Influenza-specific B cell responses in HLA-DR1 transgenic mice

Huan, Lifang

01 August 2010

HLA-DR1 transgenic (DR1 Tg) mice provide a model for evaluating the breadth and specificity of CD4 T cell responses that may develop in humans following influenza infection or vaccination. Recent studies identified a tremendously broad HLA-DR1-restricted CD4 T cell responses in DR1 Tg mice infected intranasally with influenza A/New Caledonia/20/99 (NC). In this study, our goals were to characterize B cell responses after NC infection in DR1 Tg mice and establish the correlation between B cell responses and CD4 T cell responses in this system. Influenza-specific B cell responses following virus administration were analyzed in DR1 Tg mice and in the genetically matched H-2b strain C57BL/10J (B10). Following intranasal (i.n.) NC infection, B cell responses in B10 mice featured strong IgG2b and IgG2c production and were typical of previously described B cell responses to a variety of mouse-adapted influenza strains. In contrast, B cell responses in DR1 Tg mice followed delayed kinetics and were strongly skewed to IgG1 production, suggesting the Th2 polarization of CD4 T cell responses. The different antibody isotype profile in DR1 Tg mice compared to B10 mice was evident in antibody secreting cells (ASCs) frequencies and in circulating Abs levels. Surprisingly, although DR1 Tg mice had lower influenza-specific Abs levels, they exhibited higher neutralizing Abs titers early in the response. B cell responses following intranasal infection of influenza A/Puerto Rico/8/1934 (PR8) or intramuscular vaccination of inactivated NC in DR1 Tg mice were different from the observed IgG1 bias after i.n. NC infection. After i.n. PR8 infection, B cell responses were similar in DR1 Tg mice and B10 mice, characterized by predominant IgM/IgG3 production. Additionally, following intramuscular administration of inactivated NC, B cell responses were skewed towards IgG2c production in both DR1 Tg mice and B10 mice, suggesting the Th1 polarization of CD4 T cell responses. A mechanistic understanding of IgG1/Th2 biased B cell responses and better neutralizing Abs production in DR1 Tg mice following i.n. NC infection may have implications for the optimal control of influenza infection.

HLA-DR1 transgenic mice

influenza virus

B cell responses

IgG1

Microbiology

PDGF in cerebellar development and tumorigenesis

Andræ, Johanna

January 2001

Medulloblastoma is a highly malignant cerebellar childhood tumor. As in many other brain tumors, expression of platelet-derived growth factor (PDGF) and its receptors has been shown in medulloblastoma. To reveal the importance of this growth factor in cerebellar development and tumorigenesis, analyses were performed on human medulloblastoma cell lines and on tissue from normal mouse brain at different stages of development. The in vivo effect of a forced expression of PDGF-B in the cerebellar primordium was examined in transgenic mice. In the normal mouse embryo, we found PDGF receptor-α-positive cells in the early neuroepithelium and on neuronal precursors. In the postnatal cerebellum, cells in the external germinal layer and Purkinje cells expressed the receptor. In the medulloblastoma cells, expression of all the three PDGF isoforms and PDGF receptors was seen and correlated to neuronal differentiation. Endogenously activated, i.e. tyrosine phosphorylated, PDGF receptors were identified. To reveal the role of PDGF in normal cerebellar development, we established transgenic mice where a PDGF-B cDNA was introduced via homologous recombination into the engrailed-1 gene. Engrailed-1 is specifically expressed at the mid-/hindbrain boundary of the early neural tube, i.e. in an area from which the cerebellar primordium develops. The ectopic expression of PDGF-B caused a disturbance of cerebellar development. Midline fusion of the cerebellar primordium did not occur properly, which resulted in cerebellar dysplasia in the adult mouse. In a parallel study, the expression pattern of a glial fibrillary acidic protein (GFAP)-lacZ transgene was followed in the embryonic mouse central nervous system. It was shown that the human GFAP promoter was already active by embryonic day 9.5 and as development proceeded, expression occured in different, independent cell populations. Among these cell populations were the radial glial cells in the neocortex.

Genetics

cerebellum

medulloblastoma

PDGF

GFAP

transgenic mice

Genetik

Clinical genetics

Klinisk genetik

Functional Studies on the PDGFR α gene promoter and effects of autocrine PDGF-A stimulation in vivo

