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Cellular and molecular pathology of disease progression in a model of insulin dependent diabetes mellitusLally, F. J. January 2000 (has links)
No description available.
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The role of integrin a4B7 binding in HIV-1 subtype C pathogenesis in phenotypically variant CD4+ T cell subsetsRichardson, Simone Irene 25 August 2014 (has links)
The integrin α4β7, which mediates the trafficking of T lymphocytes to the gut associated lymphoid tissue (GALT), a site of rapid HIV replication, has been described as an attachment factor for the HIV envelope protein gp120. While differences in binding affinity of early transmitting and chronic gp120s for α4β7 have previously been noted by others, this has not translated to differences in replication. We aimed to investigate what role this binding interaction has in HIV pathogenesis over time and determine the factors that influence α4β7 reactivity. Understanding the subsets on which α4β7 is expressed may indicate the phenotype of the first host cells infected by HIV. The level of expression of α4β7 on Th17 and Treg CD4+ T cells was of interest as both subsets are important in HIV immunity in the GALT and represented in both the GALT and genital mucosa.
All-trans retinoic acid-activated CD4+ T cells isolated from whole blood of healthy donors were incubated with or without HP2/1 (anti-α4 monoclonal antibody) or Act-1 (anti-α4β7 monoclonal antibody) prior to adding virus. Sixty infectious envelope clones were prepared using matched envelope genes from 11 individuals in the CAPRISA 002 Acute Infection cohort representing the T/F virus and variants from 1-39 months post infection (p.i.). Replication was monitored by p24 ELISA over 10 days. ATRA-stimulated CD4+ T cells were subjected to intracellular and surface staining for flow cytometric analysis using a FACSAria to distinguish Th17 and Treg CD4+ T cells and to determine the expression of CD45RA, CCR5, p24, α4β7.
The dependence on α4β7 for HIV subtype C replication changes over time and varies across individuals. In three individuals, dependence on α4β7 was higher using T/F viruses and decreased sharply during acute infection (1-3 months post-infection). α4β7 dependence showed an increasing trend in chronic infection over time which was slight in the first year. Factors that influence α4β7 reactivity include glycan distance from α4β7-binding motif, glycan density and length of the V1/V2 region of gp120. Several glycans positioned in conserved regions of gp120 including N234, N332 and N334 were present more or less frequently in viruses with high α4β7 reactivity. There was an
association between high dependence on α4β7 for replication at transmission and those T/F viruses that have a S/PDI/V α4β7 binding motif as well T/F viruses found in individuals diagnosed with bacterial vaginosis during acute infection. Several cytokines in the cervicovaginal lavage (CVL) of these individuals during early infection (IL-8, IL-7 and IL-1α) positively correlated with α4β7 dependence for replication. Treg CD4+ T cells expressed slightly higher levels of α4β7 as compared to Th17 CD4+ cells. In addition, Th17 cells in this and other studies were shown to rapidly deplete in vitro following HIV infection while Treg CD4+ T cell were shown to expand. Despite this, Treg CD4+ T cells were significantly more permissive to infection as compared to Th17 CD4+ T cells.
Collectively, these data suggest that there is a role for α4β7 in HIV pathogenesis and that the interaction is selected for during transmission by a number of bottlenecks, one of which is the presence of bacterial vaginosis and elevated expression of IL-7, IL-8 and IL-1α. Due to high levels of α4β7 expression and the ability to bind gp120, presence in both the genital tract and the GALT, regulation by ATRA similar to α4β7 upregulation, expansion following HIV infection and elevated permissiveness to acute infection, Treg CD4+ T cells may be a robust vector from the genital mucosa to the GALT shortly after transmission. This population of T cells may be more suited for this function than Th17 CD4+ T cells which are more susceptible to depletion either by HIV or bystander effects. As a result of the α4β7 binding motif being in a highly immunogenic region of gp120 and antibodies directed against this region associated with protection in the only effective vaccine trial to date, further understanding of the interaction between the virus and the integrin provides an opportunity for the development of future vaccine and therapeutic strategies.
