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INVESTIGATING THE NEURAL CIRCUITRY SUPPORTING OBJECT RECOGNITION MEMORY IN C57BL/6J MICEUnknown Date (has links)
The hippocampus, a brain region that is part of the limbic system in the medial temporal lobe, is critical to episodic memory, or the memory of autobiographical events. The hippocampus plays an important role in the consolidation of information from short-term memory into more permanent long-term memory and spatial memory which enables navigation. Hippocampal damage in humans has been linked to memory loss, such as in Alzheimer’s disease and other dementias, as well as in amnesia such as in the case of patient H.M. The role of the hippocampus has been well characterized in humans but is less understood in rodents due to contradictory findings. While rodents have served well as model organisms in developing our understanding of the cognitive map that is critical for spatial navigation, there has been substantial contention over the degree to which the rodent hippocampus supports non-spatial memory, specifically the memory for items or objects previously encountered. The overall objective of this research is to gain a better understanding of how neuronal circuits involving the hippocampus and perirhinal cortex function to support object memory in the brain. Chemogenetic technologies such as DREADDs (designer receptor exclusively activated by designer drugs) have proven to be effective tools in remote manipulation of neuronal activity. First, a series of behavioral tasks was used to validate the effects of DREADD inactivation in the CA1 region of dorsal hippocampus in C57BL/6J male mice. DREADD inhibition resulted in significant impairment in the spontaneous object recognition (SOR) task and of spatial memory in the Morris water maze. In conjunction, mice were implanted with bilateral perirhinal cortex guide cannulae to allow for temporary muscimol inactivation during distinct time points in the SOR task to further investigate the nature of its relationship with the hippocampus. The results reveal an unexpected role for the perirhinal cortex in the retrieval of strong object memory. Finally, Arc mRNA expression was quantified in CA1 of dorsal hippocampus and perirhinal cortex following both weak and strong object memory formation. The results indicate that the perirhinal cortex and hippocampus have distinct, yet complementary roles in object recognition memory and that distinction is gated by memory strength. Understanding the neural mechanisms supporting the weak-strong object memory distinction in mice is an important step not only in validating mice as a suitable model system to study episodic memory in humans, but also in developing treatments and understanding the underlying causes of diseases affecting long-term memory such as Alzheimer’s disease. / Includes bibliography. / Dissertation (Ph.D.)--Florida Atlantic University, 2020. / FAU Electronic Theses and Dissertations Collection
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The role of beta2-glycoprotein I-reactive T cells in antiphospholipid syndromeTolomeo, Tanya. January 1900 (has links)
Thesis (M.Sc.). / Written for the Dept. of Microbiology and Immunology. Title from title page of PDF (viewed 2008/07/30). Includes bibliographical references.
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Regulation of neural precursor cell apoptosis and proliferation by glycogen synthase kinase-3Eom, Tae-Yeon. January 2009 (has links) (PDF)
Thesis (Ph.D.)--University of Alabama at Birmingham, 2009. / Title from first page of PDF file (viewed on June 8, 2009). Includes bibliographical references.
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A novel microencapsulated probiotic yogurt formulation for oral delivery in the suppression of intestinal tumorigenesis in ApcMin miceUrbanska, Aleksandra Malgorzata. January 1900 (has links)
Thesis (Ph.D.). / Written for the Dept. of Biomedical Engineering. Title from title page of PDF (viewed 2009/06/11). Includes bibliographical references.
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Long-term dietary folate deficiency and intestinal tumor development in miceKnock, Erin Heather, 1981- January 2008 (has links)
Epidemiological evidence linking dietary folate deficiency and risk for colorectal cancer is conflicting. Studies using animal models indicate that timing, dose and presence of pre-malignant lesions will influence whether folate deficiency prevents or promotes tumor formation. In this thesis a new model of spontaneous tumor formation due to long-term dietary folate deficiency alone, in non-transgenic mice and without carcinogen induction, is developed. The mechanisms by which folate deficiency might influence cancer risk are also examined. / BALB/c mice, with or without a null allele in a key folate-metabolizing enzyme, Methylenetetrahydrofolate reductase (Mthfr ), develop intestinal tumors due to dietary folate deficiency alone. On folate-deficient (FD) diets, 12.5% of Mthfr+/+ mice and 28.1% of Mthfr+/- mice developed tumors; mice on control diet (CD) did not. C57B1/6 mice (a strain resistant to other methods of tumor induction) placed on the same diets for the same amount of time did not develop any tumors. To investigate possible mechanisms the levels of DNA damage (dUTP/dTTP ratio and p-H2AX staining) and DNA methylation (thin layer chromatography) were examined. FD BALB/c, but not C57B1/6 mice, had a trend towards increased dUTP/dTTP and DNA double-strand breaks and decreased global DNA methylation compared to CD mice. To determine why the FD diet affects the BALB/c and not the C57Bl/6 strain, the expression of genes involved in folate metabolism was examined. Several changes in gene expression were observed. In particular, BALB/c mice had increased Mthfr expression and MTHFR activity compared to C57Bl/6 mice. Increased MTHFR activity may deplete 5,10-methylenetetrahydrofolate supplies for the dTMP synthesis, increasing the dUMP levels and, possibly, DNA damage. The levels of several DNA repair genes were also examined. Two genes involved in base excision repair, Thymine DNA glycosylase (Tdg) and Apurinic/apyrimidinic endonuclease 1 (Apex1), were increased in FD C57B1/6 compared to FD BALB/c mice suggesting increased DNA repair capacity. / These results support the evidence that dietary folate deficiency promotes intestinal tumor formation possibly through increased DNA damage, with subsequent defects in DNA repair.
