Global ETD Search

81	Ex Vivo Expansion of Memory CD8 T Cells From Lymph Nodes or Spleen Through in Vitro Culture With Interleukin-7 Kittipatarin, Christina, Khaled, Annette R. 15 May 2009 (has links) Interleukin-7 (IL-7) increases lymphocyte numbers, a critical feature of immune reconstitution, through mechanisms that are still poorly understood. Part of the problem is that IL-7 is produced in limited amounts by non-lymphoid cells, making in vivo studies of the cytokine's activity a challenge. To overcome this, we developed an in vitro system by which lymphocytes from secondary immune organs could be cultured to produce IL-7 responsive cells. Using this method, we showed that CD8hiCD44hi T cells accumulate in culture with IL-7 from a population of lymph node or splenic cells. These results were validated when a similar lymphocyte subset was found in mice expressing a constitutively active form of STAT5b, a key transducer of IL-7 signals. Interestingly, IL-7-expanded cells also up regulated the activation marker, CD69. The IL-7-derived CD44hiCD69hi cells were not generated from naïve cells, but expanded from an existing population, since culture in IL-7 of naïve lymphocytes from OT-1/Rag1-/- mice did not produce CD44hiCD69hi cells. Using the in vitro culture system to study lymphocytes from mice deficient in the apoptotic protein, BIM, we were able to attribute the expansion of CD8hiCD44hiCD69hi T cells to the proliferative and not survival activity of IL-7. The in vitro culture system provides an important new methodology to examine the activities of this essential as well as immunotherapeutic cytokine. activation cytokine immunotherapy lymphocytes proliferation
82	Engineered heart tissues to investigate the role of mechanical loading and injury in cardiomyocyte proliferation Ciucci, Giulio 12 July 2021 (has links) Myocardial infarction is one of the most severe acute pathologies of the cardiovascular system. The adult mammalian heart is indeed unable to regenerate most of the lost cardiomyocytes (CMs) after cardiac injury. The loss of cardiomyocytes and the myocardial scarring after myocardial infarction eventually compromise contractility of the remaining myocardium, leading to heart failure. Therefore, promoting heart regeneration is one of the most crucial therapeutic targets in cardiovascular medicine. The lack of regenerative response is due to the loss of proliferative capacity of adult CMs which in mice occurs seven days after birth. One of the events which occur at birth in neonatal hearts is a sudden increase in mechanical loading that may contribute to switching mammal CMs phenotype from neonatal proliferative to adult postmitotic. Therefore, understanding the role of mechanotransduction in regulating the balance between CM proliferation and maturation may bring us to the identification of unknown mediators and new potential strategies to induce cardiac regeneration. Regulation of mechanical load in bi-dimensional cultures of CMs can be achieved in different ways, however, the poor degree of CM maturation that can be reached in a culture dish together with the lack of a tridimensional structure represent a major limitation to performing mechanotransduction studies. In our work we developed a novel system to study mechanotransduction of CMs based on 3D culture of cardiac cells, called engineered heart tissues (EHTs), that allow us to reduce or increase mechanical loading easily. We show that the three-dimensional setting of the culture leads to an improvement of CM maturation that may be reversed by mechanical unloading inducing cell proliferation. On the other hand, a persisting overload stimulus eventually induces CM switch to a more mature phenotype with a low degree of proliferation. Also, we have focused our work on developing an EHT-based model able to recapitulate the adult infarct injury in order to investigate the biology of cardiac regeneration in this setting. Specifically, we set up a cryoinjury protocol that is relatively easy and reproducible. Cryoinjury produces a localized injury without compromising EHT’s structural integrity. Indeed, all the EHTs subjected to cryoinjury preserved their contractile activity and did not show any significant change in shape. Considering that EHTs are unpurified cardiac culture rich in fibroblast and endothelial cells, we observed that cryoinjury induce fibroblast proliferation and activation together with a lack of proliferative response of the cardiomyocytes which is, on the other hand, present in the early phase of EHT’s development, similarly to what has been shown in mice and rats after myocardial infarction, highlighting the robustness of our cryoinjury approach as a model to investigate cardiac regeneration.
