Software support for experience sampling

Lippold, Mike

25 February 2011

User interface design is becoming more reliant on user emotional states to improve usability, adapt to the users state, and allow greater expressiveness. Historically, usability has relied on performance metrics for evaluation, but user experience, with an emphasis on aesthetics and emotions, has become recognized as important for improving user interfaces. Research is ongoing into systems that automatically adapt to users states such as expertise or physical impairments and emotions are the next frontier for adaptive user interfaces. Improving the emotional expressiveness of computers adds a missing element that exists in human face-to-face interactions. The first step of incorporating users emotions into usability evaluation, adaptive interfaces, and expressive interfaces is to sense and gather the users emotional responses. Affective computing research has used predictive modeling to determine user emotional states, but studies are usually performed in controlled laboratory settings and lack realism. Field studies can be conducted to improve realism, but there are a number of logistical challenges with field studies: user activity data is difficult to gather, emotional state ground truth is difficult to collect, and relating the two is difficult. In this thesis, we describe a software solution that addresses the logistical issues of conducting affective computing field studies and we also describe an evaluation of the software using a field study. Based on the results of our study, we found that a software solution can reduce the logistical issues of conducting an affective computing field study and we provide some suggestions for future affective computing field studies.

Mouse dynamics

Affective computing

Experience sampling

Characterization of an IL-12-driven Anticancer Response, and the CD4+ CTL Population Incited, in a Murine Model of Leukaemia

Nelles, Megan Elizabeth

06 December 2012

For the treatment of cancer, immunotherapy has some inherent advantages over other treatment modalities: disseminated disease can be eradicated due to the systemic nature of immunity, the immune system is effective against a wide range of targets, long-term memory can offer added protection against disease relapse, immunotherapy should be relatively non-toxic, and it can be synergistically combined with other treatment platforms such as radiation and chemotherapy. Type 1 immune responses are thought to be superior for the treatment of cancer and, as the quintessential Th1 polarizing cytokine, interleukin-12 (IL-12) holds much promise; however, optimal therapeutic protocols have yet to be developed and clinical results have fallen short of this promise. The in vivo IL-12 experiments described here highlight a characteristic of cellular therapy that has not previously been appreciated. That is, the effect of cell-mediated cytokine delivery on the immediate microenvironment and how that affects the immune response initiated. This observation has implications for the clinical application of IL-12 therapy but may also prove to be an important consideration when studying other immunostimulants. I have herein developed a novel in vitro assay system that I have used to dissect the cellular responses to IL-12 and to identify the signals that are required for activation of a cluster of differentiation 4 (CD4)+ effector population that affects leukaemia cell clearance both in vitro and in vivo. This work, and the future studies proposed, will expand our understanding of the potential of IL-12 immunotherapy and enhance our ability to manipulate therapeutic conditions to favour the desired response. Moreover, the in vitro assay system offers a method for further characterization of CD4+ effector cells and the development of protocols to initiate their potent anticancer activity.

IL-12

immunotherapy

mouse

cytotoxic

0982

0760

Effects of Genistein Following Fractionated Lung Irradiation in Mice

Para, Andrea

22 September 2009

Radiation therapy for lung cancer and cancers of the upper thorax is limited by side effects to normal tissue of the lung. An understanding of mechanisms leading to radiation induced lung damage is essential to developing protective agents. In this thesis an anti-oxidant and anti-inflammatory agent Genistein was investigated for its potential to affect DNA damage, tissue inflammation, functional deficits and survival. We hypothesized that chronic oxidative stress and the subsequent inflammatory response play a key role in the development of major lung complications, radiation pneumonitis and fibrosis. If side effects of radiation could be reduced, then larger doses could be delivered to the tumor with a better chance of eradicating the disease.

