Mice as laboratory animals

The rodent hippocampus is critical for processing spatial memory but its contribution to non-spatial, specifically object memory is debated. The cognitive map theory of hippocampal function states that the hippocampus stores relationships of goal locations (places) to discrete items (objects) encountered within environments. Dorsal CA1 place cells were recorded in male C57BL/6J mice performing three variations of the novel object recognition paradigm to define "object-in-context" representation of hippocampal neuronal activity that may support object memory. Results indicate, (i) that place field stability is higher when polarizing environmental cues are provided during object recognition; (ii) hippocampal place fields remain stable throughout the novel object recognition testing without a polarizing cue; and (iii) time dependent effects on stability when objects were dissociated from the context. These data indirectly support that the rodent hippocampus processes object memory, and challenge the view that "object-in-context" representations are formed when mice perform novel object recognition task.

Restrictive cardiomyopathy (RCM) is a heart muscle disease, characterized by diastolic dysfunction. The present dissertation is to understand the mechanisms underlyijng the initiation of diastolic dysfunction and the fast disease progression to early death in a RCM mouse model, the transgenic cTnI193His mouse... These data showed that myocardial ischemia occurred after diastolic dysfunction and before systolic dysfunction which proceeded congestive heart failure. The results demonstrate that myocardial ischemia causing cardiomycete death is a link between the initial diastolic dysfunction and late-stage systolic dysfunction, and accelerates the disease progression to fatal heart failure in the early age.

Sjèogren's Syndrome (SS) is a chronic, inflammatory autoimmune disease affecting mostly the exocrine cells of lacrimal and salivary glands, leading to diminished secretory function and resulting in keratoconjunctivitis sicca (dry eye disease) and/or stomatitis sicca (dry mouth disease). Despite several decades of studies focusing on autoimmune diseases and dry eye diseases, the exact etiology and mechanisms of SS remain unknown. Besides the fact that SS is often unreported, unrecognized and untreated, today's therapies rely exclusively on treating the symptoms after disease progression; there exists neither prevention therapy nor cure for SS. In addition, SS has been diagnosed predominantly in post-menopausal women with the female to male ratio reaching 9:1, suggesting a role of ovarian sex hormones in the pathogenesis of SS. However, not all postmenopausal women develop SS, indicating the contribution of other factors such as a genetic background to the onset of SS. In the present study, ovariectomized (OVX) NOD.B10.H2b mice provide a model of menopause with a genetic predisposition to SS, as compared to non-predisposed C57BL/10 mice. Both strands of mice were either sham operated, OVX, OVX and treated with 17(Sb (Bestradiol (E2), or OVX and treated with dihydrotestosterone (DHT). Lacrimal glands were collected 3, 7, 21, and 30 days after surgery and processed for RNA analysis by rt-qPCR and protein assays by ELISA to evaluate cytokine expression and concentrations of IL- 1\U+fffd\, TNF-a, IFN-(Sd(B, IL-10, and IL-4 on a timeline. Overall, our results showed a significant increase in IL-1\U+fffd\ TNF-a, IL-10, and IL-4 expression and levels in the lacrimal glands of OVX NOD.B10.H2b mice as compared to sham operated animals, and treatment with E2 or DHT at time of OVX prevented the increase in cytokine expression and levels.

Restrictive cardiomyopathy (RCM) is a cardiac muscle disorder characterized by increased ventricular stiffness and diastolic dysfunction. Patients with RCM often present severe cardiac problems which usually lead to heart failure and sudden death. No effective treatment is available for RCM which makes the finding of novel efficient therapies an urgent necessity. Great progress in molecular biology techniques and advances in transgenic animal development provide great opportunities for the study of RCM and other cardiovascular diseases encountered in clinical patients.... Our laboratory is among the first to generate transgenic mouse models of RCM based on cardiac troponin I (cTnI) missense mutations. In this study, transgenic mice that suffer from RCM have been generated to understand the factors behind the diastolic dysfunction associated with that myocardial disease.... The information obtained from this study allows a better understanding of the role of troponin in RCM and the factors behind the physiopathology of the disease. It will also offer a therapeutic strategy taking into account the physiological characteristic of RCM.

Adult neurogenesis is affected in neurodegenerative diseases and also represents an important therapeutic target. The goal of this dissertation research was to test the hypothesis that regeneration of neurons and glia in the adult brain can be manipulated by neurotrophic drugs in the context of two mouse models of neurodegenerative disease : Parkinson's disease and Huntington's disease.... These findings have implications for the pathophysiology of Huntington's disease and neurodegeneration in general. Specific alterations to the SVZ neurogenic niche parallel some of the pre-motor symptoms of Parkinson's disease and Huntington's disease. This dissertation research contributes to the growing body of literature concerning the pharmacological modulation of SVZ-derived neurogenesis designed to attenuate the progressive loss of neurons in neurodegenerative diseases and perhaps delay the onset of symptoms.