Zhang, Xiao-Qun

January 2001

Platelet-derived growth factor receptor α (PDGFRα) plays an important role during embryogenesis. After implantation, the patterns of expression of Pdgfrα and its ligand Pdgf-A undergo an "autocrine-paracrine transition", in that Pdgf-A becomes expressed in the ectoderm and epithelia, while Pdgfrα is expressed in the adjacent mesenchymal tissue. In human tumors, such as malignant glioma, both PDGF and PDGFRα are overexpressed within the same tissue, indicating that an autocrine PDGF loop is generated in the tumors. This thesis is focused on the in vivo functionality of the PDGFRα gene (PDGFRA) promoter, arid on the effect of autocrine PDGF-A stimulation in transgenic n-iice during embryogenesis. To test the in vivo promoter function of a human PDGFRA 2.2 kb 5' flanking fragment, we generated transgenic mouse lines and found that the 2.2 kb fragment was able to promote lacZ reporter gene expression in most of the endogenous Pdgfra expressing tissues. Absence of expression and "ectopic" expression of the transgenic lacZ were also observed. To investigate the autocrine PDGF effect, we produced autocrine PDGF-As (A short-chain) transient transgenic embryos. These transgenic embryos carried a 6 kb mouse Pdgfra 5' flanking sequence linked to a human PDGF-As cDNA. The pattern of expression of the PDGF-As transgene mRNA was similar to that of lacZ. Some of the transgenic embryos exhibited severe abnormal phenotypes, such as midline fusion defects in the cephalic and craniofacial region and small body size, and these embryos die at mid-gestation stage. These findings indicate that a paracrine pattern of expression and the dosage of PDGF are important for sustaining normal embryo development, especially with regard to the middline fusion in craniofacial regions. The possible signaling pathways that may be involved in regulating Pdgfra activity were also studied by comparison of patterns of mRNA expression of Gli, Ptc, and Paxl with that of Pdgfra. The results pointed to the possibility that the Shh signaling pathway may be involved in the regulation of Pdgfra expression for example during early bone and foregut development. The specific regulatory mechanisms may vary for different tissues.

Genetics

Autorcrine PDGF

promoter

PDGFRA

transgenic mice

Genetik

Clinical genetics

Klinisk genetik

Mutant superoxide dismutase-1-caused pathogenesis in amyotrophic lateral sclerosis

Bergemalm, Daniel

January 2010

Amyotrophic lateral sclerosis (ALS) is a devastating disease that affects people in their late mid-life, with fatal outcome usually within a few years. The progressive degeneration of neurons responsible for muscle movement (motor neurons) throughout the central nervous system (CNS) leads to muscle wasting and paralysis, and eventually affects respiratory function. Most cases have no familial background (sporadic) whereas about 10% of cases have relatives affected by the disease. A substantial number of familial cases are caused by mutations in the gene encoding superoxide dismutase-1 (SOD1). Since the initial discovery of this relationship about 17 years ago, numerous workers have tried to identify the pathogenicity of mutant SOD1 but without any final agreement or consensus regarding mechanism. The experiments in this thesis have been aimed at finding common pathogenic mechanisms by analyzing transgenic mouse models expressing mutant SOD1s with widely different properties.     Mitochondrial pathology and dysfunction have been reported in both ALS patients and murine models. We used density gradient ultracentrifugation for comparison of mitochondrial partitioning of SOD1 in our transgenic models. It was found that models with high levels of mutant protein, overloaded mitochondria with high levels of SOD1-protein whereas models with wild type-like levels of mutant protein did not. No significant association of the truncation mutant G127X with mitochondria was found. Thus, if mitochondrial dysfunction and pathology are fundamental for ALS pathogenesis this is unlikely to be caused by physical association of mutant SOD1 with mitochondria.     Density gradient ultracentrifugation was used to study SOD1 inclusions in tissues from an ALS patient with a mutant SOD1 (G127X). We found large amounts in the ventral horns of the spinal cord but also in the liver and kidney, although at lower levels. This showed that such signs of the disease can also be found outside the CNS.     This method was used further to characterize SOD1 inclusions with regard to the properties of mutant SOD1 and the presence of other proteins. The inclusions were found to be complex detergent-sensitive structures with mutant SOD1 reduced at disulfide C57-C146 being the major inclusion protein, constituting at least 50% of the protein content. Ten co-aggregating proteins were isolated, some of which were already known to be present in cellular inclusions. Of great interest was the presence of several proteins that normally reside in the endoplasmic reticulum (ER), which is in accordance with recent data suggesting that the unfolded protein response (UPR) has a role in ALS.     To obtain unbiased information on the pathogenesis of mutant SOD1, we performed a total proteome study on spinal cords from ALS transgenic mice. By multivariate analysis of the 1,800 protein spots detected, 420 (23%) were found to significantly contribute to the difference between transgenic and control mice. From 53 proteins finally identified, we found pathways such as mitochondrial function, oxidative stress, and protein degradation to be affected by the disease. We also identified a previously uncharacterized covalent SOD1 dimer.    In conclusion, the work described in this thesis suggests that mutant SOD1 affects the function of mitochondria, but not mainly through direct accumulation of SOD1 protein. It also suggests that SOD1 inclusions, present in both the CNS and peripheral tissues, mainly consist of SOD1 but they also trap proteins involved in the UPR. This might be deleterious as motor neurons, unable to renew themselves, are dependent on proper protein folding and degradation.