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The role of retinoic acid receptor gamma in retinoid-induced limb dysmorphogenesis /Galdones, Eugene. January 2009 (has links)
Retinol (vitamin A) and its active metabolite, all-trans retinoic acid, signal through nuclear retinoic acid and retinoid X receptor (RAR/RXR) heterodimers. These complexes regulate the expression of genes involved in developmental processes such as limb development. In excess, retinoids are potent teratogens and cause marked reductive effects on the developing limb. The goal of this thesis was to elucidate the molecular mechanisms underlying retinoid-induced limb dysmorphogenesis. Specifically, using an in vitro limb culture system, I examined the involvement of one RAR isoform, RARgamma, in mediating retinoid insult. / My first objective was to examine how limbs deficient in RARgamma responded to exogenous retinoid exposure. I showed that RARgamma-null limbs (on an RARalpha1-null background) exhibited less severe limb defects following retinoid insult when compared to their wild-type counterparts. Additionally, the absence of RARgamma abolished the retinoid-induced misregulation of genes important for chondrogenesis (Sox9 and Col2a1 ) and limb outgrowth (Meis-1 and -2). / The next objective set out to determine how pharmacological activation of RARgamma affected limb development. The RARgamma-selective agonist (BMS-189961) caused limb dysmorphology (namely, effects on cartilage) that was comparable to pan-RAR activation with all-trans retinoic acid. A chondrogenesis-focused gene array analysis identified Mgp and Gdf10 as two RARgamma-responsive genes that may mediate retinoid-induced limb insult. / Subsequently, I assessed the functional involvement of Mgp in mediating retinoid teratogenicity. Limbs were treated with all- trans retinoic acid and warfarin (an inhibitor of MGP); warfarin co-treatment rescued limbs from retinoid-induced insult. / My final objective was to determine the importance of Gdf10 in mediating limb development. Recombinant human Gdf10-soaked beads were implanted into distal limb structures; ectopic overexpression of Gdf10 in the web (but not the digital ray) resulted in marked proximal limb malformations. / Collectively, these studies have illustrated the importance of RARgamma in retinoid teratology and have identified several potential mechanisms by which retinoids cause limb defects.
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Effect of DNA methyltransferase 1 on transmission ratio distortion and epigenetic inheritanceYang, Lanjian, 1976- January 2008 (has links)
Epigenetic modification of DNA plays an important role in gene regulation. During gametogenesis and early embryogenesis epigenetic states are reset to ensure embryonic-specific gene expression patterns after fertilization. However, certain genomic regions may resist epigenetic reprogramming. This may result in transgenerational epigenetic inheritance. Earlier, a grandparental origin dependent (GPO) transmission ratio distortion (TRD) of alleles in the distal region of mouse chromosome 12 had been found (Croteau et al ., 2002). The distorted region overlaps with the imprinted region of chromosome 12. The mechanism underlying this TRD is unknown, and we hypothesized that it was due to failure to reset imprints in the imprinted region in a proportion of germ cells. Such an imprint resetting failure would represent a particular case of transgenerational epigenetic inheritance. DNA (Cytosine-5) methyltransferase 1 (DNMT1) plays a key role in the maintenance of epigenetic states in mammalian genomes. To test the role of DNA methylation and DNMT1 in the genesis of TRD and its relationship to epigenetic inheritance we investigated the effect of Dnmt1 loss-of-function mutations using two mouse models: GPO (grandparental origin dependent)-TRD (transmission ratio distortion) and epigenetic inheritance at the agouti locus. Here, we report that Dnmt1 mutations have a modifying parental effect on the transmission of grandparental chromosome 12 alleles. However, the same Dnmt1 mutation did not affect the agouti coat color inheritance patterns in mice that inherited the Avy (agouti viable yellow) mutant allele from the father. Our results suggest that Dnmt1 is a trans-acting modifier of allelic transmission and support the role of epigenetic states in the genesis of TRD.