83	Interleukin-7 Differentially Regulates The Activation, Proliferation, And Homing Of T-cells: Implications For Immunotherapy Kittipatarin, Christina 01 January 2010 (has links) Interleukin-7 (IL-7) is an essential lymphocyte growth factor required for the survival and proliferation of mature T-cells. As a therapeutic agent, IL-7 has the potential to restore T-cell numbers following immune depletion and to promote immunity against cancers. While the survival function of IL-7 is well established, less is known about how it supports T-cell expansion, a critical feature of the immune response. To study the biological effects of IL-7 on T-cell growth, we developed an in vitro culture technique to expand T-cells ex vivo. A significant finding from our studies is that IL-7 did not induce the expansion of all T-cells, indicating that there are inherent differences in the response of individual T-cell subsets to IL-7. Culture with high doses of IL-7 ( > 150 ng/ml) preferentially expanded CD8 T-cells, but lead to the dramatic loss of CD4 T-cells which favored growth in lower dosages of IL-7 ( > 10 ng/ml). This effect was due to the regulation of LCK, a kinase predominantly associated with the CD4 co-receptor. We found that transgenic expression of the CD4 co-receptor onto CD8 T-cells promoted their growth in lower concentrations of IL-7. Conversely, inhibition of LCK activity in CD4 T-cells restored their responsiveness to high doses of IL-7 as indicated by the activation of the transcription factor STAT5, in a manner similar to CD8 T-cells. Interestingly, not all CD8 T-cells expanded in high doses of IL-7 and this effect was specific to CD8 T-cells that expressed an activated memory phenotype. We found that IL-7 promoted the proliferation of CD8 T-cells through Cdc25A, a phosphatase required for cell cycle progression. Expression of a constitutively active Cdc25A could maintain T-cell survival and proliferation in the absence of IL-7, demonstrating that Cdc25A is a crucial transducer of IL-7 growth signals. Inhibition of Cdc25A was sufficient to decrease proliferation and down-regulate the expression of activation/ memory markers on CD8 T-cells in the presence of IL-7. Upon further study, we identified a novel role for IL-7 through Cdc25A in the regulation of CD62L, an adhesion molecule required for lymph node entry. Culture with high doses of IL-7 down-regulated the expression of CD62L, suggesting that high doses of IL-7 could affect the ability of T-cells to enter or re-enter the lymph nodes. Collectively, our findings demonstrate that IL-7 administration at the supraphysiological doses currently used in the clinical trials could have a negative impact on the growth of CD4 T-cells and the homing of CD8 T-cells to the lymph nodes, effects which can impede the generation of an effective immune response. cytokine lymphocytes proliferation Medical Sciences
84	Intramammary infection in rapidly growing, non-lactating mammary glands Enger, Benjamin David 24 August 2018 (has links) Intramammary infections (IMI) are common in non-lactating heifer and dry cow mammary glands and occur during periods of appreciable mammary growth and development. The presence of these infections is expected to negatively impact mammary growth and development but has yet to be investigated. The works reported here investigated how IMI affects mammary tissue structure, cellularity, and the expression of integral mammogenic hormone receptors implicated in mammary growth. Non-pregnant non-lactating cows (n = 19) were administered estradiol and progesterone to stimulate mammary growth and 2 quarters of each cow were subsequently infused with either saline (n = 19) or Staphylococcus aureus (n = 19). Intramammary infusion of Staphylococcus aureus increased the number of immune cells present in gland secretions and also increased the proportion of neutrophils comprising these secretion somatic cells. Mammary tissues from quarters infused with Staphylococcus aureus contained more immune cells, less mammary epithelial tissue area, and greater tissue areas of intralobular stromal tissue than saline quarters. Staphylococcus aureus quarters also contained more apoptotic mammary epithelial cells and a lower proportion of apoptotic cells in the intralobular stroma compartment than saline infused quarters; this signified that Staphylococcus aureus quarters had less epithelial growth and experienced an expansion and/or lack of regression of stromal tissues. The number of cells expressing estrogen receptor α (ESR1) and progesterone receptor (PGR), as well as staining characteristics of ESR1 and PGR positive nuclei was also examined in these tissues. No appreciable differences were observed in any of the examined ESR1 and PGR measures between Staphylococcus aureus and saline mammary glands, but myoepithelial cells from Staphylococcus aureus glands had a greater nuclear staining area than saline quarters, indicating that these cells were affected by IMI. The results of these investigations indicate that IMI, in mammary glands that are concurrently stimulated to grow and develop, limits the growth of mammary epithelium and impairs regression of the stromal tissue, both of which are necessary for successful lactational performance. / PHD / Successful growth and development of the dairy cow udder (mammary gland) is important and has long-term impacts on milk production. Most mammary growth occurs during the first pregnancy but, at this same time, a bacterial infection can be present within the mammary gland and is expected to hinder normal growth and development. The studies conducted here sought to examine how a bacterial infection, within a cow’s udder, affects mammary gland growth and development. Overall, it was observed that a bacterial infection in the mammary gland reduced the amount of functional tissue that would eventually produce milk while simultaneously increasing the amount of connective tissue. Infected mammary glands also had a greater number of dying mammary cells, reducing the number of cells that would eventually produce milk. Estrogen and progesterone are known to be integral in supporting mammary growth, so an examination of the number of cells being able to receive signals from estrogen and progesterone was also undertaken; presence of an infection did not alter the number of cells able to receive estrogen and progesterone’s signal. This work furthered our understanding of how bacterial infections affect mammary tissue and alter normal developmental processes. mastitis mammary growth Apoptosis proliferation
