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Neurodegeneration in cerebellar granule cells of p/q type voltage gated calcium channel mutant leaner miceBawa, Bhupinder 15 May 2009 (has links)
Mutations of the α1A subunit of CaV 2.1 voltage gated calcium (VGCC) channels
are responsible for several inherited disorders affecting humans, including familial
hemiplegic migraine, episodic ataxia type and spinocerebellar ataxia type. The leaner
mouse also carries an autosomal recessive mutation in the α1A subunit of CaV 2.1 VGCCs,
which, in the homozygous condition, results in a severe cerebellar atrophy and ataxia.
The leaner mutation results in reduced calcium influx through CaV 2.1 VGCCs. To better
understand cerebellar neurodegeneration and cerebellar dysfunction we focused our
research on elucidating the relationship between mitochondrial function/dysfunction and
calcium channel mutations. The aims of this dissertation were: 1) to estimate the extent
of neuronal cell death, basal intracellular calcium and mitochondrial (dys)function in
cerebellar granule cells (CGC) of adult leaner mice; 2) to analyze the role of the leaner
calcium channel mutation on postnatal development of CGCs; and 3) to test whether
inducing increased calcium influx by exposing cultured granule cells to potassium
chloride can eliminate or reduce the CGC death. By using mechanism independent Fluoro-Jade staining and apoptosis specific
TUNEL staining, we demonstrated that leaner CGC death continues into adulthood and
the spatial pattern of granule cell death observed during postnatal development also
continues into adulthood. The present investigation showed a reduced resting
intracellular calcium in CGC from leaner mice as compared to age matched wild type
mice, and tottering mice. The tottering mouse is another mutant mouse that carries a
mutation in the α1A subunit of CaV 2.1 VGCCs like leaner mouse. However, these mice
do not show any neurodegeneration and therefore they were used as a second control.
Our results also showed that even though CGC of leaner mice have dysfunctional CaV2.1
channels, there is no change in depolarization induced Ca2+ influx, which suggests a
functional compensation for CaV2.1 calcium channels by other VGCCs. Our results
showed reduced mitochondrial membrane potential at the time of peak CGC death in
leaner mice as compared to wild type CGCs and tottering CGCs. The results of this
investigation suggest mitochondrial mediated but reactive oxygen species independent
cell death in CGCs of leaner mice.
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Abnormal reproductive function in female homozygous leaner miceSerpedin, Nesrin 30 September 2004 (has links)
The leaner mouse carries an autosomal recessive mutation in the α1A subunit of neuronal P/Q-type voltage gated calcium ion channels. Due to this mutation, the leaner mouse exhibits severe ataxia, absence seizures and paroxysmal dyskinesia. Mutations in this same gene in humans cause: episodic ataxia type 2, familial hemiplegic migraine, spinocerebellar ataxia type 6 and probably the newly recognized form of human inherited epilepsy.
Decreased amplitude of calcium current in cerebellar Purkinje cells and decreased calcium buffering capacity suggest that failure of calcium homeostasis may lead to the neurodegeneration observed in these mutant mice. Both sexes are affected. Despite their neurological dysfunction, homozygous leaner mice are able to breed and produce viable offspring. The survival rate for these pups is highly correlated with early fostering to normal lactating dams.
This thesis studies the reproductive dysfunction observed in female homozygous leaner mice and is divided into four parts: onset of puberty, estrous cycle, pregnancy and litter assessment, and hormone levels. We have discovered that the onset of puberty is precocious in leaner females compared to age-matched wild type females, and leaner mice spend more time in estrous than age-matched wild type females. Also, we have observed that leaner mice became pregnant less readily than wild type mice, but once pregnant, female leaner mice produced more pups per litter compared with wild type mice. The number of corpora lutea observed in leaner mice is greater than in wild type mice. In leaner mice, the number of corpora lutea in the ovary corresponding to the uterine horn with the highest number of offspring is larger than the number of corpora lutea found in the ovary corresponding to the other uterine horn. Radioimmunoassays of estradiol hormone levels at postnatal day 28 shows higher levels in leaner compared to age-matched wild type mice. However, at postnatal day 28, the luteinizing hormone levels are similar in both categories of mice.
This study of reproductive dysfunction in leaner mice was performed to gain further understanding about the role of intracellular calcium ion signaling in neuronal regulation of reproductive processes in females.
