The Humanized Mouse Model: The Study of the Human Alloimmune Response: A Dissertation

King, Marie A.

22 May 2008

The transplantation of allogeneic cells and tissues for the treatment of human disease has been a life-saving procedure for many thousands of patients worldwide. However, to date, neither solid organ transplantation nor bone marrow transplantation have reached their full clinical potential. Significant limitations to the advancement of clinical transplantation stem from our current inability to prevent the rejection of allogeneic tissues by the immune system of the host. Similarly, in patients that receive allogeneic bone marrow transplants, we cannot permanently prevent the engrafted immune system from mounting a response against the patient. This problem, termed graft versus host disease is the most prevalent cause of morbidity and mortality in recipients of allogeneic bone marrow transplants. Clinically, we rely on lifelong immunosuppression to prolong survival of allogeneic tissues within the host. Our currently available therapeutics burden patients with side-effects that range from being unpleasant to life-threatening, while in most cases offering only a temporary solution to the problem of alloimmunity. Efforts are underway to develop protocols and therapeutics that more effectively prevent the pathology associated with alloimmunity. To minimize patient risk, extensive pre-clinical studies in laboratory animals are conducted to predict clinical responses. In the case of immunologic studies, many of these pre-clinical studies are carried out in murine models. Unfortunately, studies of murine immunity often do not predict outcomes in the clinic. One approach to overcome this limitation is the development of a small animal model of the human immune system. In this dissertation, we hypothesized that NOD-scid IL2rγnull mice engrafted with human peripheral blood mononuclear cells (PBMC), termed the hu-PBMC-NOD-scid IL2rγnull model, would provide a model that more accurately reflects human immunity in vivo than other models currently available. To investigate this possibility, we first investigated whether NOD-scid IL2rγnull mice were able to support the engraftment of human PBMC. We found that NOD-scid IL2rγnull mice engraft with human PBMC at much higher levels then the previous gold standard model, the NOD-scid mouse. We then investigated the kinetics of human cell engraftment, determined the optimal cell dose, and defined the influence of injection route on engraftment levels. Even at low PBMC input, NOD-scid IL2rγnullmice reproducibly support high levels of human PBMC engraftment. In contrast to previous stocks of immunodeficient mice, we observed low intra- and interdonor variability of engraftment. We next hypothesized that the human PBMC engrafted in NOD-scid IL2rγnull mice were functional and would reject transplanted allogeneic human tissues. To test this, human islets were transplanted into the spleen of chemically diabetic NOD-scid IL2rγnull mice with or without intravenous injection of HLA-mismatched human PBMC. In the absence of allogeneic PBMC, the human islets were able to restore and maintain normoglycemia. In contrast, human islet grafts were completely rejected following injection of HLA-mismatched human PBMC as evidenced by return to hyperglycemia and loss of human C-peptide in the circulation. Thus, PBMC engrafted NOD-scid IL2rγnull mice are able to provide an in vivomodel of a functional human immune system and of human islet allograft rejection. The enhanced ability of NOD-scid IL2rγnull mice to support human cell engraftment gave rise to the possibility of creating a model of graft versus host disease mediated by a human immune system. To investigate this possibility, human PBMC were injected via the tail vein into lightly irradiated NOD-scid IL2rγnull mice. We found that in contrast to previous models of GVHD using human PBMC-injected immunodeficient mice, these mice consistently (100%) developed GVHD following injection of as few as 5x106PBMC, regardless of the PBMC donor used. We then tested the contribution of host MHC in the development of GVHD in this model. As in the human disease, the development of GVHD was highly dependent on host expression of MHC class I and class II molecules. To begin to evaluate the extent to which the PBMC-engrafted NOD-scid IL2rγnull humanized mouse model of GVHD represents the clinical disease, we tested the ability of a therapeutic in clinical trials to modulate GVHD in these mice. In agreement with the clinical experience, we found that interrupting the TNFα signaling cascade with etanercept delayed the onset and severity of disease in this model. In summary, we conclude that humanized NOD-scid IL2rγnull mice represent an important surrogate for investigating in vivo mechanisms of both human islet allograft rejection and graft versus host disease.

Immune System

Immunity

Models

Animal

Mice

Inbred NOD

Graft vs Host Reaction

Transplantation

Homologous

Graft Rejection

Animal Experimentation and Research

Cells

Hemic and Immune Systems

Surgical Procedures, Operative

Therapeutics

Tissues

Análise de populações leucocitárias em doadores de plaquetas e em câmara de leucorredução. / Analysis of leukocyte populations, in platelet donor, and in Leukoretuction System Chamber.

