The influence of 7, 12-dimethylbanz(a) anthracene on virus titer and spleen weight in Friend virus leukemia

Reilly, Christopher Aloysius, 1942-

January 1966

No description available.

Mouse leukemia viruses.

Hydrocarbons -- Carcinogenicity.

Friend virus.

A study of the aerosol transmission of Friend and Rauscher virus leukemias

Bailey, Carl Arthur, 1936-

January 1966

No description available.

Leukemia -- Etiology.

Friend virus.

Mouse leukemia viruses.

In vivo efficacy of novel antibacterial and immunomodulatory peptides

Waldbrook, Matthew George

05 1900

Despite the success of modern medicine in treating infections, infectious diseases remain a major source of morbidity and mortality worldwide. The evolution of antibiotic resistant strains of bacteria means that new innovations in therapeutics must be pursued to combat this emerging threat. A novel approach is to utilize the anti-infective properties of endogenous host defense peptides by creating smaller synthetic peptides with enhanced protective activities. Some of these peptides directly kill bacteria and many display varied immunomodulatory activities, enhancing the host innate immune response to more effectively clear an infection. Here I examined the efficacy of several synthetic peptides in a murine model of invasive bacterial infection, induced by the Gram positive bacterium Staphylococcus aureus. Several peptides were able to significantly reduce peritoneal bacterial load in vivo by up to 4-logs relative to the controls, either through direct antibacterial killing or immunomodulatory activity. The latter class was studied in more detail; in particular, the peptides IDR-1 and 1002 displayed significant immunomodulatory effects in vivo. Both peptides were able to significantly induce the proinflammatory chemokines MCP-1, RANTES and KC, as well as increased recruitment of neutrophils and monocytes to the site of infection. These effects were not dependent on live bacteria, as heat inactivated S. aureus was also able to induce chemokines and cell migration. Mice that had been depleted of macrophages did not respond to peptide treatment, indicating that macrophages are an important effector cells through which immunomodulatory peptides counter infections. These results suggest that synthetic peptides have the potential to become a viable treatment option for bacterial infections.

Antimicrobial peptides

Immunomodulation

Mouse model

Alternate antibiotics

Inter-Strain Differences in Responses to Subarachnoid Hemorrhage in Mice

D'Abbondanza, Josephine Assunta

22 November 2013

Spontaneous subarachnoid hemorrhage (SAH) is a form of hemorrhagic stroke that accounts for approximately 7% of all strokes worldwide. Recently, researchers have gained insight into some possible genetic influences involved in the response to SAH. The goal of this study was to investigate the potential contribution of different mouse genetic backgrounds to brain injury after SAH. SAH was induced in 7 inbred strains of mice, and the degree of large artery vasospasm and brain injury was assessed. After 48 hours, SAH mice showed a significant reduction in middle cerebral artery diameter and increased neuronal injury in the cerebral cortex compared to sham controls. The degree of vasospasm and brain injury varied across strains. This data suggests that vasospasm and neuronal injury may not correlate, and that different genetic factors may influence each one. Future investigations may provide invaluable insight into the causes of these inter-strain differences and potential genetic contributors.

subarachnoid hemorrhage

vasospasm

brain injury

mouse

0564

Application of ROC curve analysis to metabolomics data sets for the detection of cancer in a mouse model

Moroz, Jennifer

Unknown Date

No description available.

ROC curve

Metabolomics

Cancer

Detection

Mouse model

Inter-Strain Differences in Responses to Subarachnoid Hemorrhage in Mice

D'Abbondanza, Josephine Assunta

22 November 2013

Spontaneous subarachnoid hemorrhage (SAH) is a form of hemorrhagic stroke that accounts for approximately 7% of all strokes worldwide. Recently, researchers have gained insight into some possible genetic influences involved in the response to SAH. The goal of this study was to investigate the potential contribution of different mouse genetic backgrounds to brain injury after SAH. SAH was induced in 7 inbred strains of mice, and the degree of large artery vasospasm and brain injury was assessed. After 48 hours, SAH mice showed a significant reduction in middle cerebral artery diameter and increased neuronal injury in the cerebral cortex compared to sham controls. The degree of vasospasm and brain injury varied across strains. This data suggests that vasospasm and neuronal injury may not correlate, and that different genetic factors may influence each one. Future investigations may provide invaluable insight into the causes of these inter-strain differences and potential genetic contributors.

subarachnoid hemorrhage

vasospasm

brain injury

mouse

0564

Determinants in preimplantation mouse development

Legge, M.

January 1988

No description available.