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Cerebellar Purkinje cell death in the P/Q -type voltage-gated calcium ion channel mutant mouse, leanerFrank-Cannon, Tamy Catherine 12 April 2006 (has links)
Mutations of the á1A subunit of P/Q-type voltage-gated calcium channels are
responsible for several inherited disorders affecting humans, including familial
hemiplegic migraine, episodic ataxia type 2 and spinocerebellar ataxia type 6. These
disorders include phenotypes such as a progressive cerebellar atrophy and ataxia. The
leaner mouse also carries a mutation in the alpha(1A)
subunit of P/Q-type voltage-gated
calcium channels, which results in a severe cerebellar atrophy and ataxia. The leaner
mutation causes reduced calcium ion influx upon activation of P/Q-type voltage-gated
calcium channels. This disrupts calcium homeostasis and leads to a loss of cerebellar
neurons, including cerebellar Purkinje cells. Because of its similarities with human P/Qtype
voltage-gated calcium channel mutations, leaner mouse has served as a model for
these disorders to aid our understanding of calcium channel function and
neurodegeneration associated with calcium channel dysfunction. The aims of this
dissertation were: (1) to precisely define the timing and spatial pattern of leaner Purkinje
cell death and (2) to assess the role of caspases and specifically of caspase 3 in directing
leaner Purkinje cell death. We used the mechanism independent marker for cell death Fluoro-Jade and
demonstrated the leaner Purkinje cell death begins around postnatal day 25 and peaks at
postnatal day 40 to 50. Based on this temporal pattern of Purkinje cell death we then
investigated the role of caspases in leaner Purkinje cell death. These studies showed that
caspase 3 is specifically activated in dying leaner cerebellar Purkinje cells. In addition,
in vitro inhibition of caspase 3 activity partially rescued leaner Purkinje cells. Further
investigation revealed that caspase 3 activation may be working together with or in
response to macroautophagy. This study also indicated a potential role for mitochondrial
signaling, demonstrated by the loss of mitochondrial membrane potential in leaner
cerebellar Purkinje cells. However, our study revealed that if the loss of mitochondrial
membrane potential is associated with leaner Purkinje cell death, this process is not
mediated by the mitochondrial protein cytochrome C.
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Analysis of Hippocampal Cell Proliferation, Survival, and Neuronal Morphology in P/Q-Type Voltage-Gated Calcium Channel Mutant MiceNigussie, Fikru 02 October 2013 (has links)
Tottering and leaner mutant mice carry mutations in the pore-forming subunit (1A) of P/Q-type (CaV 2.1) voltage-gated calcium ion (Ca2+) channels that result in reduced Ca2+ current density. Since Ca2+ influx via voltage-dependent Ca2+ channels regulates important Ca2+-dependent neuronal processes including neurotransmitter release and synaptogenesis, we assessed effects of these mutations on hippocampus volume, neuronal density, neuronal morphology of hippocampal pyramidal cells in adult (six-month-old) mice, and adult neurogenesis in three-week-old and six-month-old mice. Hippocampal volume and neuronal density were assessed using hematoxylin and eosin stained serial sections. Neuronal morphology was assessed using Golgi-Cox staining as well as ultrastructural assessment using transmission electron microscopy. Adult hippocampal neurogenesis was assessed using standard 5-bromo-2’-deoxyuridine (BrdU) labeling with fluorescent immunohistochemistry (IHC) and proliferating cell nuclear antigen (PCNA) with diaminobenzidine IHC. To determine neuron and astrocyte survival, we used fluorescent double labeling for neurons with BrdU-neuronal nuclei IHC or astrocytes using BrdU-glial fibrillary acidic protein, respectively. Fluoro-Jade histochemistry was used to assess numbers of degenerating cells in the dentate gyrus subgranular zone. Decreased hippocampus volume was observed in tottering female mice and increased dentate hilar and CA1 cell density in mutant mice compared to wild type mice. Cell proliferation was increased in the hilus and combined CA3, CA2 and CA1 regions of mutant mice compared to wild type mice. Decreased total dendritic length and decreased number of dendritic intersections was observed in tottering mice compared to wild type mice. The decrease in dendritic arborization of tottering mice occurred at the concentric circles close to the neuronal cell body indicating that basal dendrites of CA1 pyramidal neurons are reduced. Taken together, P/Q-type voltage gated calcium channel mutation has age variable influence on adult hippocampal cell proliferation, and it altered neuronal morphology in terms of dendritic complexity in tottering mice, while the leaner mutation reduced mitochondrial density.
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Synaptic Transmission in the Leaner Mutant Mouse Calyx of Held/MNTB SynapseEpps, Tina 20 January 2009 (has links)
The effects of alpha1A subunit mutations on presynaptic Ca2+ channel activity and functional development of synaptic properties remain elusive. The calyx of Held/medial nucleus of the trapezoid body synapse is an ideal model for studying the developmental effects of presynaptic voltage-gated Ca2+ channel (VGCC) impairment on synaptic function since simultaneous voltage-clamp recordings can be made directly from the pre- and postsynapse.