Andressa de Oliveira Dias Borges

05 December 2014

A doação de plaquetas por aférese é um procedimento automatizado que permite a obtenção deste hemocomponente em grande quantidade e com ato grau de pureza; deste processo obtém-se um subproduto chamado Câmara de Leucorredução (CLR) que é descartado ao final da doação. São permitidas até 24 doações/ano; porém as possíveis consequências de doações frequentes para esses doadores são pouco investigadas. Assim, foram identificados e quantificados os leucócitos de doadores de plaquetas frequentes e de 1ª vez. Também foi avaliada a viabilidade do uso das células mononucleares da CLR para pesquisas. Observou-se mais células na CLR que no sangue e que a frequência das populações é similar. O estado de ativação e a capacidade funcional (proliferação e produção de citocinas) foram similares entre CLR e sangue, assim como a taxa de apoptose espontânea. Entre doadores frequentes e de primeira vez não houve diferença no número de leucócitos, sugerindo que doações recorrentes não alteraram as populações leucocitárias. / Plateletpheresis is an automatized procedure to obtain high purity platelet for transfusions. From this procedure its possible to obtain a byproduct: The Leukoreduction system chamber (LRSC), which is discarded at the end of donation process. This type of donation allows 24 donation/year, but the consequences of frequent donations are poorly investigated. Therefore, we identified and quantified leukocytes of frequent and first time platelet donor. Also, was evaluated the viability, for research, of mononuclear cells recovery from LRSC. The total number of mononuclear cells was higher in LRSC than in peripheral blood samples, but the frequencies were similar in all the samples. Activation state and functional capacity (measured by cell proliferation and cytokine production) were similar in both, blood and LRSC mononuclear cells, as well as spontaneous apoptosis. Among frequent (6 or more donations in 1 year) and first time donor, there was no difference in the leukocyte total number, suggesting that frequent donation do not modify these cells.

Aférese

Ativação de linfócitos

Câmara de Leucorredução (CLR)

Células mononucleares

Citometria de fluxo

Doadores de plaquetas

Imunofenotipagem de leucócitos

Leucócitos

Apheresis

Flow cytometry

Leukocyte phenotiping

Leukocytes

Leukoreduction system chamber (LRSC)

Lymphocyte activation

Platelet donation

Diskriminierung von Kopf-Hals-Plattenepithelkarzinompatienten und gesunden Erwachsenen mittels 10 Fluoreszenz-Durchflusszytometrie: Entwicklung eines Scores basierend auf Leukozyten-Untergruppen

Gaede, Clara Friederike

21 December 2021

Background: Leukocytes in peripheral blood (PB) are prognostic biomarkers in head and neck squamous cell carcinoma cancer patients (HNSCC-CPs), but differences between HNSCC-CPs and healthy adults (HAs) are insufficiently described. Methods: 10-color flow cytometry (FCM) was used for in-depth immunophenotyping of PB samples of 963 HAs and 101 therapy-naïve HNSCC-CPs. Absolute (AbsCC) and relative cell counts (RelCC) of leukocyte subsets were determined. A training cohort (TC) of 43 HNSCC-CPs and 43 HAs, propensity score (PS)-matched according to age, sex, alcohol, and smoking, was used to develop a score consecutively approved in a validation cohort (VC). Results: Differences in AbsCC were detected in leukocyte subsets (p < 0.001), but had low power in discriminating HNSCC-CPs and HAs. Consequently, RelCC of nine leukocyte subsets in the TC were used to calculate 36 ratios; receiver operating characteristic (ROC) curves defined optimum cut-off values. Binary classified data were combined in a score based on four ratios: monocytes-to-granulocytes (MGR), classical monocytes-to-monocytes (clMMR), monocytes-to-lymphocytes (MLR), and monocytes-to-T-lymphocytes (MTLR); ≥3 points accurately discriminate HNSCC-CPs and HAs in the PS-matched TC (p = 2.97 × 10−17), the VC (p = 4.404 × 10−178), and both combined (p = 7.74 × 10−199). Conclusions: RelCC of leukocyte subsets in PB of HNSCC-CPs differ significantly from those of HAs. A score based on MGR, clMMR, MLR, and MTLR allows for accurate discrimination.