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On the expression and deficiency of 5,10-methylenetetrahydrofolate reductase in murine sperm developmentCushnie, Duncan Wells. January 2008 (has links)
Development of specific DNA methylation patterns is required for normal spermatogenesis. DNA methyltransferases (DNMTs) use S-adenosylmethionine (SAM) produced in a pathway requiring 5,10-methylenetetrahydrofolate reductase (MTHFR). This thesis describes: testicular phenotype differences derived from Mthfr-deficiency in different mouse strains; the cellular Mthfr expression pattern during male germ cell development; and finally, changes to the DNA methylation of Mthfr-deficient sperm. Mthfr-deficient BALB/c, but not C57BL/6, mice have reduced neonatal germ cell proliferation but both have abnormal germ cells as adults. Germ cell MTHFR expression differed developmentally in parallel with DNMTs associated with de novo methylation. Sperm from mice with reduced Mthfr levels or dietary folate deficiency had differential DNA methylation at multiple loci, compared to wildtype mice, indicating that maintenance as well as acquisition of methylation can be altered by SAM-reduction. These results highlight the important role of folate in sperm development throughout life.
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Effects of R294C mutation on expression and stability of interferon regulatory factor-8 in BXH-2 miceLiu, Dien. January 2008 (has links)
Interferon regulatory factor-8 (Irf-8), a hematopoietic transcriptional regulator, controls myeloid-cell proliferation and coordinates innate and adaptive host immune responses. Mice from the BXH-2 recombinant inbred strain carry an endogenous R294C mutation in Irf-8. This loss-of-function mutation induces clonal infiltration of undifferentiated Mac-1+/Gr-1 + granulocytic precursors in BXH-2 mice, extramedullary hematopoiesis, and splenomegaly similar to those seen in human chronic myeloid leukemia. It also renders the host permissible to the otherwise avirulent Mycobacterium bovis (BCG), and negatively affects survival or recovery of these mice to other infectious pathogens. Here, we generated a polyc1onal anti-Irf-8 antibody to better characterize the effects of the R294C mutation on Irf-8 protein expression, stability, and inducibility in hematopoietic and non-hematopoietic tissues. We found that mutant Irf-8C294-expressing tissues consistently displayed reduced Irf-8 abundance compared to their wild-type counterparts in both primary splenocytes and following transfection into heterologous cells, presumably due to decreased stability or increased rate of degradation of the mutant isoform. Results also indicate that native Irf-8 is also expressed in the heart, and to a lesser extent, in the kidneys. Since neither of these organs is well-known to be associated with hematopoietic or immune functions, this finding strengthens the possibility that Irf-8 may exert additional regulatory functions in other cellular contexts. Taken together, our study provides a better understanding about the molecular features of the mutant Irf-8 C294 protein and contributes to a growing body of evidence in support of Irf-8 expression in non-hematopoietic tissues.
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Chlorine-induced lung injury and the role of iNOSCampbell, Holly R., 1976- January 2009 (has links)
Reactive airways dysfunction syndrome (RADS), a form of irritant-induced asthma (IIA) has been observed in humans following acute chlorine (Cl 2) gas exposure in occupational and domestic settings. Following Cl 2 injury, subepithelial fibrosis, mucous hyperplasia, and non-specific airway hyperresponsiveness have been reported. Based on the disease profile, we hypothesized that pulmonary damage may be oxidative in nature. / The aim of this work was to develop a murine model of irritant-induced asthma in order to investigate the pathogenic processes and potential oxidative mechanisms involved in response to Cl2 exposure, with a secondary aim of examining the role of iNOS in response to Cl2 inhalation. / A/J, C57BI/6J (wild type) and iNOS-1- mice exposed to various concentrations of Cl2 were mechanically ventilated for measurement of lung mechanics and responses to i.v. methacholine (MCh). Bronchoalveolar lavage was performed to examine total protein, cell populations and nitrate/nitrates. Tissues were harvested for histology and immunocytochemistry for iNOS, 3NT and carbonyl residues. To examine the role of iNOS, a subset of animals were treated with a selective iNOS inhibitor (1400W) and non-selective NOS inhibitor LNAME. / Chlorine exposure caused airway hyperresponsiveness, which appeared to be mitigated by iNOS blockade with 1400W, however this was not the case in iNOS-1- mice. Cl2 exposure also caused increases in total BAL protein, total cells, NOx, neutrophils, iNOS, 3NT and carbonyl residues. / In conclusion, chlorine exposure causes lung injury, similar to reactive airways dysfunction syndrome, characterized by airway hyperresponsiveness, epithelial sloughing, inflammatory cell influx, oxidative injury and increases in both the activity and expression of iNOS. Chlorine-induced airway hyperresponsiveness is mitigated, in part, by selective blockade of iNOS with the use of pharmacological intervention.
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