The alpha1A subunit leaner (tgla/la) mutation induced a profound reduction in synaptic transmission after hearing onset (> postnatal day 12; P12), with relatively preserved relationship between presynaptic Ca2+ current (Pre-ICa) and release and G-protein-mediated inhibition. Some synaptic properties were more reflective of an immature state, while other properties displayed a delay in maturation after P12.
Direct presynaptic recordings from P15/16 tgla/la nerve terminals revealed a decrease in the density of Pre-ICa, elevated activation threshold and slowing in the kinetics of VGCCs, all of which contribute to the deficit in transmitter release. Fractional contribution of P/Q-type channels to total Pre-ICa and their role in vesicle release was markedly reduced. N-type Ca2+ channels and close association of VGCCs to release sites was not sufficient to fully compensate for impaired P/Q-type channel function. The extent to which compensatory mechanisms preserve synaptic transmission at tgla/la synapses was further constrained by the developmental narrowing of the action potential waveform.
Activation of the cAMP pathway by forskolin or direct modulation of VGCCs by cdk inhibitors rescued deficits in transmitter release at P15/16 tgla/la synapses. The major effect of roscovitine was a slowing of presynaptic VGCC deactivation kinetics accompanied by a leftward shift in the activation curve. Activation of the cAMP pathway or direct modulation of presynaptic VGCCs may serve as two potential pathways to facilitate release and improve neuronal communication at synapses normally compromised by impaired P/Q-type channel function.
While significant for the tgla/la mutant, these studies provide an important advancement in our understanding of the crucial developmental and functional roles of P/Q-type Ca2+ channels in driving the maturation of synaptic properties at central synapses. These findings may improve our understanding of the pathophysiology of presynaptic VGCCs and elucidate essential mechanisms underlying the tgla/la phenotype.
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Synaptic Transmission in the Leaner Mutant Mouse Calyx of Held/MNTB SynapseEpps, Tina 20 January 2009 (has links)
The effects of alpha1A subunit mutations on presynaptic Ca2+ channel activity and functional development of synaptic properties remain elusive. The calyx of Held/medial nucleus of the trapezoid body synapse is an ideal model for studying the developmental effects of presynaptic voltage-gated Ca2+ channel (VGCC) impairment on synaptic function since simultaneous voltage-clamp recordings can be made directly from the pre- and postsynapse.
The alpha1A subunit leaner (tgla/la) mutation induced a profound reduction in synaptic transmission after hearing onset (> postnatal day 12; P12), with relatively preserved relationship between presynaptic Ca2+ current (Pre-ICa) and release and G-protein-mediated inhibition. Some synaptic properties were more reflective of an immature state, while other properties displayed a delay in maturation after P12.
Direct presynaptic recordings from P15/16 tgla/la nerve terminals revealed a decrease in the density of Pre-ICa, elevated activation threshold and slowing in the kinetics of VGCCs, all of which contribute to the deficit in transmitter release. Fractional contribution of P/Q-type channels to total Pre-ICa and their role in vesicle release was markedly reduced. N-type Ca2+ channels and close association of VGCCs to release sites was not sufficient to fully compensate for impaired P/Q-type channel function. The extent to which compensatory mechanisms preserve synaptic transmission at tgla/la synapses was further constrained by the developmental narrowing of the action potential waveform.
Activation of the cAMP pathway by forskolin or direct modulation of VGCCs by cdk inhibitors rescued deficits in transmitter release at P15/16 tgla/la synapses. The major effect of roscovitine was a slowing of presynaptic VGCC deactivation kinetics accompanied by a leftward shift in the activation curve. Activation of the cAMP pathway or direct modulation of presynaptic VGCCs may serve as two potential pathways to facilitate release and improve neuronal communication at synapses normally compromised by impaired P/Q-type channel function.
While significant for the tgla/la mutant, these studies provide an important advancement in our understanding of the crucial developmental and functional roles of P/Q-type Ca2+ channels in driving the maturation of synaptic properties at central synapses. These findings may improve our understanding of the pathophysiology of presynaptic VGCCs and elucidate essential mechanisms underlying the tgla/la phenotype.
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Learner and Educator interaction in multicultural schoolsThekiso, Maria Monki 18 December 2006 (has links)
There is No Abstract: / Dissertation (MPhil (Education for Community Development))--University of Pretoria, 2005. / Education Management and Policy Studies / unrestricted
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Children’s socio-emotional development and working memory abilities throughout elementary school: The impact of disability and English language learner statusKirchner, Rebecca January 2021 (has links)
No description available.
