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Heterozygous Mice (heterozygous + mouse)
Selected AbstractsSp1/Sp3 compound heterozygous mice are not viable: Impaired erythropoiesis and severe placental defectsDEVELOPMENTAL DYNAMICS, Issue 10 2007Imme Krüger No abstract is available for this article. [source] Electroconvulsive seizure thresholds and kindling acquisition rates are altered in mouse models of human KCNQ2 and KCNQ3 mutations for benign familial neonatal convulsionsEPILEPSIA, Issue 7 2009James F. Otto Summary Purpose:, Benign familial neonatal convulsions (BFNC) is caused by mutations in the KCNQ2 and KCNQ3 genes, which encode subunits of the M-type potassium channel. The purpose of this study was to examine the effects of orthologous BFNC-causing mutations on seizure thresholds and the acquisition of corneal kindling in mice with heterozygous expression of the mutations. Methods:, The effects of the Kcnq2 gene A306T mutation and the Kcnq3 gene G311V mutation were determined for minimal clonic, minimal tonic hindlimb extension, and partial psychomotor seizures. The rate of corneal kindling acquisition was also determined for Kcnq2 A306T and Kcnq3 G311V mice. Results:, Seizure thresholds were significantly altered relative to wild-type animals in the minimal clonic, minimal tonic hindlimb extension, and partial psychomotor seizure models. Differences in seizure threshold were found to be dependent on the mutation expressed, the seizure testing paradigm, the genetic background strain, and the gender of the animal. Mutations in Kcnq2 and Kcnq3 were associated with an increased rate of corneal kindling. In the Kcnq2 A306T mice, an increased incidence of death occurred during and immediately following the conclusion of the kindling acquisition period. Conclusions:, These results suggest that genetic alterations in the subunits that underlie the M-current and cause BFNC alter seizure susceptibility in a sex-, mouse strain-, and seizure-test dependent manner. Although the heterozygous mice do not appear to have spontaneous seizures, the increased seizure susceptibility and incidence of death during and after kindling suggests that these mutations lead to altered excitability in these animals. [source] Impact of Sim1 gene dosage on the development of the paraventricular and supraoptic nuclei of the hypothalamusEUROPEAN JOURNAL OF NEUROSCIENCE, Issue 12 2009Sabine Michaëlle Duplan Abstract The bHLH-PAS transcription SIM1 is required for the development of all neurons of the paraventricular nucleus (PVN) and supraoptic nucleus (SON) of the hypothalamus. Mice with a loss of Sim1 die within a few days of birth, presumably because of the lack of a PVN and SON. In contrast, mice with a decrease of Sim1 survive, are hyperphagic and become obese. The mechanism by which Sim1 controls food intake remains unclear. Here we show that the development of specific PVN and SON cell types is sensitive to Sim1 gene dosage. Sim1 haploinsufficiency reduces the number of vasopressin (AVP)- and oxytocin-producing cells in the PVN by about 50 and 80%, respectively, but does not affect the development of Crh, Trh and Ss neurons. A decrease of AVP-producing cells increases the sensitivity of Sim1 heterozygous mice to chronic dehydration. Moreover, retrograde labelling showed a 70% reduction of PVN neurons projecting to the dorsal vagal complex, raising the possibility that a decrease of these axons contributes to the hyperphagia of Sim1+/, mice. Sim1 haploinsufficiency is thus associated with a decrease of several PVN/SON cell types, which has the potential of affecting distinct homeostatic processes. [source] Ret deficiency in mice impairs the development of A5 and A6 neurons and the functional maturation of the respiratory rhythmEUROPEAN JOURNAL OF NEUROSCIENCE, Issue 10 2005J. C. Viemari Abstract Although a normal respiratory rhythm is vital at birth, little is known about the genetic factors controlling the prenatal maturation of the respiratory network in mammals. In Phox2a mutant mice, which do not express A6 neurons, we previously hypothesized that the release of endogenous norepinephrine by A6 neurons is required for a normal respiratory rhythm to occur at birth. Here we investigated the role of the Ret gene, which encodes a transmembrane tyrosine kinase receptor, in the maturation of norepinephrine and respiratory systems. As Ret -null mutants (Ret,/,) did not survive after birth, our experiments were performed in wild-type (wt) and Ret,/, fetuses exteriorized from pregnant heterozygous mice at gestational day 18. First, in wt fetuses, quantitative in situ hybridization revealed high levels of Ret transcripts in the pontine A5 and A6 areas. Second, in Ret,/, fetuses, high-pressure liquid chromatography showed significantly reduced norepinephrine contents in the pons but not the medulla. Third, tyrosine hydroxylase immunocytochemistry revealed a significantly reduced number of pontine A5 and A6 neurons but not medullary norepinephrine neurons in Ret,/, fetuses. Finally, electrophysiological and pharmacological experiments performed on brainstem ,en bloc' preparations demonstrated impaired resting respiratory activity and abnormal responses to central hypoxia and norepinephrine application in Ret,/, fetuses. To conclude, our results show that Ret gene contributes to the prenatal maturation of A6 and A5 neurons and respiratory system. They support the hypothesis that the normal maturation of the respiratory network requires afferent activity corresponding to the A6 excitatory and A5 inhibitory input balance. [source] Aberrant responses to acoustic stimuli in mice deficient for neural recognition molecule NB-2EUROPEAN JOURNAL OF NEUROSCIENCE, Issue 5 2003Hong Li Abstract NB-2, a member of the contactin subgroup in the immunoglobulin superfamily, is expressed specifically in the postnatal nervous system, reaching a maximum level at 3 weeks postnatal. NB-2 displays neurite outgrowth-promoting activity in vitro. To assess its function in the nervous system, we generated mutant mice in which a part of the NB-2 gene was ablated and replaced with the tau-LacZ gene. The general appearance of NB-2-deficient mice and their gross anatomical features were normal. The LacZ expression patterns in heterozygous mice revealed that NB-2 is preferentially expressed in the central auditory pathways. In the audiogenic seizure test, NB-2-deficient mice exhibited a lower incidence of wild running, but a higher mortality rate than the wild-type littermates. c-Fos immunohistochemistry demonstrated that neural excitability induced by the audiogenic seizure test in the NB-2-deficient mice was prominently attenuated in both the dorsal and external cortices of the inferior colliculus, where enhanced neural excitability was observed in the wild-type mice. In response to pure-tone stimulation after priming, NB-2-deficient mice exhibited a diffuse and low level of c-Fos expression in the central nucleus of the inferior colliculus, which was distinctly different from the band-like c-Fos expression corresponding to the tonotopic map in the wild-type littermates. Taken together, these results suggest that a lack of NB-2 causes impairment of the neuronal activity in the auditory system. [source] Consequences for enamel development and mineralization resulting from loss of function of ameloblastin or enamelinEUROPEAN JOURNAL OF ORAL SCIENCES, Issue 5 2009Charles E. Smith Although the nonamelogenin proteins, ameloblastin and enamelin, are both low-abundance and rapidly degrading components of forming enamel, they seem to serve essential developmental functions, as suggested by findings that an enamel layer fails to appear on teeth of mice genetically engineered to produce either a truncated form of ameloblastin (exons 5 and 6 deleted) or no enamelin at all (null). The purpose of this study was to characterize, by direct micro weighing, changes in enamel mineralization occurring on maxillary and mandibular incisors of mice bred for these alterations in nonamelogenin function (Ambn+/+, +/,5,6, ,5,6/,5,6, Enam+/+, +/, ,,/,). The results indicated similar changes to enamel-mineralization patterns within the altered genotypes, including significant decreases by as much as 50% in the mineral content of maturing enamel from heterozygous mice and the formation of a thin, crusty, and disorganized mineralized layer, rather than true enamel, on the labial (occlusal) surfaces of incisors and molars along with ectopic calcifications within enamel organ cells in Ambn,5,6/,5,6 and Enam,/, homozygous mice. These findings confirm that both ameloblastin and enamelin are required by ameloblasts to create an enamel layer by appositional growth as well as to assist in achieving its unique high level of mineralization. [source] Disruption