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Impaired IL-7 / IL-7Ralpha Signaling in HIV Infection: Role of the Transcriptional Repressor GFI1 in Suppressing IL-7Ralpha Expression and Driving the Proliferation of Human CD8 T LymphocytesBenoit, Anita C. 02 February 2011 (has links)
Cytotoxic CD8 T lymphocytes kill virus-infected cells and are critical for viral clearance from the body. Cytokines, particularly those sharing the common gamma receptor chain (gamma c), play
a key role in this cytotoxic function as well as in the growth, differentiation and homeostasis
of CD8 T lymphocytes. In order to exert these biological effects, cytokine-dependent signal
transduction via the Janus kinase (Jak) / Signal Transducers and Activators of Transcription
(STAT) pathway, the phosphoinositide 3-kinase (PI3-K) and mitogen-activated protein
kinase (MAPK) pathways is required. In HIV infection however, the CD8 T lymphocytes
become defective and are characterized by impaired cytotoxicity, altered differentiation
patterns, and increased susceptibility to apoptosis. I hypothesized that impaired cytokine
responsiveness resulting from defects in cytokine-dependent signal transduction contributes
to the CD8 T cell impairment observed in HIV+ patients. I investigated the activation of the
Jak/STAT signaling pathway to cytokines in CD8 T cells from HIV+ patients. Interestingly,
these cells were responsive to IL-2, IL-4, IL-10, IL-15, and IL-21 at the level of their
respective STAT activation. However, impairment of the IL-7 / IL-7Ralpha signaling axis was
identified and characterized by a defect in STAT5 signaling. The impaired STAT5
activation correlated with a low IL-7Ralpha surface expression. The expanded population of IL-
7Ralphalow-expressing CD8 T cells, found particularly in viremic HIV+ patients, expressed
higher levels of the transcriptional repressor Growth Factor Independent-1 (GFI1) compared
to their IL-7Ralphahigh counterparts. This prompted further investigations into the role of GFI1
in IL-7Ralpha regulation in primary human CD8 T cells as a model. Though silencing of GFI1
did not modulate basal IL-7Ralpha expression, exogenous overexpression negatively regulated
IL-7Ra surface levels. The gc cytokines, IL-2, IL-4, IL-7, and IL-15, but not IL-21, were
found to efficiently suppress IL-7Ralpha expression however, only IL-4 simultaneously
upregulated GFI1 expression. RNA interference studies targeting GFI1 in IL-4 stimulated
CD8 T cells established a specific role for GFI1 in sustaining the suppression of IL-7Ralpha
expression. Furthermore, transient downregulation of GFI1 in CD8 T cells subjected to IL-
4-dependent proliferation reduced their proliferative capacity. Other functions identified for
GFI1 were in the suppression of CXCR4 and Bax expression in CD8 T cells. Studies aimed
at identifying the signal transduction pathways responsible for regulating GFI1 and IL-7Ralpha
expression revealed that IL-4-mediated downregulation of IL-7Ralpha expression required
activation of the Jak/STAT and the PI3K pathways. On the other hand, IL-4-induced
upregulation of GFI1 expression was mediated via the PI3K pathway. The JNK and P38
MAPK pathways appeared to be important as regulators of basal IL-7Ralpha expression levels,
but had no statistically significant effects on GFI1 expression. To conclude, these studies
have clarified the important biological effects of GFI1 in mature human CD8 T lymphocytes.
Furthermore, exposure to IL-4 may generate CD8 T cell populations with an exhausted
phenotype similar to those found in chronically-infected HIV+ patients, characterized by
reduced cytotoxic activity and increased IL-4 production. Thus, the IL-4 study model may
prove valuable for investigating the activity of human CD8 T cells in such chronic diseases
and those characterized by a type 2 cytokine profile.
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Impaired IL-7 / IL-7Ralpha Signaling in HIV Infection: Role of the Transcriptional Repressor GFI1 in Suppressing IL-7Ralpha Expression and Driving the Proliferation of Human CD8 T LymphocytesBenoit, Anita C. 02 February 2011 (has links)
Cytotoxic CD8 T lymphocytes kill virus-infected cells and are critical for viral clearance from the body. Cytokines, particularly those sharing the common gamma receptor chain (gamma c), play
a key role in this cytotoxic function as well as in the growth, differentiation and homeostasis
of CD8 T lymphocytes. In order to exert these biological effects, cytokine-dependent signal
transduction via the Janus kinase (Jak) / Signal Transducers and Activators of Transcription
(STAT) pathway, the phosphoinositide 3-kinase (PI3-K) and mitogen-activated protein
kinase (MAPK) pathways is required. In HIV infection however, the CD8 T lymphocytes
become defective and are characterized by impaired cytotoxicity, altered differentiation
patterns, and increased susceptibility to apoptosis. I hypothesized that impaired cytokine
responsiveness resulting from defects in cytokine-dependent signal transduction contributes
