Journal ArticleDOI
Nucleus basalis magnocellularis and hippocampus are the major sites of FMR-1 expression in the human fetal brain
TLDR
The early transcription of F MR–1 gene and the distribution of FMR–1 mRNAs in human fetuses suggest that alterations of FMSG gene expression may contribute to the pathogenesis of fragile–X syndrome and especially the mental retardation.Abstract:
The expression of the FMR–1 gene, which is implicated in fragile–X syndrome was investigated in human fetuses by in situ hybridization. In 8 and 9 week–old fetuses, FMR–1 mRNAs are expressed in proliferating and migrating cells of the nervous system, in the retina, and in several non–nervous tissues. In the brain of 25 week–old fetuses, FMR–1 mRNAs are produced in all nearly differenciated structures, with the highest level in cholinergic neurons of the nucleus basalis magnocellularis and in pyramidal neurons of hippocampus. The early transcription of FMR–1 gene and the distribution of FMR–1 mRNAs in human fetuses suggest that alterations of FMR–1 gene expression may contribute to the pathogenesis of fragile–X syndrome and especially the mental retardation.read more
Citations
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Journal ArticleDOI
Abnormal dendritic spines in fragile X knockout mice: maturation and pruning deficits.
Thomas A. Comery,Jennifer B. Harris,Patrick Willems,Ben A. Oostra,Scott A. Irwin,Ivan Jeanne Weiler,William T. Greenough +6 more
TL;DR: Dendritic spines in Golgi-impregnated cerebral cortex of transgenic fragile X gene (Fmr1) knockout mice that lack expression of the protein were longer than those in wild-type mice and were often thin and tortuous, paralleling the human syndrome and suggesting that FMRP expression is required for normal spine morphological development.
Journal ArticleDOI
Fmr1 knockout mice: A model to study fragile X mental retardation
Cathy E. Bakker,C. Verheij,Rob Willemsen,Robert van der Helm,Frank Oerlemans,M. Vermey,Anne E. Bygrave,A. T. Hoogeveen,Ben A. Oostra,Edwin Reyniers,Kristel De Boule,Rudi D'Hooge,Patrick Cras,Désiré van Velzen,Guy Nagels,Jean-Jacques Martin,Peter Paul De Deyn,John K. Darby,Patrick Willems +18 more
TL;DR: In this article, the authors designed a knockout model for the fragile X syndrome in mice and found that the knockout mice lack normal Fmr1 protein and show macroorchidism, learning deficits, and hyperactivity.
Journal ArticleDOI
Fragile X Mental Retardation Protein Targets G Quartet mRNAs Important for Neuronal Function
Jennifer C. Darnell,Kirk B. Jensen,Peng Jin,Victoria Brown,Stephen T. Warren,Robert B. Darnell +5 more
TL;DR: RNA selection is used to demonstrate that G quartets serve as physiologically relevant targets for FMRP and identify mRNAs whose dysregulation may underlie human mental retardation.
Journal Article
FMR1 Knockout mice: A model to study fragile X mental retardation
TL;DR: A knockout model for the fragile X syndrome in mice is designed and this knockout mouse may serve as a valuable tool in the elucidation of the physiological role of FMR1 and the mechanisms involved in macroorchidism, abnormal behavior, and mental retardation.
Journal ArticleDOI
Abnormal dendritic spine characteristics in the temporal and visual cortices of patients with fragile-X syndrome: a quantitative examination
Scott A. Irwin,Biraju Patel,Madhuri Idupulapati,Jennifer B. Harris,Ralph A. Crisostomo,Brian P. Larsen,R. Frank Kooy,Patrick Willems,Patrick Cras,Piotr B. Kozlowski,Rodney A. Swain,Ivan Jeanne Weiler,William T. Greenough +12 more
TL;DR: Qualitative examination of human brain autopsy material has shown that fragile-X patients exhibit abnormal dendritic spine lengths and shapes on parieto-occipital neocortical pyramidal cells, which may suggest a global failure of normal dendrites maturation and or pruning during development that persists throughout adulthood.