info:eu-repo/classification/ddc/610

ddc:610

Assessment of High Purity Mesenchymal Stromal Cells Derived Extracellular Vesicles Presenting NRP1 Show Functional Suppression of Activated Immune Cells

Gobin, Jonathan

04 January 2022

Background: The focus of this study was to investigate how producing human bone marrow (hBM) derived mesenchymal stromal cell (MSC) extracellular vehicles (EVs) in a high purity isolation system would affect their established characterization criteria and address the validity of these methods of EV production. Additionally, we set out to functionally characterize the hBM-MSC-EVs for their identified immunomodulatory ability while also assessing the presence of novel MSC-EV marker NRP1 identified by our group to further affirm its validity as a functional MSC-EV identity marker. Methods: Each hBM-MSC-EV donor was cultured in a hollow-fiber bioreactor system in non-stimulating serum/xeno-free conditions for 25 days to produce EVs persistently under quiescent conditions to characterize the hBM-MSC-EVs in their native form. EVs were isolated by traditional PEG-based precipitation for preliminary characterization to monitor bioreactor production wherein they were characterized using multimodal tangential flow filtration coupled with fast protein liquid chromatograph (FPLC) size exclusion/high-affinity purifications to obtain the final highly purified EV sample. Additionally, functional analysis of their immunomodulatory ability, EVs and MSCs were incubated with activated peripheral blood mononuclear cells (PBMCs) as an in-vitro model to evaluate their potency. Results: The hBM-MSC-EVs produced from the bioreactor system showed consistent characterization in accordance with the MISEV2018 establish criteria. We were also able to demonstrate their functional ability by observing statistically significantly immunomodulatory ability of activated PBMCs equivalent to native MSC ability. We were also able to validate the present of NRP1 on all hBM-MSC-EV samples produced confirming its validity as a MSC-EV marker. Conclusion: The significance of the results obtained from this study confirms the production of MSC-EV using a bioreactor and high purity isolation for obtaining consistent MSC-EVs for downstream investigation. Additionally, we were able to demonstrate the significance of MSC-EVs on MSC signaling for immunomodulation by showing equivalent functional potency when tested in-vitro. These results contribute to further understanding the biological attributes of MSC-EVs and contribute to the validation of currently established characterization guidelines.

Extracellular Vesicles (EVs)

NRP1

Mesenchymal Stromal Cells (MSCs)

Bioreactor

Tangential Flow Filtration (TFF)

Nanoparticle Trackning Analysis (NTA)

Immune Suppression

Characterization

Isolation

ISEV

ISCT

cGMP

Pre-clinical

Cell based therapy

The investigation of innate immune system memory in rag1-/- mutant zebrafish

Hohn, Claudia M

03 May 2008

The innate immune system in vertebrates is considered to lack specific memory. To investigate innate immune system based immunological protection mediated by cells that are not part of the acquired immune system the Tübingen recombination activation gene1 (rag1)t26683 mutant (MT) zebrafish was chosen. Molecular analysis demonstrated MT zebrafish kidney cells expressed Non-specific Cytotoxic cell receptor protein-1 (NCCRP-1) and Natural Killer cell (NK) lysin but lacked T cell receptor (TCR) and immunoglobulin (Ig) VH1, VH2, VH3 and VH4 expression. Differential counts of peripheral blood leukocytes indicated that MT fish had decreased lymphocyte populations (34.7%) compared to rag1+/+ wild-type (WT) fish (70.5%), and increased granulocyte populations (34.7%) compared to WT (17.6%). Further, endocytic functions of phagocytes from MT fish were compared to WT fish. No significant differences in the selective and non-selective mechanisms of uptake in phagocytes were observed between MT and WT zebrafish. For the first time it was shown that zebrafish phagocytes utilize macropinocytosis and Ca2+ dependant endocytosis mechanisms for antigen uptake. These characterization studies suggest that MT zebrafish provide a unique model for investigating innate immune responses because fully functional innate defenses are present without the influence of lymphocytes and lymphocyte associated acquired immune responses. To conduct such large scale investigations the first ongoing rag1t26683 mutant zebrafish breeding colony was established. To meet special husbandry needs of immunodeficient MT zebrafish, standard rearing protocols were advanced and the information was made available to the zebrafish community at: http://www.cvm.msstate.edu/zebrafish/index.html. Multiple trials were conducted to evaluate the potential for memory of the innate immune system. Significant reduction in mortality was observed in MT vaccinated zebrafish upon secondary exposure to Edwardsiella ictaluri when compared to unvaccinated, MT fish. This documents for the first time, that MT zebrafish, lacking an acquired immune system, are able to mount a protective immune response to Edwardsiella ictaluri and generate protection upon a repeated encounter to the same pathogen. The observed protection is long lasting and mediated by the innate immune system, but a specific mechanism is not yet defined.

