only astrogliosis. Adjacent regions and lamina, including hippocampal CA1 and calcarine lamina 4a and 4c were spared of pathology, highlighting the specificity of the vulnerability of selective neurons. Elevated glucocerebrosidase expression by immunohistochemistry was found in CA2-4. Hippocampal (45)Ca(2+) uptake autoradiography in rat brain was performed demonstrating that hippocampal CA2-4 neurons, rather than CA1 neurons, were calcium-induced calcium release sensitive (CICR-sensitive). These findings match recent biochemical studies linking elevated glucosylceramide levels to sensitization of CA2-4 RyaR receptors and 300% potentiation of neuronal CICR sensitivity. In two patients with type 1 GD and parkinsonism, numerous synuclein positive inclusions, similar to brainstem-type Lewy bodies found in Parkinson disease, were also found hippocampal CA2-4 neurons. These findings argue for a common cytotoxic mechanism linking aberrant glucocerebrosidase activity, neuronal cytotoxicity, and cytotoxic Lewy body formation in GD.
Author	Sandberg, Glenn D Mixon, Tonghui Wakefield, Laura K Sidransky, Ellen Verma, Ajay Allman, John M Schiffmann, Raphael Wong, Kondi Morrison, Alan Colegial, Carlos Lwin, Alicia
Author_xml	– sequence: 1 givenname: Kondi surname: Wong fullname: Wong, Kondi organization: Department of Neuropathology at the Armed Forces Institute of Pathology, Washington, DC, USA – sequence: 2 givenname: Ellen surname: Sidransky fullname: Sidransky, Ellen organization: Section on Molecular Neurogenetics, National Institute of Mental Health and Medical Genetics Branch, National Human Genome Research Institute, National Institutes of Health, Bethesda, MD, USA – sequence: 3 givenname: Ajay surname: Verma fullname: Verma, Ajay organization: Department of Neurology, Uniformed Services University of the Health Sciences, Bethesda, MD, USA – sequence: 4 givenname: Tonghui surname: Mixon fullname: Mixon, Tonghui organization: Department of Neuropathology at the Armed Forces Institute of Pathology, Washington, DC, USA – sequence: 5 givenname: Glenn D surname: Sandberg fullname: Sandberg, Glenn D organization: Department of Neuropathology at the Armed Forces Institute of Pathology, Washington, DC, USA – sequence: 6 givenname: Laura K surname: Wakefield fullname: Wakefield, Laura K organization: Department of Neuropathology at the Armed Forces Institute of Pathology, Washington, DC, USA – sequence: 7 givenname: Alan surname: Morrison fullname: Morrison, Alan organization: Department of Neuropathology at the Armed Forces Institute of Pathology, Washington, DC, USA – sequence: 8 givenname: Alicia surname: Lwin fullname: Lwin, Alicia organization: Section on Molecular Neurogenetics, National Institute of Mental Health and Medical Genetics Branch, National Human Genome Research Institute, National Institutes of Health, Bethesda, MD, USA – sequence: 9 givenname: Carlos surname: Colegial fullname: Colegial, Carlos organization: Department of Neuropathology at the Armed Forces Institute of Pathology, Washington, DC, USA – sequence: 10 givenname: John M surname: Allman fullname: Allman, John M organization: Division of Biology, Integrative Biology Section, California Institute of Technology, National Institute of Neurological Disorders and Stroke at the National Institutes of Health, Bethesda, MD, USA – sequence: 11 givenname: Raphael surname: Schiffmann fullname: Schiffmann, Raphael email: rs4e@nih.gov organization: Developmental and Metabolic Neurology Branch, National Institute of Neurological Disorders and Stroke at the National Institutes of Health, Bethesda, MD, USA
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/15234332$$D View this record in MEDLINE/PubMed
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Snippet	To better understand the pathogenesis of brain dysfunction in Gaucher disease (GD), we studied brain pathology in seven subjects with type 1 GD (four also...
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SubjectTerms	Adolescent Aged Aged, 80 and over Animals Astrocytes - pathology Astrogliosis Autoradiography Brain - pathology Calcarine cortex Calcium Radioisotopes - metabolism Child Child, Preschool Epilepsies, Myoclonic - complications Female Gaucher disease Gaucher Disease - complications Gaucher Disease - physiopathology Glucocerebrosidase Glucosylceramidase - metabolism Hippocampus Humans Immunohistochemistry Infant Lewy body Male Middle Aged Nerve Tissue Proteins - metabolism Neuronal loss Neurons - pathology Parkinsonism Rats Synuclein Synucleins
Title	Neuropathology provides clues to the pathophysiology of Gaucher disease
URI	https://dx.doi.org/10.1016/j.ymgme.2004.04.011 https://www.ncbi.nlm.nih.gov/pubmed/15234332 https://www.proquest.com/docview/18013125 https://www.proquest.com/docview/66680720
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