of the gene encoding 3,-hydroxysterol ,14 -reductase (Tm7sf2) in mice does not impair cholesterol biosynthesisFEBS JOURNAL, Issue 20 2008Anna M. Bennati Tm7sf2 gene encodes 3,-hydroxysterol ,14 -reductase (C14SR, DHCR14), an endoplasmic reticulum enzyme acting on ,14 -unsaturated sterol intermediates during the conversion of lanosterol to cholesterol. The C-terminal domain of lamin B receptor, a protein of the inner nuclear membrane mainly involved in heterochromatin organization, also possesses sterol ,14 -reductase activity. The subcellular localization suggests a primary role of C14SR in cholesterol biosynthesis. To investigate the role of C14SR and lamin B receptor as 3,-hydroxysterol ,14 -reductases, Tm7sf2 knockout mice were generated and their biochemical characterization was performed. No Tm7sf2 mRNA was detected in the liver of knockout mice. Neither C14SR protein nor 3,-hydroxysterol ,14 -reductase activity were detectable in liver microsomes of Tm7sf2(,/,) mice, confirming the effectiveness of gene inactivation. C14SR protein and its enzymatic activity were about half of control levels in the liver of heterozygous mice. Normal cholesterol levels in liver membranes and in plasma indicated that, despite the lack of C14SR, Tm7sf2(,/,) mice are able to perform cholesterol biosynthesis. Lamin B receptor 3,-hydroxysterol ,14 -reductase activity determined in liver nuclei showed comparable values in wild-type and knockout mice. These results suggest that lamin B receptor, although residing in nuclear membranes, may contribute to cholesterol biosynthesis in Tm7sf2(,/,) mice. Affymetrix microarray analysis of gene expression revealed that several genes involved in cell-cycle progression are downregulated in the liver of Tm7sf2(,/,) mice, whereas genes involved in xenobiotic metabolism are upregulated. [source] Deficits in acetylcholine homeostasis, receptors and behaviors in choline transporter heterozygous miceGENES, BRAIN AND BEHAVIOR, Issue 5 2007M. H. Bazalakova Cholinergic neurons elaborate a hemicholinium-3 (HC-3) sensitive choline transporter (CHT) that mediates presynaptic, high-affinity choline uptake (HACU) in support of acetylcholine (ACh) synthesis and release. Homozygous deletion of CHT (,/,) is lethal shortly after birth (Ferguson et al. 2004), consistent with CHT as an essential component of cholinergic signaling, but precluding functional analyses of CHT contributions in adult animals. In contrast, CHT+/, mice are viable, fertile and display normal levels of synaptosomal HACU, yet demonstrate reduced CHT protein and increased sensitivity to HC-3, suggestive of underlying cholinergic hypofunction. We find that CHT+/, mice are equivalent to CHT+/+ siblings on measures of motor co-ordination (rotarod), general activity (open field), anxiety (elevated plus maze, light/dark paradigms) and spatial learning and memory (Morris water maze). However, CHT+/, mice display impaired performance as a result of physical challenge in the treadmill paradigm, as well as reduced sensitivity to challenge with the muscarinic receptor antagonist scopolamine in the open field paradigm. These behavioral alterations are accompanied by significantly reduced brain ACh levels, elevated choline levels and brain region-specific decreased expression of M1 and M2 muscarinic acetylcholine receptors. Our studies suggest that CHT hemizygosity results in adequate baseline ACh stores, sufficient to sustain many phenotypes, but normal sensitivities to physical and/or pharmacological challenge require full cholinergic signaling capacity. [source] A gene trap knockout of the abundant sperm tail protein, outer dense fiber 2, results in preimplantation lethality,GENESIS: THE JOURNAL OF GENETICS AND DEVELOPMENT, Issue 11 2006Nicholas A. Salmon Abstract Outer dense fiber 2 (Odf2) is highly expressed in the testis where it encodes a major component of the outer dense fibers of the sperm flagellum. Furthermore, ODF2 protein has recently been identified as a widespread centrosomal protein. While the expression of Odf2 highlighted a potential role for this gene in male germ cell development and centrosome function, the in vivo function of Odf2 was not known. We have generated Odf2 knockout mice using an Odf2 gene trapped embryonic stem cell (ESC) line. Insertion of a gene trap vector into exon 9 resulted in a gene that encodes a severely truncated protein