Sjogren's Syndrome (SS) is characterized by lymphocytic infiltration, destruction and dysfunction of the lacrimal and salivary glands and the presence of serum autoantibodies. Although, approximately 0.5% of the population suffers from SS, there is a female predominance of 9:1 compared with males. Most women with SS are postmenopausal; however, not all women who are post-menopausal develop SS. Therefore, we postulate that a decrease in the circulating levels of hormones creates an environment favorable to the development of SS in a predisposed genetic background. In order to carry out our studies, we used the NOD.B10.H2b mouse model of SS, and ovariectomized (OVX) them as a model for the post-menopausal condition. We removed the lacrimal glands and measured the gene expression and protein levels of several cytokines and chemokines known to be upregulated in patients with SS such as : lL-1B, IL-10, INF-y, TNFa, CCL9 and CXCL13.

Small conductance calcium-activated potassium (SK) channels are found ubiquitously throughout the brain and modulate the encoding of learning and memory. Systemic injection of 1-ethyl-2-benzimidalzolinoe (EBIO), a SK channel activator, impairs the encoding of novel object memory and locomotion but spares fear memory encoding in C57BL/6NHsd mice. The memory impairments discovered were not due to non-cognitive performance confounds such as ataxia, anxiety, attention or analgesia. Further investigation with intra-hippocampal application of EBIO revealed SK channels in dorsal CA1 contribute to the encoding deficits seen systemically, but do not account for the full extent of the impairment. Concentrated activation of dorsal CA1 SK channels do not influence fear memory encoding or locomotor impairments. Taken together, these data indicate SK channels, especially in the dorsal hippocampus, have a modulatory role on novel object memory encoding, but not retrieval; however, pharmacological activation of hippocampal SK channels does not appear to influence fear memory encoding.

The mechanisms that rodents employ to navigate through their environment have been greatly studied. Cognitive mapping theory suggests that animals use distal cues in the environment to navigate to a goal location (place navigation). However, others have found that animals navigate in a particular direction to find a goal (directional navigation). The rodent brain contains head direction cells (HD cells) that discharge according to the head direction of the animal. Navigation by heading direction is disrupted by lesions of the anterodorsal thalamic nuclei (ADN), many of which are HD cells. Aim 1 tested whether male C57BL/6J mice exhibit direction or place navigation in the Morris water maze. Aim 2 tested the effects of temporary inactivation of the ADN on directional navigation. Together, these data indicate that C57BL/6J mice also exhibit preference for directional navigation and suggest that the ADN may be crucial for this form of spatial navigation.

Transgenic mice were generated to express a restrictive cardiomyopathy (RCM) human cardiac troponin I (cTnI) R192H mutation in the heart. My study's objective was to assess cardiac function during the development of diastolic dysfunction and to gain insight into the pathophysiological impact of the RCM cTnI mutation. Cardiac function was monitored in cTnI193His mice and wild-type littermates for a period of 12 months. It progressed gradually from abnormal relaxation to diastolic dysfunction characterized with micro- echocardiography by a reversed E/A ratio, increased deceleration time, and prolonged isovolumetric relaxation time. The negative impact of cTnI193His on cardiac function was further demonstrated in isolated mouse working heart preparations. Dobutamine stimulation increased heart rate in cTnI193His mice but did not improve CO. The cTnI193His mice had a phenotype similar to that in human RCM patients carrying the cTnI mutation characterized morphologically by enlarged atria and restricted ventricle and functionally by diastolic dysfunction.

Two major troponin I (TnI) genes, fetal TnI (ssTnI) and adult TnI (cTnI), are expressed in the mammalian heart under the control of a developmentally regulated program. In this study, the up-stream domain (~1,800 bp) of mouse fetal TnI gene has been cloned and characterized. There is a high homology of this region among mouse, rat and human. Transfection assays indicated that conserved GA-rich sequences, CREB and a CCAAT box within the first 300 bp upstream of the transcription start site were critical for the gene expression. Electrophoretic mobility shift assays (EMSAs) and chromatin immunoprecipitation (ChIP) assays revealed binding proteins to CREB site in nuclear extracts from myocardial cells. Thyroid hormone (T3) caused a significant inhibitory effect on ssTnI expression in myocardial cells. Cardiac troponin I (cTnI) mutations have been linked to the development of restrictive cardiomyopathy (RCM) in human patients. We modeled one mutation in human cTnI Cv terminus, arginine1 92 histidine (R192H) by cardiac specific expression of the mutated protein (cTnI193His in mouse sequence) in transgenic mice. The main functional alteration detected in cTnI193His mice by ultrasound cardiac imaging examinations was impaired cardiac relaxation manifested by a decreased left ventricular end diastolic dimension (LVEDD) and an increased end diastolic dimension in both atria. Echocardiography revealed a series of changes on the transgenic mice including a reversed E-to-A ratio, increased deceleration time, and prolonged isovolumetric relaxation time. At the age of 12 months, cardiac output in cTnI193His mice was significantly declined, and some transgenic mice showed congestive heart failure. The negative impact of cTnI193His on ventricular contraction and relaxation was further demonstrated in isolated mouse working heart preparations.