FITC

flow cytometry

SNP

single nucleotide polymorphism

breeding

SPF

specific pathogen free

spawning

egg treatment

methylene blue

VIE

visible implant elastomer

oxolinic acid

mannose receptor

peripheral blood

zebrafish kidney

DNA

PCR

Immune response to Streptococcus pneumoniae polysaccharide vaccination and antigen-selected B cells in highly susceptible individuals

Leggat, David Jason

20 August 2014

No description available.

Aging

Biology

Biomedical Research

Cellular Biology

Health

Health Sciences

Immunology

Medicine

Microbiology

Streptococcus pneumoniae

pneumococcus

pneumovax

B cell

polysaccharide

vaccine

vaccination

elderly

HIV

B1

T cell independent

invasive pneumococcal disease

PPV23

HAART

newly diagnosed

peripheral blood

antigen specific

opsonophagocytic titer

Characterisation of nicotine binding sites on human blood lymphocytes

Wongsriraksa, Anong

January 2008

Nicotine exerts a therapeutic effect in ulcerative colitis (UC) but the mechanism underlying this effect, is not clear. However, this effect may imply that nicotine has some, as yet to be discovered, effect on the immune system. The aim of the work described in this thesis was to characterise the nicotinic acetylcholine receptors (nAChRs) on human peripheral blood lymphocytes in term of receptor subtype. To achieve this, a combination of radioligand binding assays, pharmacological and molecular biological techniques were used. The data obtained from the binding studies suggested that the presence of one binding site for (-)- nicotine on human peripheral blood lymphocytes with a Kd 15 ± 5.759 nM (1.5 ± 5.759 x 10-8 M) and Bmax 2253 ± 409 sites/cell. The competition studies showed that ligands competing with [3H]-(-)-nicotine were (-)-nicotine, epibatidine and α-bungarotoxin, while others ligands for nAChRs displaced radiolabelled nicotine in insignificant quantities. Thus, radioligand-binding experiments suggest that the binding site for nicotine on human peripheral blood lymphocytes is a nAChR containing α7 and possibly α4 or/and b2 containing nAChR subunits. No evidence was obtained to suggest the presence of a non-cholinergic nicotine receptor. Furthermore, considerable subject to subject variation in the specific binding of radiolabelled nicotine was observed. Because of this only tentative conclusions could be drawn from radioligand binding data. Polymerase chain reaction (RT-PCR) was then used to demonstrate mRNA for the subunits of nAChRs suggested by radioligand binding studies. Data obtained show that the human peripheral blood lymphocytes tested, expressed mRNAs for α4, α5, α7, β2 neuronal nAChRs subunits and β1 muscle nAChR subunit. Expression of the α5 mRNA subunit of nAChR was observed in the lymphocytes in each sample of lymphocytes tested. In contrast, the expression pattern of mRNAs for α4, α7, β1, and β2 mRNAs subunits of nAChRs, varied between individuals. Finally, Western blot analysis was used to confirm that mRNA expression resulted in the expression of protein for nAChR subunits in human peripheral lymphocytes using monoclonal antibodies against α4, α5, α7, and β2 nAChR subunits, which had been detected by RT-PCR. The results obtained from the Western blot analysis show that protein for α4, α5, and α7 nAChR subunits was expressed in most, but not all of the human peripheral blood lymphocyte samples tested and some of the bands obtained were faint. In contrast, protein for the β2 nAChR subunit was observed in a few samples tested and the bands were faint. From the results obtained in this study, it is possible to conclude that human peripheral blood lymphocytes may contain nAChRs with subunit compositions of α4β2, α4β2α5, and/or α7. However, further studies are necessary to show whether or not the single binding site for nicotine demonstrated by radioligand binding experiments is due to one or all of these nAChRs. Thus, the findings of the present study suggest the presence of nAChR on human peripheral blood lymphocytes. Nicotine and its effect may occur through these non- neuronal nAChRs mechanisms. Such a mechanism of action could account for the beneficial of nicotine in ulcerative colitis. Furthermore, a compound that acts on these receptors, but not on nAChRs found on other cells may have therapeutic utility in the treatment of inflammation.