to the CD8 T cell impairment observed in HIV+ patients. I investigated the activation of the
Jak/STAT signaling pathway to cytokines in CD8 T cells from HIV+ patients. Interestingly,
these cells were responsive to IL-2, IL-4, IL-10, IL-15, and IL-21 at the level of their
respective STAT activation. However, impairment of the IL-7 / IL-7Ralpha signaling axis was
identified and characterized by a defect in STAT5 signaling. The impaired STAT5
activation correlated with a low IL-7Ralpha surface expression. The expanded population of IL-
7Ralphalow-expressing CD8 T cells, found particularly in viremic HIV+ patients, expressed
higher levels of the transcriptional repressor Growth Factor Independent-1 (GFI1) compared
to their IL-7Ralphahigh counterparts. This prompted further investigations into the role of GFI1
in IL-7Ralpha regulation in primary human CD8 T cells as a model. Though silencing of GFI1
did not modulate basal IL-7Ralpha expression, exogenous overexpression negatively regulated
IL-7Ra surface levels. The gc cytokines, IL-2, IL-4, IL-7, and IL-15, but not IL-21, were
found to efficiently suppress IL-7Ralpha expression however, only IL-4 simultaneously
upregulated GFI1 expression. RNA interference studies targeting GFI1 in IL-4 stimulated
CD8 T cells established a specific role for GFI1 in sustaining the suppression of IL-7Ralpha
expression. Furthermore, transient downregulation of GFI1 in CD8 T cells subjected to IL-
4-dependent proliferation reduced their proliferative capacity. Other functions identified for
GFI1 were in the suppression of CXCR4 and Bax expression in CD8 T cells. Studies aimed
at identifying the signal transduction pathways responsible for regulating GFI1 and IL-7Ralpha
expression revealed that IL-4-mediated downregulation of IL-7Ralpha expression required
activation of the Jak/STAT and the PI3K pathways. On the other hand, IL-4-induced
upregulation of GFI1 expression was mediated via the PI3K pathway. The JNK and P38
MAPK pathways appeared to be important as regulators of basal IL-7Ralpha expression levels,
but had no statistically significant effects on GFI1 expression. To conclude, these studies
have clarified the important biological effects of GFI1 in mature human CD8 T lymphocytes.
Furthermore, exposure to IL-4 may generate CD8 T cell populations with an exhausted
phenotype similar to those found in chronically-infected HIV+ patients, characterized by
reduced cytotoxic activity and increased IL-4 production. Thus, the IL-4 study model may
prove valuable for investigating the activity of human CD8 T cells in such chronic diseases
and those characterized by a type 2 cytokine profile.
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35 |
Strategies to identify granzyme J /Tinangon, Maria M. January 2001 (has links)
Thesis (M.S.)--University of Nevada, Reno, 2001. / Includes bibliographical references. Online version available on the World Wide Web.
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Glycerol-3-phosphate acyltransferase regulates T cell effector function and metabolismFaris, Robert Allen, Jr. 17 October 2013 (has links)
The aged T cell is characterized by decreased responsiveness to stimulation. Aging is associated with reduced membrane glycerophospholipid (GPL) to cholesterol ratios so it is interesting that deletion of mitochondrial glycerol-3-phosphate acyltransferase-1 which catalyzes the first step in de novo GPL synthesis induces an aged T cell phenotype in otherwise healthy mice. GPAT-1 could regulate T cell function through three possible mechanisms: maintenance of membrane GPL ratios and membrane based signaling, providing a specific substrate for downstream signaling, or direct regulation of cellular metabolism. Therefore, the goal of this project was to determine whether these mechanisms contribute to the dysfunctional T cell phenotype observed with decreased GPAT-1 activity. T cell stimulation requires significant upregulation of metabolic processes to drive clonal expansion and cytokine production. T cell dysfunction in GPAT-1 knockout mice may be partially explained by altered metabolic function. We found that GPAT-1 KO T cells have significantly reduced basal respiration rates and spare respiratory capacity which is not compensated for by increased glycolytic metabolism suggesting an inherent metabolic defect in GPAT-1 KO T cells. To better understand mechanistically how GPAT-1 regulates T cell function we moved into the Jurkat T cell line and found that shRNA mediated knockdown of the human isoform of GPAT-1 (GPAM) recapitulated key aspects of the dysfunctional T cell phenotype we observed in the mouse including highly significant reductions in IL-2 production and altered membrane GPL to cholesterol ratios. Phosphatidic acid addition was not capable of rescuing these deficiencies suggesting that GPAT-1/GPAM activity is required for proper T cell function. This was the first time that GPAT-1 activity has been shown to be important for T cell function in a non-murine model system and strongly suggests that GPAT-1/GPAM deficiency regulates T cell function at the cellular level. We further demonstrate that phosphorylation of ZAP-70 a proximal effector of T cell activation is significantly reduced in GPAM knock down Jurkat T cells, suggesting that membrane based signaling is dysfunctional. Taken together these data suggest that GPAT-1 is necessary for regulating cellular energy demands in T cells and essential for optimal T cell activation following stimulation. / text