genistein

mouse lung

pneumonitis

fibrosis

0760

Roles of Irx3/5 in Mouse Hindlimb Development

Li, Danyi

19 March 2013

Iroquois (Irx) homeobox genes have important and redundant functions during embryogenesis. Irx3/5 double knock out (Irx3/5 KO) mouse embryos exhibit severe hindlimb phenotypes. In these mutant hindlimbs, digit 1 and tibia are absent, moreover femur and pelvis are hypoplastic. Here, we demonstrate that Irx3/5 are expressed in the hindlimb field prior to limb bud initiation, and are required at this early stage for the pattern formation along the anteroposterior axis. Their early function is involved in prepatterning and positioning the Shh expression domain. In addition, Irx3/5 KO mutant hindlimb buds have a mild outgrowth defect and increased cell death at early stages of limb development, which may explain the small hindlimb bud size in these mutant embryos. To examine whether Irx3/5-expressing cells are the origin of lost and affected structures in Irx3/5 KO mutant hindlimbs, targeting vectors with Cre genes inserted into the Irx5 locus have been generated.

Iroquois genes

hindlimb development

prepatterning

mouse

0369

Effects of Genistein Following Fractionated Lung Irradiation in Mice

Para, Andrea

22 September 2009

Radiation therapy for lung cancer and cancers of the upper thorax is limited by side effects to normal tissue of the lung. An understanding of mechanisms leading to radiation induced lung damage is essential to developing protective agents. In this thesis an anti-oxidant and anti-inflammatory agent Genistein was investigated for its potential to affect DNA damage, tissue inflammation, functional deficits and survival. We hypothesized that chronic oxidative stress and the subsequent inflammatory response play a key role in the development of major lung complications, radiation pneumonitis and fibrosis. If side effects of radiation could be reduced, then larger doses could be delivered to the tumor with a better chance of eradicating the disease.

genistein

mouse lung

pneumonitis

fibrosis

0760

Development of the Mouse Notochord

Tamplin, Owen James

08 March 2011

During development of the vertebrate embryo, a highly conserved tissue called the organizer forms during gastrulation, and is required for establishment of the basic body plan. In mouse, the organizer gives rise to the node and notochord, which are both transient signaling centres involved in patterning the body axes. The genetic regulation and morphogenesis of these tissues, particularly in the mouse, is not well understood. To follow the formation of these tissues we used time-lapse live imaging together with conventional cell lineage tracking. This showed that the notochord has distinct morphogenetic origins along the anterior-posterior axis: anterior head process forms by condensation of dispersed midline organizer cells; trunk forms by convergent extension of node cells; tail forms from posteriorly migrating node cells—this challenges the previously accepted model that tail notochord forms by node regression. We have also found there are distinct genetic requirements within these different regions. Previous mouse mutant analysis showed that conserved transcription factors Foxa2 and Noto are required for either all notochord regions or just tail notochord, respectively. We found a novel genetic interaction between the two demonstrated Foxa2 compensates for Noto specifically in the trunk notochord. Furthermore, we found Noto has a conserved role in regulating axial (notochord) versus paraxial (somite) cell fate. Therefore, we proposed there are three distinct regions within the mouse notochord, each with its own unique morphogenetic origins and genetic control. We have also conducted two microarray-based screens to identify novel gene expression patterns in the node and notochord. First, we compared Foxa2 mutant and wild type gastrula embryos. Second, we isolated notochord progenitors from early somite stage embryos. Extensive in situ hybridization screening based on both data sets revealed over 50 node and notochord expression patterns. Lastly, we screened Foxa2-bound chromatin regions near these notochord-specific genes using a transient zebrafish expression assay, and identified two novel notochord cis-regulatory modules. Together, we found a combination of classical genetics, embryology, and novel imaging techniques, has given us a better understanding of the morphogenesis and genetic regulation of pattern formation in the developing mouse embryo.