615.1

Immunothérapie cellulaire de la leucémie aiguë lymphoblastique de l'enfant à partir de sang de cordon dans un modèle murin xénogénique

Durrieu, Ludovic

06 1900

La leucémie aigüe lymphoblastique de précurseurs des cellules B (pré-B LAL) est le cancer le plus fréquent chez l’enfant. La transplantation de cellules souches hématopoïétiques (TCSH) est nécessaire dans environ 20 à 30 % des enfants ayant une pré-B LAL. Les rechutes après TCSH sont habituellement réfractaires aux thérapies actuelles, et par conséquent, il est important de développer et d’optimiser de nouvelles stratégies thérapeutiques. Dans cette étude, nous nous sommes intéressés aux cellules « cytokine-induced killer » (CIK). En effet, ces cellules ont été montrées comme hautement cytotoxique contre beaucoup de types de cancers. Cependant, leur activité cytotoxique contre les pré-B LAL n’est pas vraiment efficace. Par conséquent, nous avons étudié la possibilité de combiner l’immunothérapie des cellules CIK avec l’interféron alpha (IFN-α) afin d’optimiser l’activité lytique de ces cellules contre les cellules pré-B LAL. De plus, vu qu’il a été démontré que l’activité cytotoxique des cellules CIK provient de la fraction CD56+, plus particulièrement les cellules CD3+CD56+, nous avons décidé d’utiliser la fraction CD56+ (cellules CD56+) dans l’ensemble de nos expériences. Nous avons observé in vitro que les cellules CD56+ lysent mieux les lignées cellulaires pré-B LAL comparativement aux cellules CIK non purifiées. Aussi, leur activité cytotoxique peut être augmentée par le traitement avec l’IFN-α. Par ailleurs, nous avons démontré l’efficacité des cellules CD56+ traitées par l’IFN-α contre les lignées cellulaires pré- B LAL in vivo, dans le modèle de souris NOD/SCID/gamma c- (NSG). La survie des souris est significativement prolongée lorsqu’elles reçoivent les cellules pré-B LAL avec les cellules CD56+ traitées par l’IFN-α. Nous avons par la suite étudié le mécanisme d’action des cellules CD56+ contre les lignées cellulaires pré-B LAL. Nous avons observé que les cellules CD56+ provenant de sang de cordon sont plus efficaces que les cellules CD56+ provenant de sang I périphérique pour tuer les lignées cellulaires pré-B LAL. Nous avons également montré que les cellules CD56+ utilisent seulement la voie NKG2D ou bien les voies NKG2D et TRAIL selon la lignée cellulaire pré-B LAL cible et selon la provenance de la source des cellules CD56+. Par ailleurs, nous avons remarqué que les cellules CIK sont sensibles à l’apoptose par Fas, et que cette sensibilité influence leur activité cytotoxique contre les cellules tumorales. En conclusion, les cellules CD56+ sont cytotoxiques contre les lignées cellulaires pré-B LAL, et leur effet lytique est augmenté par l’IFN-α aussi bien in vitro qu’in vivo dans le modèle de souris NSG. Ces données précliniques sont encourageantes pour tester cette nouvelle approche d’immunothérapie dans le traitement contre la pré-B LAL. / Precursor B-cell acute lymphoblastic leukemia (B-ALL) is the most common form of leukemia in children. Hematopoietic stem cell transplantation (HSCT) is required in around 20 to 30% of children with a B-ALL. The relapses occuring post-HSCT are usually insensitive to current therapy. Therefore, it is important to develop and optimize a new therapeutic strategy. In this study, we were interested to study « cytokine-induced killer » (CIK) cells. These cells have been shown to be very cytotoxic against many types of tumor. However, their cytotoxic activity against B-ALL cells is not very efficient. Consequently, we have studied the effect of combining adoptive immunotherapy of CIK cells with the interferon alpha (IFN-α) to increase their lytic activity against B-ALL cells. In addition, in the literature, the cytotoxic activity of CIK cells has been shown to come from the CD56+ fraction (CD56+ CIK), in particular CD3+CD56+ cells. Therefore, we used the CD56+ fraction in all the experiments. We have observed in vitro that CD56+ CIK cells killed more efficiently B-ALL cell lines than did non-purified CIK cells. Also, their cytotoxic activity could be enhanced with IFN-α. Moreover, we have demonstrated the efficacy of IFN-α-treated-CD56+ CIK cells against B-ALL cell lines in vivo in the model of NOD/SCID/gamma c- (NSG) mice by showing that the survival of mice injected with B-ALL cell lines was significantly increased when they were injected with IFN-α-treated-CD56+ CIK cells. Subsequently, we have studied the lytic mechanism of CD56+ CIK cells against B-ALL cell lines. We have observed that CD56+ CIK cells from cord blood were more efficient than CD56+ CIK cells from peripheral blood to kill B-ALL cell lines. CD56+ CIK cells used only the NKG2D pathway or the both NKG2D and TRAIL pathways depending on the B-ALL cell line and the source of CIK cells. In addition, we showed that CIK cells were sensitive to Fas apoptosis. This sensitivity III influenced the cytotoxic activity of CIK cells against tumor cells. In conclusion, CD56+ CIK cells are cytotoxic against B-ALL cell lines, and their effect can be increased with IFN-α in vitro and in vivo. Taken together, our pre-clinical data are very interesting for testing the potential clinical utility of purified CD56+ CIK cells as an immunotherapeutic strategy for B- ALL patients.

