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101	Desenvolvimento embrionário dos órgãos linfoides do Tubarão-azul, Prionace glauca (Linnaeus, 1758), Elasmobranchii, Carcharhiniformes / Embryonic development of lymphatic organs blue-shark, Prionace glauca (Linnaeus, 1758), Elasmobranchii, Carcharhiniformes Carlos Eduardo Malavasi Bruno 19 December 2016 (has links) O tubarão-azul, Prionace glauca (Linnaeus, 1758) é uma espécie cosmopolita, de alto valor comercial, principalmente capturado por embarcações que operam em alto mar e vendido em mercados e feiras-livres. Poucos dados biológicos estão disponíveis sobre esta espécie, principalmente quanto à sua sanidade e, o conhecimento do desenvolvimento de seus órgãos linfoides pode trazer importantes informações neste contexto. Desta forma, o objetivo do trabalho é descrever o desenvolvimento embrionário dos órgãos linfoides em embriões de tubarão-azul: timo, órgão epigonal, baço e órgão de Leydig, quanto à estrutura e arquitetura macroscópica, microscópica e ultraestrutural, pelas técnicas de microscopia de luz e eletrônica de transmissão. Foram coletados cinco espécimes de cada fase representativa do desenvolvimento embrionário: I, II, III e IV e do animal adulto. O timo foi visível macroscopicamente nas fases III e IV e microscopicamente da fase I a IV. O órgão de Leydig está presente nas fases II, III e IV. O baço e o órgão epigonal estão presentes em todas as fases embrionárias e no adulto. O timo apresentou principalmente populações de timócitos em diversos estágios de maturação e melanomacrófagos, o baço apresentou melanomacrófagos linfócitos em diversos estágios de maturação, neutrófilos, trombócitos e grande quantidade de eritrócitos. O órgão epigonal apresentou um grande número de células imaturas, principalemente de linfócitos e células polimorfonucleares. A função do órgão de Leydig é perdida quando adulta, sendo substituída pelo órgão epigonal. Os resultados desse trabalho permitem sugerir que esses órgãos apresentam uma função hematopoiética desde o inicio da embriogênese até a fase adulta. / The blue shark (Prionace glauca) is a cosmopolitan species of high commercial value, easily caught by vessels operating on the high seas and sold in markets and street fairs. Few biological data are available on this species, mainly from their sanity. Studies on development of these lymphoid organs can provide important information in this regard. Thus, the aim of this study is to describe the gross, microscopic and ultraestrutural morphology of the embryonic development of lymphoid organs: thymus, epigonal organ, spleen and the Leydig organ by light microscopy and transmission electron techniques. Five specimens were collected from each representative stage of embryonic development: II, III and IV besides adult specimens. Thymus was visible macroscopically at phases III and IV and microscopically from phase I to IV. Leydig organ is presente in phases II, III and IV. Spleen and epigonal organ are present in all embrionic phases and adult. Thymus presented mainly thymocytes populations in several maturation stages and melanomacrophages, spleen presentes melanomacrophages and lymphocytes, neutrophyls, trombocytes and huge amount of erytrocytes. Epigonal organ presented many immature cells, mainly lymphocytes and polimorphonuclear cells. Leidigs organ function is lost in adulthood being replaced by the epigonal organ. The results of this work allow to suggest that these organs present a hematopoietic function since the early development until the adult phase. Baço Embriogenese Órgão de Leydig Órgão epigonal Timo Embryogenesis Epigonal organ Leydig organ Spleen Thymus
102	Immunomodulatory Effects of Novel Therapies for Stroke Hall, Aaron A 16 April 2009 (has links) Each year, approximately 795,000 people suffer a new or recurrent stroke. About 610,000 of these are first attacks, and 185,000 are recurrent attacks (Carandang et al. 2006). Currently the only FDA approved treatment for ischemic stroke is recombinant tissue plasminogen activator (Alteplase) (Marler and Goldstein 2003). Unfortunately its use is restricted to a short, 4.5 hour, time window. Two promising therapies in the treatment of stroke at delayed timepoints are human umbilical cord blood cells (HUCBC) and the sigma receptor agonist DTG The first series of experiments were conducted to characterize the effects of sigma receptors on various aspects of microglial activation. Sigma receptor activation suppresses the ability of microglia to rearrange their actin cytoskeleton, migrate, and release cytokines. Stimulation of sigma receptors suppressed both transient and sustained