developmental biology

embryology

mouse

notochord

0369

The Role of BERP in Mammalian Systems

Cheung, Carol Chui-San

17 January 2012

p53 functions as an important tumour suppressor through its ability to regulate a number of important cellular processes such as cell cycle arrest, apoptosis, DNA repair, senescence, and angiogenesis. An in vivo genetic modifier screen performed using Drosophila melanogaster resulted in the identification of D. melanogaster brain tumour (brat) as a putative modifier of of the p53 small eye phenotype. Mammalian homologs of brat are members of the tripartite motif family that contain a c-terminal NHL domain. We focus on elucidating the in vivo role of one such homolog, BERP, through the generation and characterization of a classical gene-deletion mouse mutant. We report that BERP-deficient mice exhibit enhanced learning/memory, increased fear, impaired motor coordination, and increased resistance to PTZ -induced seizures. Electrophysiological and biochemical studies show a decrease in mIPSC amplitude along with a decrease in cell surface expression of gamma2 subunit-containing GABA A receptors in the brains of BERP-deficient mice. In addition, no effect of genotype is apparent when examining BERP mRNA levels in the brain. This suggests that the decreased cell surface expression of gamma2 subunit-containing GABA A receptors is likely a posttranscriptional phenomenon and supports the possibility that BERP may be involved in the intracellular trafficking of GABA A receptors. In investigating the possible relationship between BERP and p53, we identify the presence of a transcriptionally competent p53 response element within the first intron of the human BERP genomic locus and demonstrate that the BERP expression is up regulated in a p53-dependent manner both in vitro and in vivo. These results support the interpretation that BERP is a novel p53-regulated gene and suggest a new role for p53 in the regulation of GABA A receptor trafficking and epileptogenesis.

genetics

mouse model

gene regulation

0369

The Biological Basis of Joint Ankylosis: Studies in the ank/ank Mouse

Las Heras, Facundo

08 March 2011

The first objective of my work was to use the ank/ank (progressive ankylosis) mutant mice, which have a deficiency in inorganic pyrophosphate transport, to address the role of Ank in joint ankylosis. I observed the presence of hypertrophic chondrocytes in the uncalcified ank/ank mice articular cartilage. This novel phenotype is likely due to a dysregulation of chondrocyte maturation as these chondrocytes expressed hypertrophic chondrocyte markers (collagen type X and tissue non-specific alkaline phosphatase). I also showed by immunohistochemical staining that beta-catenin expression was upregulated and localized in the nuclei of articular ank/ank chondrocytes, suggesting activation of Wnt/beta-catenin signaling in these chondrocytes. The second objective was to use ank/ank mice as an informative model for understanding ankylosis mechanisms in human ankylosing spondylitis (AS) patients, as WNT/beta-catenin signaling plays an important role in ankylosis in AS patients. We attempted rescue of joint ankylosis in ank/ank mice by gene transfer of noggin, an antagonist of BMP signaling. Paradoxically, noggin-treated ank/ank mice had accelerated ankylosis, as evidenced by joint pathology and IHC staining of beta-catenin showed more intense signals in the spinal chondrocytes of the treated mice. As noggin and sclerostin (an antagonist of beta-catenin signaling) form a mutually inhibitory complex, we hypothesize that the formation of this complex results in relieving suppression of both beta-catenin and BMP signaling, leading to more severe ankylosis in ank/ank mice. By quantitative molecular imaging, I have demonstrated that ankylosis in these mutant mice developed simultaneously in distal and axial joint, instead of being a centripetal process. In summary, I have made three original observations in the ank/ank mice: the hypertrophic chondrocyte phenotype; activation of beta-catenin signaling and the simultaneous development of ankylosis in distal and axial joints. These mutant mice serve as valuable model for pre-clinical studies which enable modeling and testing of novel anti-ankylosis treatments.