590

Embryo development study][Mouse embryos

Retinoid-mediated Regulation of NR6A1, Prickle1 and Ror2 During Development of the Mouse Embryo

Edey, Caitlin

20 December 2012

Vitamin A and its derivatives, collectively termed retinoids, are essential for proper growth and development as well as maintenance of homeostasis in the adult. Retinoic acid (RA), the major biologically active vitamin A metabolite, is well characterized for its crucial roles in gene activation during embryogenesis. Our lab had previously performed a microarray analysis to identify genes induced by exogenous RA in the tailbud of early mouse embryos. Three genes were chosen from the microarray results for further investigation; Germ Cell Nuclear Factor (GCNF/NR6A1), Prickle1 (Pk1) and Ror2, the latter of which are known members of the planar cell polarity (PCP) pathway. These genes were further examined for RA regulation by embryo culture and RT-PCR, which strongly supported a direct regulatory mechanism of NR6A1 by RA. Further analysis aiming to identify a functional response element in the promoter of the targets was attempted, including chromatin immunoprecipitation (ChIP), made possible by the generation and characterization of a highly specific antibody against RARγ. This antibody was used in a ChIP promoter walk, which identified regions on target gene promoters that are occupied by RARγ in vivo, and therefore likely harbor RA response elements.

Retinoic Acid

RARg

Mouse Development

Gene activation

The ecology of small mammals in set-aside land

Rogers, Lucy Margaret

January 1993

The ecology of small mammal communities found in set-aside and adjacent farm land was investigated to determine the ecological consequences of set-aside land to small mammals. Field work was carried out for two years at three study sites in NE Scotland. First Aldroughty farm, a mosaic of set-aside, crop and semi-natural land. The two remaining study sites; Ythan Lodge at Newburgh, and Fraser's farm near Aldroughty, were whole fields of set-aside. Wood mice <i>Apodemus sylvaticus</i>, bank voles <i>Clethrionomys glareolus</i> and field voles <i>Microtus agrestis</i> were trapped in the habitat mosaic at Aldroughty, and wood mice and field voles in the set-aside at Newburgh. Wood mice had higher densities, greater survival, heavier weights, longer breeding seasons and more juveniles at Aldroughty than Newburgh. These differences were thought to be due to a difference in habitat productivity between the two sites. Field voles showed less of a difference in population dynamics between Aldroughty and Newburgh, and both species of vole maintained populations at low density. The home range size of 33 wood mice was measured using radiotelemetry. At both study sites home range size was smaller than in other habitats revealed by other studies. The apparently anomalous results obtained, of low population densities and small home range sizes of wood mice in the set-aside at Newburgh, may have been due to predation from cats <i>Felis catus</i>. Wood mice showed no clear habitat preference, nesting and foraging in all habitat types, while both vole species showed almost exclusive preference for rough grassland. An assessment of the habitat characteristics of the study sites showed that there was heterogeneity in the vegetation communities found in set-aside.

577

Wood mouse; Field vole; Habitat; Mice

Interrogation of Glioma Ontogeny using Mouse Models

Munoz, Diana

09 August 2013

Glioblastoma Multiforme (GBM) is the most common and lethal of human primary central nervous system tumours, with a median survival of 14-16 months despite surgery, radiation and chemotherapy. A reason for this dismal prognosis is insufficient understanding of the ontogeny of GBMs, which are highly heterogeneous at a pathological level. This pathological diversity, between and within GBMs as well as varying grades of gliomas, is not fully explained on the grounds of an oncogenic stimulus. Interaction with the tumour microenvironment, as well as inherent characteristics of the tumour cell of origin are likely a source of this heterogeneity. In this thesis we describe the use of a novel mouse model which integrates Cre-Lox mediated and Tet-regulated gene expression. This system in combination with germline and somatic strategies has enabled us to interrogate how the state in glial development and the region in the brain where transformation occurs influence the process of gliomagenesis. The findings of this thesis suggest that the state of glial development at which a mutation is introduced is an important determinant of gliomagenesis. In support of this, we showed that early progenitors in the radial glial lineage are more susceptible to transformation than those, which have committed to a gliogenic lineage and are presumably further along in the process of differentiation. Highlighting the interplay between genetic alterations and the molecular changes that accompany the process of differentiation. Despite findings that suggest that neurogenic regions of the adult brain are more susceptible to transformation, we show that this is not always the case and instead, transformation is dependent on an interaction between specific combinations of genetic mutations and susceptible cell types regardless of the region of origin. Results from this thesis highlight the need to view the tumourigenic process of gliomas in the context of normal brain development as the cell context of oncogene expression may determine the phenotype and biologic aggressiveness of the tumour. Thus, the results of genetic or epigenetic alterations leading to brain tumours may be quite different in different cells of the hierarchy, suggesting unique treatment targets and strategies depending on the cell of origin.

Gliomas

Mouse models

0372

0379

0760