lacking a large portion of its predicted coil forming domains as well as both leucine zipper motifs that are required for protein,protein interactions with ODF1, another major component of the outer dense fibers. Although wild-type and heterozygous mice were recovered, no mice homozygous for the Odf2 gene trap insertion were recovered in an extended breeding program. Furthermore, no homozygous embryos were found at the blastocyst stage of embryonic development, implying a critical pre-implantation role for Odf2. We show that Odf2 is expressed widely in adults and is also expressed in the blastocyst stage of preimplantation development. These findings are in contrast with early studies reporting Odf2 expression as testis specific and suggest that embryonic Odf2 expression plays a critical role during preimplantation development in mice. genesis 44:515,522, 2006. Published 2006 Wiley-Liss, Inc. [source] Bile duct proliferation in Jag1/fringe heterozygous mice identifies candidate modifiers of the alagille syndrome hepatic phenotype,HEPATOLOGY, Issue 6 2008Matthew J. Ryan Alagille syndrome (AGS) is a heterogeneous developmental disorder associated with bile duct paucity and various organ anomalies. The syndrome is caused by mutations in JAG1, which encodes a ligand in the Notch signaling pathway, in the majority of cases and mutations in the NOTCH2 receptor gene in less than 1% of patients. Although a wide array of JAG1 mutations have been identified in the AGS population, these mutational variants have not accounted for the wide phenotypic variability observed in patients with this syndrome. The Fringe genes encode glycosyltransferases, which modify Notch and alter ligand-receptor affinity. In this study, we analyzed double heterozygous mouse models to examine the Fringe genes as potential modifiers of the Notch-mediated hepatic phenotype observed in AGS. We generated mice that were haploinsufficient for both Jag1 and one of three paralogous Fringe genes: Lunatic (Lfng), Radical (Rfng), and Manic (Mfng). Adult Jag1+/,Lfng+/, and Jag1+/,Rfng+/, mouse livers exhibited widespread bile duct proliferation beginning at 5 weeks of age and persisting up to 1 year. The Jag1+/,Mfng+/, livers showed a subtle, yet significant increase in bile duct numbers and bile duct to portal tract ratios. These abnormalities were not observed in the newborn period. Despite the portal tract expansion by bile ducts, fibrosis was not increased and epithelial to mesenchymal transition was not shown in the affected portal tracts. Conclusion: Mice heterozygous for mutations in Jag1 and the Fringe genes display striking bile duct proliferation, which is not apparent at birth. These findings suggest that the Fringe genes may regulate postnatal bile duct growth and remodeling, and serve as candidate modifiers of the hepatic phenotype in AGS. (HEPATOLOGY 2008;48:1989,1997.) [source] Regulated transcription of the immediate-early gene Zif268: Mechanisms and gene dosage-dependent function in synaptic plasticity and memory formationHIPPOCAMPUS, Issue 5 2002Bruno Bozon Abstract The immediate-early gene Zif268 is a member of the Egr family of inducible transcription factors. Data from gene expression studies have suggested that this gene may play a critical role in initial triggering of the genetic machinery that has long been considered a necessary mechanism for maintenance of the later phases of LTP and also for the consolidation or stabilization of long-lasting memories. Until recently, however, the data supporting this assumption have been based primarily on circumstantial evidence, with no direct evidence to suggest that Zif268 is required for long-lasting synaptic plasticity and memory. In this report, we review our own data using Zif268 mutant mice; we show that although the early phase of dentate gyrus LTP is normal in these mice, the later phases are not present, and the ability of the mice to maintain learned information over a 24-h period is deficient. In addition, we present new information showing a task-dependent gene dosage effect in Zif268 heterozygous mice. We show that spatial learning is particularly sensitive to reduced levels of Zif268, as one-half of the complement of Zif268 in heterozygous mice is insufficient to maintain spatial long-term memories. Hippocampus 2002;12:570,577. © 2002 Wiley-Liss, Inc. [source] The p75NTR neurotrophin receptor is a tumor