Chondrocyte Hypertrophy

ank mouse

Osteoarthritis

Ankylosing Spondilitis

Functional Dissection of Lupus Susceptibility Loci on the New Zealand Black Mouse Chromosome 1

Cheung, Yui Ho

14 February 2011

Systemic lupus erythematosus (SLE) is a multisystem autoimmune disease with a strong and complex genetic basis. To dissect the function of the lupus susceptibility loci on New Zealand black (NZB) mouse chromosome 1, the lab had previously generated congenic mice with an introgressed homozygous NZB chromosome 1 intervals extending from ~35 or ~82 to 106 cM on the C57BL/6 background. Although both mouse strains made IgG anti-nuclear antibodies (ANAs), ANA titres and cellular activation were significantly higher in mice with the longer interval. These studies suggest the presence of two susceptibility genes. In this thesis I have sought to further characterize the cellular abnormalities and underlying genetic polymorphisms that produce them in these mice. Using mixed hematopoietic chimeric mice, with a mixture of tagged-B6 and congenic bone marrow I demonstrate that there are intrinsic B and T cell functional defects in chromosome 1 congenic mice. I further show that an intrinsic B cell defect is required for efficient recruitment of B cells into the spontaneous germinal centres and differentiation of autoantibody producing cells in these mice. To more precisely localize the susceptibility loci, I produced and characterized a number of additional subcongenic mouse strains. This revealed surprising genetic complexity with the presence of at least four lupus susceptibility loci and a suppressor locus on chromosome 1, several of which appeared to impact on T cell function. Finally, I generated bicongenic mice carrying both NZB chromosome 1 and 13 intervals, hypothesizing that since these were two of the major intervals associated with autoimmune disease in NZB mice they would fully recapitulate the autoimmune phenotypes. Although this hypothesis was incorrect, several novel phenotypes developed including marked expansion of the plasmacytoid and myeloid dendritic cell compartments and increased BAFF and IgA autoantibody production. Although this expansion was associated with TLR hyper-responsiveness, disease severity remained mild, possibly due to the lack of IFN- production, which appeared to be inhibited in these mice. Thus, lupus arises from immune defects affecting several cellular populations, which are the product of multiple genetic polymorphisms that interact in a complex fashion to produce the autoimmune phenotype.

Systemic Lupus Erythematosus

Mouse Model

0982

A SNP Associated With Autism Affects Dlx5/Dlx6 Regulation in the Forebrain

Lesage-Pelletier, Cindy

08 November 2011

Autism is a severe childhood neuropsychiatric condition characterized by impairments in socialization and communication, and by restricted and repetitive behaviours. Autism spectrum disorder (ASD) is a complex and largely unknown disease with a strong genetic basis, multiple genes involved and environmental factors determining its phenotype. Interestingly, the DLX1/DLX2 and DLX5/DLX6 bigene clusters are located in autism susceptibility loci and Dlx genes are involved in GABAergic interneurons differentiation and migration to the cortex during forebrain development. Dlx gene expression is controlled by different cis-regulatory elements. Of these, 4 are active in the forebrain, URE2, I12b, I56ii and I56i. In order to determine the role of the DLX genes in ASD, variants were found in gene exons and in cis-regulatory elements in autistic individuals. A single nucleotide polymorphism (SNP), a change of an adenine for a guanine, was identified in I56i enhancer. Finding a SNP in I56i was very surprising considering that it is located in a Dlx binding motif highly conserved among >40 species. We showed, using in vitro approaches, that the presence of this SNP affects the affinity of Dlx for their binding site and reduces the transcriptional activation of the enhancer. The SNP also affects activity of the I56i enhancer in transgenic mice. In order to determine the real impact of the SNP in vivo, mutant mice harboring the SNP in their I56i enhancer were produced. That involved the insertion of the I56i enhancer with the SNP, using homologous recombination in mouse embryonic stem cells to replace the wild type version of the enhancer. With these mutant mice, we demonstrated that, in vivo, this SNP reduces Dlx5 and Dlx6 expression in the forebrain. Furthermore, this decrease in Dlx5/Dlx6 expression could affect the differentiation and/or migration of specific populations of inhibitory interneurons in the forebrain. No distinct iv behavioural phenotypes were observed between wild type mice and those carrying the SNP, during social interaction and anxiety tests. Therefore, these results suggest that even a subtle change in a regulatory element can have an impact in the development of the forebrain and may even contribute to disorders such as autism.

SNP

Autism

mouse behaviour

Enhancer

Telencephalon