intracellular calcium elevations associated with microglial activation. Further experiments showed that sigma receptors suppress microglial activation by interfering with increases in intracellular calcium. An ex vivo organotypic slice culture (OTC) model to was utilized to characterize the efficacy of sigma receptor activation and HUCBC therapy in mitigating neurodegeneration in ischemic brain tissue in the absence of the peripheral immune system. HUCBC but not DTG treatment reduced the number of degenerating neurons and the production of microglia derived nitric oxide in slice cultures subjected to oxygen glucose deprivation (OGD) back to levels seen in the normoxia controls. The final experiments were performed to characterize the effects of the peripheral immune system on the brain over time and identify changes mediated by HUCBC and DTG. Labeled splenocytes were found in spleen, blood, and thymus, but not in the brain in appreciable numbers at any timepoint. IL10 and IFN?; levels were found to significantly increase by 96hours post MCAO. This increase in IL10 and IFNγ expression was blocked HUCBC or DTG. The experiments described here have shed light on the molecular mechanisms of stroke injury and the relative targets that DTG and HUCBC therapies exploit. These data suggest that the neuroprotection achieved by DTG or HUCBC is mediated by the ability of these treatments to modulate the peripheral immune systems response to injury. sigma receptors ischemia spleen inflammation microglia American Studies Arts and Humanities Medical Pharmacology Neurosciences
103	Effects of Gold Sodium Thiomalate on Murine Spleen Cells Brownback, Paul (Paul Eldon) 12 1900 (has links) The effects of gold sodium thiomalate (GST) on murine spleen cells were investigated using in vitro mitogen blastogenesis techniques. Addition of GST to intact spleen cells resulted in a decreased blastogenic response to the T cell mitogen, concanavalin A (Con A). Thymidine uptake of spleen cells depleted of macrophages and cultured with Con A and GST demonstrated biphasic effects. At 2.5 pg Con A/ml, blastogenesis of macrophage depleted spleen cells was inhibited to a lesser degree than intact spleen cells; whereas, at 0.5 pg Con A/ml, the macrophage depleted spleen cells were inhibited to a greater degree than the intact spleen cells. Addition of GST at intervals ranging from 0 to 48 hours indicated that inhibition occurred within 36 hours following mitogen stimulation. These results suggest that GST inhibits early events of lymphocyte activation by direct interaction with lymphocytes. in vitro techniques Gold -- Therapeutic use. Spleen. gold therapy Gold Sodium Thiomalate
104	Intraoperative autologe Tumorzellvakzination in die Milz oder subcutan im Maus Tumormodell Schürer, Susan 14 April 2015 (has links) In dieser Arbeit wurde in einem Maus Tumormodell untersucht, ob durch eine intraoperative Vakzination mit gentechnisch modifizierten autologen Tumorzellen ein antitumoraler Effekt erzielt werden kann. Das Experiment erfolgte mit zwei Tumorzelllinien (B16 Melanom und Lewis Lung Karzinom). Nach Implantation der Tumorzellen in C57/BL 6 Mäuse wurden diese chirurgisch entfernt. Intraoperativ erhielten die Mäuse eine Vakzination. Dazu wurden folgende Impfstoffe verwendet: 1. subletal bestrahlte mIL-12 transfizierte Tumorzellen, 2. subletal bestrahlte pRSC transfizierte Tumorzellen und 3. frostgeschockte Tumorzellen. Die Impfung erfolgte entweder subcutan oder direkt in die Milz. Es wurde die Hypothese aufgestellt, dass eine Injektion in die Milz und eine Modifikation mit IL-12 den besten Effekt erzielt. Eine Kontrollgruppe blieb ohne Vakzin. Beobachtet wurde das Tumorwachstum, der Zeitpunkt bis zum makroskopischen Wiederauftreten eines Tumors, Überlebenszeit und die Metastasierungsrate. Versuchstiere ohne Rezidivtumor erhielten erneut einen Tumor. Es erfolgte eine erneute Evaluation des Tumorwachstums, des Zeitpunktes bis zum makroskopischen Wiederauftreten eines Tumors, der Überlebenszeit und der Metastasierungsrate. In beiden Tumorzelllinien profitierten alle Therapiegruppen nach Tumorresektion und Vakzination bezüglich Tumorrezidivrate, Zeit bis zum makroskopischenWiederauftreten des Tumors, Überlebenszeit, Metastasierungsrate und Tumorwachstumsgeschwindigkeit gegenüber der Kontrollgruppe. Vereinzelt konnten signifikante Vorteile für die direkt in die Milz applizierte Vakzine bezüglich der Tumorwachstumsgeschwindigkeit aufgezeigt werden. Weiterhin ergab sich eine geringere Tumorrezidivrate, wenn IL-12 modifizierte autologe Tumorzellen nach R0 Resektion direkt in die Milz appliziert wurden. Auch nach Tumorreimplantation konnte bezüglich Überlebenszeit und Tumorwachstumsgeschwindigkeit ein Vorteil für alle Therapiegruppen gegenüber der Kontrollgruppe herausgearbeitet werden. Nach Impfung in die Milz zeigte sich tendenziell eine geringere Metastasierungsrate. Intraoperative autologe Tumorzellvakzinationen konnten im Tiermodell in einem adjuvanten Setting einen antitumoralen Effekt auslösen. Möglicherweise kann diese Art der Impfung eine zusätzlich hilfreiche Behandlungsform zu den bisherigen adjuvanten Chemotherapeutika werden. info:eu-repo/classification/ddc/610 ddc:610 autologe Tumorzellvakzination, Milz