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Impaired IL-7 / IL-7Ralpha Signaling in HIV Infection: Role of the Transcriptional Repressor GFI1 in Suppressing IL-7Ralpha Expression and Driving the Proliferation of Human CD8 T LymphocytesBenoit, Anita C. 02 February 2011 (has links)
Cytotoxic CD8 T lymphocytes kill virus-infected cells and are critical for viral clearance from the body. Cytokines, particularly those sharing the common gamma receptor chain (gamma c), play
a key role in this cytotoxic function as well as in the growth, differentiation and homeostasis
of CD8 T lymphocytes. In order to exert these biological effects, cytokine-dependent signal
transduction via the Janus kinase (Jak) / Signal Transducers and Activators of Transcription
(STAT) pathway, the phosphoinositide 3-kinase (PI3-K) and mitogen-activated protein
kinase (MAPK) pathways is required. In HIV infection however, the CD8 T lymphocytes
become defective and are characterized by impaired cytotoxicity, altered differentiation
patterns, and increased susceptibility to apoptosis. I hypothesized that impaired cytokine
responsiveness resulting from defects in cytokine-dependent signal transduction contributes
to the CD8 T cell impairment observed in HIV+ patients. I investigated the activation of the
Jak/STAT signaling pathway to cytokines in CD8 T cells from HIV+ patients. Interestingly,
these cells were responsive to IL-2, IL-4, IL-10, IL-15, and IL-21 at the level of their
respective STAT activation. However, impairment of the IL-7 / IL-7Ralpha signaling axis was
identified and characterized by a defect in STAT5 signaling. The impaired STAT5
activation correlated with a low IL-7Ralpha surface expression. The expanded population of IL-
7Ralphalow-expressing CD8 T cells, found particularly in viremic HIV+ patients, expressed
higher levels of the transcriptional repressor Growth Factor Independent-1 (GFI1) compared
to their IL-7Ralphahigh counterparts. This prompted further investigations into the role of GFI1
in IL-7Ralpha regulation in primary human CD8 T cells as a model. Though silencing of GFI1
did not modulate basal IL-7Ralpha expression, exogenous overexpression negatively regulated
IL-7Ra surface levels. The gc cytokines, IL-2, IL-4, IL-7, and IL-15, but not IL-21, were
found to efficiently suppress IL-7Ralpha expression however, only IL-4 simultaneously
upregulated GFI1 expression. RNA interference studies targeting GFI1 in IL-4 stimulated
CD8 T cells established a specific role for GFI1 in sustaining the suppression of IL-7Ralpha
expression. Furthermore, transient downregulation of GFI1 in CD8 T cells subjected to IL-
4-dependent proliferation reduced their proliferative capacity. Other functions identified for
GFI1 were in the suppression of CXCR4 and Bax expression in CD8 T cells. Studies aimed
at identifying the signal transduction pathways responsible for regulating GFI1 and IL-7Ralpha
expression revealed that IL-4-mediated downregulation of IL-7Ralpha expression required
activation of the Jak/STAT and the PI3K pathways. On the other hand, IL-4-induced
upregulation of GFI1 expression was mediated via the PI3K pathway. The JNK and P38
MAPK pathways appeared to be important as regulators of basal IL-7Ralpha expression levels,
but had no statistically significant effects on GFI1 expression. To conclude, these studies
have clarified the important biological effects of GFI1 in mature human CD8 T lymphocytes.
Furthermore, exposure to IL-4 may generate CD8 T cell populations with an exhausted
phenotype similar to those found in chronically-infected HIV+ patients, characterized by
reduced cytotoxic activity and increased IL-4 production. Thus, the IL-4 study model may
prove valuable for investigating the activity of human CD8 T cells in such chronic diseases
and those characterized by a type 2 cytokine profile.
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38 |
Effect of L-arginine on an experimental model of colorectal cancerMa, Qing-Yong January 1996 (has links)
No description available.
|
39 |
Migration on extracellular matrix surface and infiltration into the matrix : two distinguishable activities of human T cells /Ivanoff, Jyrki, January 2003 (has links)
Diss. (sammanfattning) Umeå : Univ., 2003. / Härtill 5 uppsatser.
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Role of splenic B cells and gamma delta T cells in the induction of peripheral tolerance elicited through the anterior chamber of the eyeAshour, Hossam Mohamed January 2006 (has links)
Dissertation (Ph.D.) -- University of Texas Southwestern Medical Center at Dallas, 2006. / Vita. Bibliography: pp. 124-137
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