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Assessment of Cerebellar and Hippocampal Morphology and Biochemical Parameters in the Compound Heterozygous, Tottering/leaner MouseMurawski, Emily M. 2009 December 1900 (has links)
Due to two different mutations in the gene that encodes the a1A subunit of
voltage-activated CaV 2.1 calcium ion channels, the compound heterozygous
tottering/leaner (tg/tgla) mouse exhibits numerous neurological deficits. Human
disorders that arise from mutations in this voltage dependent calcium channel are
familial hemiplegic migraine, episodic ataxia-2, and spinocerebellar ataxia 6. The tg/tgla
mouse exhibits ataxia, movement disorders and memory impairment, suggesting that
both the cerebellum and hippocampus are affected. To gain greater understanding of the
many neurological abnormalities that are exhibited by the 90-120 day old tg/tgla mouse
the following aspects were investigated: 1) the morphology of the cerebellum and
hippocampus, 2) proliferation and death in cells of the hippocampal dentate gyrus and 3)
changes in basic biochemical parameters in granule cells of the cerebellum and
hippocampus.
This study revealed no volume abnormalities within the hippocampus of the
mutant mice, but a decrease in cell density with the pyramidal layer of CA3 and the hilus
of the dentate gyrus. Cell size in the CA3 region was unaffected, but cell size in the hilus of the dentate gyrus did not exhibit the gender difference seen in the wild type
mouse. The cerebellum showed a decrease in volume without any decrease in cerebellar
cellular density. Cell proliferation and differentiation in the subgranular zone of the
hippocampal dentate gyrus remained normal. This region also revealed a decrease in
cell death in the tg/tgla mice.
Basal intracellular calcium levels in granule cells show no difference within the
hippocampus, but an increase in the tg/tgla male cerebellum compared to the wild type
male cerebellum. There was no significant difference in granule cell mitochondrial
membrane potential within the wild type and mutant animals in either the hippocampus
or cerebellum. The rate of reactive oxygen species (ROS) production in granule cells
revealed no variation within the hippocampus or cerebellum. The amount of ROS was
decreased in cerebellar granule cells, but not granule cells of the hippocampus. Inducing
ROS showed no alteration in production or amount of ROS produced in the
hippocampus, but did show a ceiling in the amount of ROS produced, but not rate of
production, in the cerebellum.
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Exploration of the impact of gender biased texts in physical sciences GAPS document on grade 12 female learners in Mogodumo Circuit, Limpopo ProviceChuene, Elisa Sebina January 2021 (has links)
Thesis (M. Ed. (Curriculum Studies)) -- University of Limpopo, 2021 / Background: Gender bias in the Physical Sciences education favours male learners to the disadvantages of female learners, bringing along sex discrimination. Physical Sciences Curriculum reinforces masculinity, resulting in few females enrolling for science-related subjects. Male learners outperform female learners in Physical Sciences. Also, sex discrimination due to gender bias is visible in the workforce in the fields of Science, Technology, Engineering and Mathematics. Therefore, the purpose of this study was aimed at exploring gender biased texts in the Physical Sciences CAPS document and also its impact on Grade 12 female learners.
Method: A qualitative exploratory phenomenological study design was conducted. In my study, participants were Physical Sciences Grade 12 female learners and their teachers. The total number of participants was 12 (8 female learners and 4 teachers) and the sample depended on data saturation. Also, data were collected using document review (Physical Sciences Curriculum and AssessmentPolicy Statements document and prescribed textbook), classroom observation and interviews with learners and teachers. One-on-one interviews were conducted with participants using interview guides for both teachers and learners. Data collected from interviews were analysed using thematic 8 steps of Tesch’s inductive and descriptive open coding technique.
Results: The results from the document review showed the existence of gender bias in the Physical Sciences textbooks and Curriculum and AssessmentPolicy Statement document. Classroom observation showed that male learners were more interested and participated actively in the Physical Sciences lesson as compared to female learners. Both teachers and learners are aware of the existence of gender biased texts in Physical Sciences education. Further, this impacts negatively towards female learners leading to a bad attitude towards sciences and subsequently, to poor performance as compared to male learners. Female learners believe that they were to perform better in Physical Sciences if they were of the male gender.
Conclusion: The existence of gender biased texts in the Physical Sciences Curriculum and Assessment Policy Statements document and prescribed textbooks reinforce masculinity in the field. There is a need to review the Physical Sciences Curriculum and Assessment Policy Statement document and prescribed textbooks to ensure inclusivity, eliminate sex discrimination and also to achieve balance in the workforce in the science field.
Key concepts
Physical Sciences; Curriculum and Assessment Policy Statements; Female learner; Gender Biased texts; Performance; Inclusive education
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