ALS

SOD1

mitochondria

proteome

transgenic mice

inclusion

Clinical chemistry

Klinisk kemi

The Effects of CREB-mediated BDNF Expression on Memory- and Anxiety-related Behaviours in the Adult Mouse

Florczynski, Matthew

22 November 2012

Experience drives changes in gene expression that mold and reorganize neuronal circuits. In response to neuronal activity, the transcription factor CREB binds to a regulatory site on Bdnf promoter IV to modulate BDNF protein levels. CREB and BDNF are extensively implicated in animal behaviour, but the role of the interaction between these proteins has not been studied. I used transgenic mice carrying mutations at the CREB binding site of Bdnf promoter IV (CREmKI mutation) to specifically disrupt this interaction. F1 (N = 52) and F2 (N = 69) mice underwent a battery of behavioural tests. All mice showed normal motor learning and spatial memory. Critically, F1 mutants showed impaired auditory fear memory, while F2 mutants showed heightened anxiety. I suspect that differences in Bdnf expression and compensatory effects contributed to discrepancies between the two generations. My findings highlight the relevance of BDNF expression levels for memory- and anxiety-related behaviours.

transgenic mice

memory

anxiety

motor learning

fear conditioning

water maze

CREB

BDNF

behaviour

activity-dependent

0317

The Effects of CREB-mediated BDNF Expression on Memory- and Anxiety-related Behaviours in the Adult Mouse

Florczynski, Matthew

22 November 2012

Experience drives changes in gene expression that mold and reorganize neuronal circuits. In response to neuronal activity, the transcription factor CREB binds to a regulatory site on Bdnf promoter IV to modulate BDNF protein levels. CREB and BDNF are extensively implicated in animal behaviour, but the role of the interaction between these proteins has not been studied. I used transgenic mice carrying mutations at the CREB binding site of Bdnf promoter IV (CREmKI mutation) to specifically disrupt this interaction. F1 (N = 52) and F2 (N = 69) mice underwent a battery of behavioural tests. All mice showed normal motor learning and spatial memory. Critically, F1 mutants showed impaired auditory fear memory, while F2 mutants showed heightened anxiety. I suspect that differences in Bdnf expression and compensatory effects contributed to discrepancies between the two generations. My findings highlight the relevance of BDNF expression levels for memory- and anxiety-related behaviours.

transgenic mice

memory

anxiety

motor learning

fear conditioning

water maze

CREB

BDNF

behaviour

activity-dependent

0317

Influenza-specific B cell responses in HLA-DR1 transgenic mice

Huan, Lifang

01 August 2010

HLA-DR1 transgenic (DR1 Tg) mice provide a model for evaluating the breadth and specificity of CD4 T cell responses that may develop in humans following influenza infection or vaccination. Recent studies identified a tremendously broad HLA-DR1-restricted CD4 T cell responses in DR1 Tg mice infected intranasally with influenza A/New Caledonia/20/99 (NC). In this study, our goals were to characterize B cell responses after NC infection in DR1 Tg mice and establish the correlation between B cell responses and CD4 T cell responses in this system. Influenza-specific B cell responses following virus administration were analyzed in DR1 Tg mice and in the genetically matched H-2b strain C57BL/10J (B10). Following intranasal (i.n.) NC infection, B cell responses in B10 mice featured strong IgG2b and IgG2c production and were typical of previously described B cell responses to a variety of mouse-adapted influenza strains. In contrast, B cell responses in DR1 Tg mice followed delayed kinetics and were strongly skewed to IgG1 production, suggesting the Th2 polarization of CD4 T cell responses. The different antibody isotype profile in DR1 Tg mice compared to B10 mice was evident in antibody secreting cells (ASCs) frequencies and in circulating Abs levels. Surprisingly, although DR1 Tg mice had lower influenza-specific Abs levels, they exhibited higher neutralizing Abs titers early in the response. B cell responses following intranasal infection of influenza A/Puerto Rico/8/1934 (PR8) or intramuscular vaccination of inactivated NC in DR1 Tg mice were different from the observed IgG1 bias after i.n. NC infection. After i.n. PR8 infection, B cell responses were similar in DR1 Tg mice and B10 mice, characterized by predominant IgM/IgG3 production. Additionally, following intramuscular administration of inactivated NC, B cell responses were skewed towards IgG2c production in both DR1 Tg mice and B10 mice, suggesting the Th1 polarization of CD4 T cell responses. A mechanistic understanding of IgG1/Th2 biased B cell responses and better neutralizing Abs production in DR1 Tg mice following i.n. NC infection may have implications for the optimal control of influenza infection.

HLA-DR1 transgenic mice

influenza virus

B cell responses

IgG1

Microbiology

Mechanism of herpes simplex virus type 1 latency in transgenic mouse models

Loiacono, Christina Marie,

January 2002

Thesis (Ph. D.)--University of Missouri--Columbia, 2002. / Typescript. Vita. Includes bibliographical references (leaves 89-103). Also available on the Internet.

Phenotype analysis of Pdss2 conditional knockout mouse

Lu, Song, 鲁嵩

January 2010

published_or_final_version / Biochemistry / Doctoral / Doctor of Philosophy

Cerebellum - Diseases - Genetic aspects.

Cerebellum - Diseases - Animal models.

Ubiquinones.

Transgenic mice - Genetics.

Molecular pathogenesis of abnormal chondrocyte differentiation in a transgenic mouse model

Tsang, Kwok-yeung., 曾國揚.

January 2006

published_or_final_version / Biochemistry / Doctoral / Doctor of Philosophy

Cartilage cells.

Cartilage - Diseases - Pathogenesis.

Cartilage - Diseases - Animal models

Transgenic mice.