References
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Journal ArticleDOI
Identification of a gene (FMR-1) containing a CGG repeat coincident with a breakpoint cluster region exhibiting length variation in fragile X syndrome
Annemiske J.M.H. Verkerk,Maura Pieretti,James S. Sutcliffe,Ying-Hui Fu,Derek P.A. Kuhl,Antonio Pizzuti,Orly Reiner,Stephen Richards,Maureen F. Victoria,Fuping Zhang,Bert Eussen,Gert-Jan B. van Ommen,Lau Blonden,Gregory J. Riggins,Jane L. Chastain,Catherine B. Kunst,Hans Galjaard,C. Thomas Caskey,David L. Nelson,Ben A. Oostra,Stephen T. Warren +20 more
TL;DR: A fragile X site-induced breakpoint cluster region that exhibits length variation in fragile X chromosomes is identified and localization of the brain-expressed FMR-1 gene to this EcoRI fragment suggests the involvement of this gene in the phenotypic expression of the fragile X syndrome.
Journal ArticleDOI
Central cholinergic pathways in the rat: an overview based on an alternative nomenclature (Ch1-Ch6).
TL;DR: It appears that the age-related changes of memory function as well as some of the behavioral disturbances seen in the dementia of Alzheimer's Disease may be related to pathological alterations along central cholinergic pathways.
Journal ArticleDOI
Variation of the CGG repeat at the fragile X site results in genetic instability: resolution of the Sherman paradox.
Ying-Hui Fu,Derek P.A. Kuhl,Antonio Pizzuti,Maura Pieretti,James S. Sutcliffe,James S. Sutcliffe,Stephen Richards,Annemieke J.M.H. Verkert,Jeanette J. A. Holden,Raymond G. Fenwick,Stephen T. Warren,Stephen T. Warren,Ben A. Oostra,David L. Nelson,C. Thomas Caskey +14 more
TL;DR: The risk of expansion during oogenesis to the full mutation associated with mental retardation increases with the number of repeats, and this variation in risk accounts for the Sherman paradox.
Journal ArticleDOI
Cholinergic innervation of cortex by the basal forebrain : cytochemistry and cortical connections of the septal area, diagonal band nuclei, nucleus basalis (substantia innominata), and hypothalamus in the rhesus monkey
TL;DR: The organization of projections from the cholinergic neurons of the basal forebrain to neocortex and associated structures was investigated in the rhesus monkey with the help of horseradish peroxidase transport, acetyl‐cholinesterase histochemistry, and choline acetyltransferase immunohis‐tochemistry.
Journal ArticleDOI
Instability of a 550-base pair DNA segment and abnormal methylation in fragile X syndrome
I. Oberlé,François Rousseau,Dominique Heitz,Christine Kretz,Didier Devys,André Hanauer,Joëlle Boué,Bertheas Mf,Jean-Louis Mandel +8 more
TL;DR: expression of the fragile X syndrome appears to result from a two-step mutation as well as a highly localized methylation, and can easily be detected regardless of sex or phenotypic expression.
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Identification of a gene (FMR-1) containing a CGG repeat coincident with a breakpoint cluster region exhibiting length variation in fragile X syndrome
Annemiske J.M.H. Verkerk,Maura Pieretti,James S. Sutcliffe,Ying-Hui Fu,Derek P.A. Kuhl,Antonio Pizzuti,Orly Reiner,Stephen Richards,Maureen F. Victoria,Fuping Zhang,Bert Eussen,Gert-Jan B. van Ommen,Lau Blonden,Gregory J. Riggins,Jane L. Chastain,Catherine B. Kunst,Hans Galjaard,C. Thomas Caskey,David L. Nelson,Ben A. Oostra,Stephen T. Warren +20 more