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1.
Development ; 138(4): 667-76, 2011 Feb.
Article in English | MEDLINE | ID: mdl-21228006

ABSTRACT

In mouse embryos, loss of Dickkopf-1 (DKK1) activity is associated with an ectopic activation of WNT signalling responses in the precursors of the craniofacial structures and leads to a complete truncation of the head at early organogenesis. Here, we show that ENU-induced mutations of genes coding for two WNT canonical pathway factors, the co-receptor LRP6 and the transcriptional co-activator ß-catenin, also elicit an ectopic signalling response and result in loss of the rostral tissues of the forebrain. Compound mutant embryos harbouring combinations of mutant alleles of Lrp6, Ctnnb1 and Dkk1 recapitulate the partial to complete head truncation phenotype of individual homozygous mutants. The demonstration of a synergistic interaction of Dkk1, Lrp6 and Ctnnb1 provides compelling evidence supporting the concepts that (1) stringent regulation of the level of canonical WNT signalling is necessary for head formation, (2) activity of the canonical pathway is sufficient to account for the phenotypic effects of mutations in three different components of the signal cascade and (3) rostral parts of the brain and the head are differentially more sensitive to canonical WNT signalling and their development is contingent on negative modulation of WNT signalling activity.


Subject(s)
Head/embryology , Signal Transduction , Alleles , Animals , Base Sequence , Gene Expression Regulation, Developmental , Intercellular Signaling Peptides and Proteins/deficiency , Intercellular Signaling Peptides and Proteins/metabolism , LDL-Receptor Related Proteins/genetics , LDL-Receptor Related Proteins/metabolism , Low Density Lipoprotein Receptor-Related Protein-6 , Mice , Mice, Inbred BALB C , Mutation , Phenotype , Wnt Proteins/metabolism , beta Catenin/genetics , beta Catenin/metabolism
2.
Proc Natl Acad Sci U S A ; 106(16): 6706-11, 2009 Apr 21.
Article in English | MEDLINE | ID: mdl-19351902

ABSTRACT

The hereditary ataxias are a complex group of neurological disorders characterized by the degeneration of the cerebellum and its associated connections. The molecular mechanisms that trigger the loss of Purkinje cells in this group of diseases remain incompletely understood. Here, we report a previously undescribed dominant mouse model of cerebellar ataxia, moonwalker (Mwk), that displays motor and coordination defects and loss of cerebellar Purkinje cells. Mwk mice harbor a gain-of-function mutation (T635A) in the Trpc3 gene encoding the nonselective transient receptor potential cation channel, type C3 (TRPC3), resulting in altered TRPC3 channel gating. TRPC3 is highly expressed in Purkinje cells during the phase of dendritogenesis. Interestingly, growth and differentiation of Purkinje cell dendritic arbors are profoundly impaired in Mwk mice. Our findings define a previously unknown role for TRPC3 in both dendritic development and survival of Purkinje cells, and provide a unique mechanism underlying cerebellar ataxia.


Subject(s)
Cerebellar Ataxia/pathology , Point Mutation/genetics , Purkinje Cells/pathology , TRPC Cation Channels/genetics , Amino Acid Sequence , Animals , Cell Differentiation , Cerebellar Ataxia/physiopathology , Dendrites/pathology , Ion Channel Gating , Male , Mice , Mice, Inbred BALB C , Mice, Neurologic Mutants , Molecular Sequence Data , Motor Activity , Phosphorylation , TRPC Cation Channels/chemistry
3.
Behav Brain Res ; 173(1): 22-9, 2006 Oct 02.
Article in English | MEDLINE | ID: mdl-16870275

ABSTRACT

Laboratory animals, when subjected to behavioural tests, are often motivationally primed by a period of prior water or food restriction. To date, it is still debatable which restriction protocol (water versus food) is more appropriate for different species. In general, a protocol is considered appropriate if animal discomfort is kept to a minimum whilst motivation for the task is maximised. Here we present a comparison study of the effects of water versus food restriction protocols in mice. The characterisation of the physiological and behavioural effects of food and water restriction in mice is beneficial for both institutional animal care centres and the scientific community. We have investigated body weight fluctuations in three groups of C57BL/6J female mice (water-restricted, food-restricted and control) in two different protocols (20 h versus 22 h of restriction per day) over 2 consecutive weeks. Subsequently, a selected number of mice from each group were subjected to a battery of behavioural tests to investigate exploratory, emotional and dominance behaviours, in addition to learning and memory processes. Body weight fluctuations suggested that mice tolerate a water restriction regimen better than a comparable food restriction regimen. Furthermore, behavioural performances demonstrated that food-restricted mice show a reduction in the exploration of a new environment and particular aspects of their timing memories are distorted. Finally, both water- and food-restricted mice tended to be more offensive than control mice when paired with an opponent in a social dominance test condition.