suppressor in human and murine retinoblastoma developmentINTERNATIONAL JOURNAL OF CANCER, Issue 9 2008Helen Dimaras Abstract The transition from the benign retinal tumor retinoma to its malignant counterpart retinoblastoma is accompanied by the loss of expression of the p75NTR neurotrophin receptor. This change in expression is mimicked in the TAg-RB murine model of retinoblastoma, where early tumors retain expression of p75NTR and advanced tumors lack it. We sought to determine the functional effect on tumor development of absence of p75NTR from the onset of TAg-RB tumor initiation. TAg-RB mice were crossed with either p75NTR exon 3 (E3KO) or exon 4 knockout (E4KO) mice to produce TAg-RB offspring that lacked one or both normal p75NTR alleles. The average tumor area per eye as a percentage of retinal area was measured. TAg-RB/E3KO (TAg-RBE3KO) and heterozygous mice showed no significant difference in tumor area compared to the TAg-RB control mice at any time point studied. However, TAg-RB/E4KO (TAg-RBE4KO) and heterozygous mice displayed a significantly larger tumor area than the TAg-RB control mice. Furthermore, adenoviral-mediated expression of p75NTR in a p75NTR -deficient human retinoblastoma cell line resulted in increased apoptosis. Our results confirm that p75NTR suppresses progression of both human and TAg-RB murine retinoblastoma, and holds promise as a target for future therapy of the disease. © 2008 Wiley-Liss, Inc. [source] Workshop 5: NAAG and NAALADase: Functional Properties in the Central and Peripheral Nervous SystemJOURNAL OF NEUROCHEMISTRY, Issue 2002D. Bacich Glutamate carboxypeptidase II (GCPII, also known as N-acetylated-alpha-linked acidic dipeptidase or NAALADase) knockout (KO) mice were generated by inserting a GCPII targeting cassette containing a PGK-Neo resistance marker and stop codons in exons 1 and 2, and removal of exons 1 and 2 intron/exon boundary sequence. Embryonic stem cells were injected into C57BL6 blastocysts, and chimeric offspring born. Germline transmission was confirmed by mating the chimeras to generate heterozygous KO mice. Crossing heterozygous mice generated F2 generation mice homozygous for the null mutant, as confirmed by loss of GCPII protein. NAAG hydrolyzing activity was minimal (0.07 pmol/mg/min) in KO tissue, with normal levels (4.82 pmol/mg/min) in wild types and intermediate levels (1.73 pmol/mg/min) in heterozygotes. Preliminary neuropathy experiments showed KO mice are less affected by nerve-crush and recover faster from the damage-induced neuropathy, as indicated by EMG recording and nerve morphology. Similarly, GCPII KO mice subjected to high dose vitamin B6 displayed less severe neuropathy than wild types, as indicated by reduced sensory nerve conduction velocity and morphological deficits. Also, in a transient middle cerebral artery occlusion model, GCPII KO mice were significantly more resistant to the effects of cerebral ischemia than their wildtype littermates. Findings support GCPII involvement in stroke and in mediating chronic neuropathic conditions and suggest GCPII inhibitors may be useful in treatment of brain ischemia as well as peripheral neuropathies. [source] Myelin thickenings in val 102/fs null mutation of MPZ geneJOURNAL OF THE PERIPHERAL NERVOUS SYSTEM, Issue 2 2004MV De Angelis Myelin thickenings, abnormal myelin foldings and tomacula have been rarely described in CMT1B. In two unrelated patients of different age (patient 1: 29 years old; patient 2: 65 years old) with CMT1B and Val 102/fs null mutation of MPZ gene we performed morphometric analysis, teased fibers and ultrastructural examination of sural nerve. We found: 1) markedly decreased fiber density with prevalent loss of large diameter fibers (patient 1: 4419 fibers/mm2; patient 2: 1326 fibers/mm2); 2) evidence of de-remyelination; and 3) paranodal and internodal myelin thickenings in virtually all fibers. Patient 1 has myelin thickenings measuring more than 50% of the fiber diameter in 14% of fibers and thickenings greater than 30% in 33% of fibers. Patients 2 presents myelin thickenings measuring more than 50% of fiber diameter in 23% of fibers and thickening greater than 30% in 49% of fibers. When considering the absolute measure of myelin thickenings and their number over 100 internodes, patient 1 presents 150 small myelin thickenings (<8 mm of diameter) whereas patient 2 has 57. The number of