85	Roles of cholesterol in the proliferation and differentiation of bovine myoblasts Hou, Yuguo 14 August 2017 (has links) The objective of this study was to assess the potential role of extracellular, cytosolic, and membrane cholesterol in the proliferation and differentiation of bovine myoblasts. In the first experiment, myoblasts isolated from Angus or Angus crossbred steers were cultured with 2% lipoprotein deficient fetal calf serum (LPDS) or normal fetal calf serum. Culturing with LPDS did not alter the cytosolic or membrane cholesterol content, or myoblast differentiation, but inhibited myoblast proliferation, compared to culturing with normal fetal calf serum. In the second experiment, myoblasts were cultured with or without lovastatin, a selective inhibitor of cholesterol synthesis. Culturing with 5 μM lovastatin did not affect medium concentration of cholesterol, but reduced cytosolic and membrane cholesterol contents, compared to culturing with vehicle control. Culturing with 5 μM lovastatin inhibited both myoblast proliferation and differentiation. In the third experiment, myoblasts were cultured with or without methyl-βcyclodextrin (MβCD), a chemical that depletes cholesterol from cell membranes. Treating myoblasts with 10 mM MβCD for 30 minutes reduced membrane and cytosolic cholesterol contents while increasing medium cholesterol concentration. Treating with MβCD inhibited both myoblast proliferation and differentiation compared to treating with vehicle control. Overall, this study showed that lovastatin- or MβCD-induced reductions in cytosolic and membrane cholesterol contents were associated with reduced proliferation and differentiation in bovine myoblasts. These associations suggest that cytosolic cholesterol, membrane cholesterol, or both may play a role in bovine myoblast proliferation and differentiation. / Master of Science cattle myoblasts cholesterol proliferation differentiation
86	GROWTH REGULATION OF HUMAN MELANOMA: FACTORS INVOLVED IN THE EXPRESSION OF THE TRANSFORMED PHENOTYPE (SOFT AGAR, GROWTH FACTORS, PLATELETS, ENDOTHELIAL CELLS, PARACRINE). SIPES, NANCY JO. January 1986 (has links) Cellular transformation is accomplished in vitro through the concerted action of growth factors and oncogenes. This association has demonstrated that malignant growth results from aberrations in pathways that normally operate to control proliferation. Activation of genes that code for growth factors, their receptors, and/or molecules essential in the transduction of signals from the cell surface to the nucleus are all potential mechanisms by which tumor cells could establish a selective growth advantage over normal cells. This dissertation addresses the question of what oncogenic mechanisms are important in the development and progression of human melanoma. These studies show that melanoma growth is regulated by endogenous substances produced by the melanoma cells themselves (autocrine stimulation), as well as by exogenous substances supplied by neighboring cells and platelets (paracrine stimulation). These factors work to drive the expression of the transformed phenotype for melanoma as evidenced by induction of serum-free soft agar growth. Human platelets were found to the the richest source of paracrine growth promoters. The factor from human platelets was characterized and partially purified. Melanoma cells respond to this 60,000 molecular weight, disulfide-bond-containing protein in colony formation assays. In addition, the protein has endothelial cell growth factor activity. Purified fractions which promoted optimal colony formation for human melanoma cells also maximally stimulated monolayer growth of bovine aortic endothelial cells, while melanocytes were nonresponsive. This implies that melanoma cells are expressing receptors for a protein which plays no known or apparent role in the normal growth of melanocytes. Melanoma cells are sensitive to growth regulatory molecules of autocrine and paracrine nature. This dissertation provides clues to the genetic lesions which have occurred in these melanoma cells to influence their proliferation. The aberrations appear to reside in those genes important in growth factor pathways at the level of endogenous production and misguided response to exogenous factors through receptor expression. We can not hope to fully inhibit the proliferation of tumor cells until we identify and understand those forces which drive their growth. These studies have increased our knowledge of those signals which stimulate melanoma cellular proliferation, and thus provide insight into important therapeutic targets. Cancer cells -- Growth -- Regulation. Cell proliferation. Oncogenes.
87	Structure-function studies of secreted PDZ domain-containing protein 2(sPDZD2) 鄭珊, Cheng, Shan, Amy. January 2007 (has links) published_or_final_version / abstract / Physiology / Master / Master of Philosophy Recombinant proteins. Cancer cells - Proliferation. Prostate - Cancer.
88	Hairy and enhancer of split 1 (Hes1) and Krüppel-like factor 4 (K1f4) in enteric neural crest cell 薛裕霖, Sit, Yu-lam, Francesco. January 2007 (has links) published_or_final_version / abstract / Surgery / Master / Master of Philosophy Enteric Nervous System. Neural crest. Cell proliferation.
89	The effects of supercooling and re-warming on vascular cells survival and proliferation Yiu, Wai-ki., 姚惠琪. January 2010 (has links) published_or_final_version / Surgery / Doctoral / Doctor of Philosophy Cell proliferation. Vascular smooth muscle. Vascular endothelium.
90	Analysis of immune responses to transformed cells in vitro Saunders, Margaret January 1995 (has links) No description available. 610 Tumour immunity; T cell proliferation

Search results