Subject(s)
Dominance-Subordination , Exploratory Behavior/physiology , Food Deprivation/physiology , Motivation , Water Deprivation/physiology , Adaptation, Physiological , Analysis of Variance , Animals , Association Learning/physiology , Body Weight/physiology , Conditioning, Classical/physiology , Female , Mice , Mice, Inbred C57BL , Motor Activity/physiology , Random Allocation , Time Perception/physiology
4.
J Clin Invest ; 124(4): 1468-82, 2014 Apr.
Article in English | MEDLINE | ID: mdl-24614104

ABSTRACT

The recent identification of multiple dominant mutations in the gene encoding ß-catenin in both humans and mice has enabled exploration of the molecular and cellular basis of ß-catenin function in cognitive impairment. In humans, ß-catenin mutations that cause a spectrum of neurodevelopmental disorders have been identified. We identified de novo ß-catenin mutations in patients with intellectual disability, carefully characterized their phenotypes, and were able to define a recognizable intellectual disability syndrome. In parallel, characterization of a chemically mutagenized mouse line that displays features similar to those of human patients with ß-catenin mutations enabled us to investigate the consequences of ß-catenin dysfunction through development and into adulthood. The mouse mutant, designated batface (Bfc), carries a Thr653Lys substitution in the C-terminal armadillo repeat of ß-catenin and displayed a reduced affinity for membrane-associated cadherins. In association with this decreased cadherin interaction, we found that the mutation results in decreased intrahemispheric connections, with deficits in dendritic branching, long-term potentiation, and cognitive function. Our study provides in vivo evidence that dominant mutations in ß-catenin underlie losses in its adhesion-related functions, which leads to severe consequences, including intellectual disability, childhood hypotonia, progressive spasticity of lower limbs, and abnormal craniofacial features in adults.


Subject(s)
Craniofacial Abnormalities/genetics , Intellectual Disability/genetics , Mutation , beta Catenin/genetics , Adolescent , Adult , Amino Acid Sequence , Amino Acid Substitution , Animals , Base Sequence , Brain/pathology , Cadherins/chemistry , Child, Preschool , Craniofacial Abnormalities/pathology , DNA/genetics , Disease Models, Animal , Female , Genes, Dominant , Humans , Male , Mice , Mice, Inbred C3H , Mice, Inbred C57BL , Mice, Mutant Strains , Middle Aged , Models, Molecular , Molecular Sequence Data , Multiprotein Complexes/chemistry , Multiprotein Complexes/genetics , Phenotype , Sequence Homology, Amino Acid , Syndrome , Young Adult , beta Catenin/chemistry , beta Catenin/metabolism
5.
Proc Natl Acad Sci U S A ; 102(35): 12477-82, 2005 Aug 30.
Article in English | MEDLINE | ID: mdl-16109771

ABSTRACT

Monosomy of the human chromosome 6p terminal region results in a variety of congenital malformations that include brain, craniofacial, and organogenesis abnormalities. To examine the genetic basis of these phenotypes, we have carried out an unbiased functional analysis of the syntenic region of the mouse genome (proximal Mmu13). A genetic screen for recessive mutations in this region recovered thirteen lines with phenotypes relevant to a variety of clinical conditions. These include two loci that cause holoprosencephaly, two that underlie anophthalmia, one of which also contributes to other craniofacial abnormalities such as microcephaly, agnathia, and palatogenesis defects, and one locus responsible for developmental heart and kidney defects. Analysis of heterozygous carriers of these mutations shows that a high proportion of these loci manifest with behavioral activity and sensorimotor deficits in the heterozygous state. This finding argues for the systematic, reciprocal phenotypic assessment of dominant and recessive mouse mutants. In addition to providing a resource of single gene mutants that model 6p-associated disorders, the work reveals unsuspected genetic complexity at this region. In particular, many of the phenotypes associated with 6p deletions can be elicited by mutation in one of a number of genes. This finding implies that phenotypes associated with contiguous gene deletion syndromes can result not only from dosage sensitivity of one gene in the region but also from the combined effect of monosomy for multiple genes that function within the same biological process.


Subject(s)
Chromosome Deletion , Chromosomes, Human, Pair 6/genetics , Congenital Abnormalities/genetics , Animals , Anophthalmos/genetics , Brain/abnormalities , Craniofacial Abnormalities/genetics , Female , Genes, Lethal , Genes, Recessive , Genetic Testing/methods , Heart Defects, Congenital/genetics , Humans , Kidney/abnormalities , Male , Mice , Mice, Inbred C3H , Mice, Inbred C57BL , Mice, Mutant Strains , Multigene Family , Mutation , Phenotype , Species Specificity , Syndrome
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