globules (8,12 mm of diameter) is 56 in patient 1 and 45 in patient 2. The number of myelin thickenings greater than 12 mm is 33 in patient 1 and 45 in patient 2. Ultrathin sections showed myelin infoldings, outfoldings and uncompacted myelin. CMT1B with a heterozygous null mutation of MPZ gene is characterized by abundant focal myelin thickenings. Similar findings have been described in the P0 deficient heterozygous mice. [source] Tumor suppressor gene Co-operativity in compound Patched1 and suppressor of fused heterozygous mutant miceMOLECULAR CARCINOGENESIS, Issue 5 2009Jessica Svärd Abstract Dysregulation of the Hedgehog signaling pathway is central to the development of certain tumor types, including medulloblastoma and basal cell carcinoma (BCC). Patched1 (Ptch1) and Suppressor of fused (Sufu) are two essential negative regulators of the pathway with tumor suppressor activity. Ptch1+/, mice are predisposed to developing medulloblastoma and rhabdomyosarcoma, while Sufu+/, mice develop a skin phenotype characterized by basaloid epidermal proliferations. Here, we have studied tumor development in Sufu+/,Ptch1+/, mice to determine the effect of compound heterozygosity on the onset, incidence, and spectrum of tumors. We found significantly more (2.3-fold) basaloid proliferations in Sufu+/,Ptch1+/, compared to Sufu+/, female, but not male, mice. For medulloblastoma, the cumulative 1-yr incidence was 1.5-fold higher in Sufu+/,Ptch1+/, compared to Ptch1+/, female mice but this strong trend was not statistically significant. Together this suggests a weak genetic interaction of the two tumor suppressor genes. We noted a few rhabdomyosarcomas and pancreatic cysts in the Sufu+/,Ptch1+/, mice, but the numbers were not significantly different from the single heterozygous mice. Hydrocephalus developed in ,20% of the Ptch1+/, and Sufu+/,Ptch1+/, but not in Sufu+/, mice. Interestingly, most of the medulloblastomas from the Sufu+/,Ptch1+/, mice had lost expression of the remaining Ptch1 wild-type allele but not the Sufu wild-type allele. On the contrary, Sufu as well as Gli1 and Gli2 expression was upregulated in the medulloblastomas compared to adult cerebellum in Ptch1+/, and Sufu+/,Ptch1+/, mice. This suggests that Sufu expression may be regulated by Hedgehog pathway activity and could constitute another negative feedback loop in the pathway. © 2008 Wiley-Liss, Inc. [source] Nkx2.1 transcription factor in lung cells and a transforming growth factor-,1 heterozygous mouse model of lung carcinogenesis,MOLECULAR CARCINOGENESIS, Issue 4 2004Yang Kang Abstract The Nkx2.1 homeobox gene and transforming growth factor-,1 (TGF-,1) are essential for organogenesis and differentiation of the mouse lung. NKX2.1 is a marker of human lung carcinomas, but it is not known whether this gene participates in early tumorigenesis. Addition of TGF-,1 to TGF-,1-responsive nontumorigenic mouse lung cells cotransfected with a NKX2.1Luc luciferase reporter and either a Sp1 or Sp3 plasmid showed a significant increase or decrease, respectively, in NKX2.1Luc transcription. Cotransfection of Sp3 and dominant-negative TGF-, type II receptor plasmids negated the effect of Sp1. Cotransfected Sp1 plasmid with either dominant-negative Smad2 or Smad3 or Smad4 plasmids significantly decreased NKX2.1Luc transcription. Electrophoretic mobility shift assays revealed binding of Sp1 and Smad4 to the NKX2.1 promoter. With a TGF-,1 heterozygous mouse model, Nkx2.1 mRNA and protein in lungs of TGF-,1 heterozygous mice were significantly lower compared to wildtype (WT) littermates. Competitive reverse transcription (RT)-polymerase chain reaction (PCR) and immunostaining showed that Nkx2.1 mRNA and protein decreased significantly in adenomas and adenocarcinomas compared to normal lung tissue. Our in vitro data showed that regulation of Nkx2.1 by TGF-,1 occurs through TGF-, type II receptor and Smad signaling, with Sp1 and Sp3 in lung cells. Our in vivo data showed reduced Nkx2.1 in lungs of TGF-,1 heterozygous mice compared to WT mice, that is detectable in adenomas, and that is further reduced in carcinogenesis, and that correlates with reduction of Sp1, Sp3, and Smads in lung adenocarcinomas. Our findings suggest that reduced Nkx2.1 and TGF-,1 signaling components may contribute to tumorigenesis in the lungs of TGF-,1 heterozygous mice. Published 2004 Wiley-Liss, Inc. [source] | |||||||||||||