105	Loss of Sympathetic Nerves in Spleens From Patients With End Stage Sepsis Hoover, Donald B., Brown, Thomas Christopher, Miller, Madeleine K., Schweitzer, John B., Williams, David L. 06 December 2017 (has links) The spleen is an important site for central regulation of immune function by noradrenergic sympathetic nerves, but little is known about this major region of neuroimmune communication in humans. Experimental studies using animal models have established that sympathetic innervation of the spleen is essential for cholinergic anti-inflammatory responses evoked by vagal nerve stimulation, and clinical studies are evaluating this approach for treating inflammatory diseases. Most data on sympathetic nerves in spleen derive from rodent studies, and this work has established that remodeling of sympathetic innervation can occur during inflammation. However, little is known about the effects of sepsis on spleen innervation. Our primary goals were to (i) localize noradrenergic nerves in human spleen by immunohistochemistry for tyrosine hydroxylase (TH), a specific noradrenergic marker, (ii) determine if nerves occur in close apposition to leukocytes, and (iii) determine if splenic sympathetic innervation is altered in patients who died from end stage sepsis. Staining for vesicular acetylcholine transporter (VAChT) was done to screen for cholinergic nerves. Archived paraffin tissue blocks were used. Control samples were obtained from trauma patients or patients who died after hemorrhagic stroke. TH + nerves were associated with arteries and arterioles in all control spleens, occurring in bundles or as nerve fibers. Individual TH + nerve fibers entered the perivascular region where some appeared in close apposition to leukocytes. In marked contrast, spleens from half of the septic patients lacked TH + nerves fibers and the average abundance of TH + nerves for the septic group was only 16% of that for the control group (control: 0.272 ± 0.060% area, n = 6; sepsis: 0.043 ± 0.026% area, n = 8; P < 0.005). All spleens lacked cholinergic innervation. Our results provide definitive evidence for the distribution of noradrenergic nerves in normal human spleen and the first evidence for direct sympathetic innervation of leukocytes in human spleen. We also provide the first evidence for marked loss of noradrenergic nerves in patients who died from sepsis. Such nerve loss could impair neuroimmunomodulation and may not be limited to the spleen. cholinergic human innervation noradrenergic remodeling sepsis spleen Biomedical Sciences Pathology Surgery
106	Nuclear BMP2 and the Immune Response Olsen, Daniel S. 08 July 2013 (has links) (PDF) Nuclear bone morphogenetic protein 2 (nBMP2) is a nuclear variant of the secreted growth factor BMP2. Experiments in nBmp2NLStm mutant mice, which lack nBMP2 in the nucleus, have shown that nBMP2 affects intracellular calcium transport in skeletal muscle and hippocampal neurons. The objective of this study was to determine whether nBMP2 affects the immune system, since activation of lymphocytes and other immune cells depends on intracellular calcium transport. We found that spleens in nBmp2NLStm mutant mice were 24% smaller than in wild type mice. The white pulp of the spleen contains many immune cells, particularly B and T lymphocytes and reduced spleen size in the nBmp2NLStm mutant mice could be caused by a reduced number of lymphocytes migrating to the spleen. When mutants and wild types were challenged with an intravenous infection of 10^7 CFU of S. aureus, they showed similar immune responses. Samples of blood, liver, spleen, kidney and lymph nodes cultured three days after infection showed no difference in post infection bacterial load between mutant and wild type. Likewise, post-infection weight loss and percent survival were similar between mutant and wild type, suggesting that the innate immune response is functional in nBmp2NLStm mice. However, when mice were challenged with a secondary infection, immune response and spleen function were severely impaired. Mutant mice showed higher levels of bacteria remaining in the blood and had lower rate of survival to day 3 after secondary infection. In addition, CD4+ and CD8+ T-cell levels within mutant lymph nodes were significantly reduced, indicating that nBMP2 is involved in the secondary immune response. BMP2 calcium transport immunology infection lymphocytes nuclear localization spleen function T-cells Microbiology
107	Redundant structural motifs in a unique retroviral posttranscriptional control element mediate a novel mechanism of translational enhancement Roberts, Tiffiney Marie 07 November 2003 (has links) No description available. Biology, Molecular posttranscriptional control element retrovirus translational enhancement spleen necrosis virus RNA secondary structure RNA helicase A
108	Stress-induced suppression of natural killer cell activity during influenza viral infection: The role of glucocorticoids and opioids Tseng, Raymond J. 07 August 2006 (has links) No description available. influenza stress glucocorticoids opioids natural killer cells NK naltrexone naloxone cytokine cytotoxicity cellularity lung spleen
109	Tailoring the heterogeneous macrophage response to spinal cord injury towards neuroprotection Donnelly, Dustin James 28 September 2011 (has links) No description available. Biomedical Research Immunology Neurosciences spinal cord injury microglia macrophages CX3CR1 fractalkine spleen neuroimmunology
110	Immunotoxicity of Dermal Permethrin and Cis-Urocanic Acid: Effects of Chemical Mixtures in Environmental Health Prater, Mary R. 26 April 2002 (has links) The present study examined adverse effects of sunlight exposure (mimicked by intradermal cis-urocanic acid, cUCA) on local and systemic immune responses, with or without co-exposure to the immunotoxic insecticide permethrin. A single exposure to cUCA caused diminished splenic macrophage phagocytosis that was persistent up to 30 days post-exposure. Five-day exposure to cUCA subtly increased splenocyte proliferation in response to the T cell mitogen Concanavalin A. Four-week exposure to cUCA caused increased splenic lymphocyte cellularity, thymic hypocellularity, and enhanced hydrogen peroxide production by splenic leukocytes. Single exposure to topical permethrin resulted in decreased thymic and splenic weight and cellularity, and inhibited antibody production by splenic B cells. cUCA worsened the negative effect of permethrin on both thymic weight and cellularity, and depressed splenocyte blastogenesis, hydrogen peroxide production, and antibody production. Five-day exposure to either cUCA or permethrin also caused persistent decreased contact hypersensitivity responses, an effect that became more than additive when the chemicals were administered concurrently. Defects in antigen processing and presentation by cutaneous Langerhans cells were evaluated as possible contributing mechanisms to the cutaneous immunosuppression, using mice with deleted genes. Vehicle-exposed IFNg knockout mice displayed approximately a 22.1% depression in the ear swelling response as compared to control C57BL/6N mice, suggesting that this cytokine may be required for mounting a control-level hypersensitivity response. Ear swelling in cUCA-exposed IFNg knockout mice displayed a 21.4% depressed response as compared to cUCA-exposed wild-type C57BL/6N mice, again suggesting that IFNg is an important cytokine in the contact hypersensitivity (CH) response. TNFaR knockout mice exposed to cUCA displayed 33.9% greater ear swelling than cUCA-exposed wild-type C57BL/6N mice, suggesting that increased TNFa may be involved in inhibited CH by cUCA. TNFaR knockout mice exposed to permethrin displayed 33.9% greater ear swelling than permethrin-exposed C57BL/6N mice, suggesting that increased TNFa may also be involved in inhibited CH by permethrin. C57BL/6N mice exposed to cUCA + permethrin displayed severe reduction of the CH response to 8.7% of the control level. IFNg knockout mice exposed to permethrin + cUCA showed essentially identical depression of the CH response as IFNg knockout mice exposed to either permethrin or cUCA alone. These results suggest that IFNg is required for the greater than additive immunotoxic effect that occurred when these two agents were co-administered. TNFaR knockout mice exposed to cUCA + permethrin displayed 8.7 fold greater ear swelling than similarly exposed C57BL/6N mice, again suggesting that increased TNFa is involved in inhibited CH by both cUCA and permethrin. / Ph. D. Thymus Skin Ultraviolet irradiation CD1a Contact hypersensitivity IFNg Mouse TNFa Spleen Cis-urocanic acid Permethrin Immunotoxicity

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