Leucémie aiguë lymphoblastique

Souris nsg

Sang de cordon

Sang périphérique

Nkg2d

Trail

Cytokine-induced killer cells

Acute lymphoblastic leukemia

Nsg mice

Immunotherapy

Cord blood

Peripheral blood

Immunothérapie

Untersuchungen zum differenzierten Wirkungsprofil von Glucocorticoiden in humanen mononukleären Zellen des peripheren Blutes

Naumann, Lydia

16 February 2005

Qualitativ unterschiedliche genomische und nichtgenomische Mechanismen vermitteln die starken anti-inflammatorischen und immunmdulatorischen Eigenschaften der Glucocorticoide (GC). Der genomisch vermittelte Mechanismus ist bereits gut untersucht und dokumentiert, während der nichtgenomisch vermittelte Mechanismen noch einen Gegenstand vielseitiger Untersuchungen darstellt. Wir haben uns daher die Frage gestellt, ob Beclometason und Clobetasol besonders geeignet für die topische Applikation sind, weil sie sich in ihrem Wirkungsspektrum von systemisch zu applizierenden GC wie Dexamethason unterscheiden. Wir verglichen dazu die Effekte auf den Sauerstoffverbrauch mittels der Clark-Elektrode (nichtspezifisch nichtgenomischer Mechanismus), auf die IL-6-Synthese mittels ELISA (genomischer Mechanismus) und auf die Apoptose mittels Durchflusszytometrie (nichtgenomischer und genomischer Mechanismus) in ruhenden und stimulierten humanen PBMC. Dabei zeigten Beclometason und Clobetasol in sehr niedrigen Konzentrationen (10-10, 10-8 M) einen stärkeren Effekt auf den Sauerstoffverbrauch, waren aber in hohen Konzentrationen (10-5, 10-4 M) weniger potent im Vergleich zu Dexamethason. Auch hinsichtlich ihrer genomischen Potenz waren die topischen GC in einer Konzentration von 10-10 M und 10-8 M effektiver als Dexamethason, in höheren Konzentrationen unterschieden sie sich aber nicht. Alle drei GC induzierten Apoptose konzentrationsabhängig und unterschieden sich nicht in Konzentrationen zwischen 10-8 M und 10-5 M. In einer Konzentration von 10-4 M war die Induktion von Apoptose durch die topischen GC in PBMC und Jurkat-T-Zellen aber signifikant stärker im Vergleich zu Dexamethason. Diese Ergebnisse zeigen, dass sich topische und systemische GC in ihrer genomischen und nichtgenomischen Potenz signifikant unterscheiden. Es ist daher davon auszugehen, dass nichtgenomische Effekte eine deutlichere klinische Relevanz besitzen als bisher angenommen. / Several different genomic and non-genomic mechanisms mediate the important anti-inflammatory and immunomodulatory effects of glucocorticoids (GCs). The genomic effects are the most important while the clinical relevance of non-genomic actions is still a matter of debate. We therefore investigated whether beclomethasone and clobetasol are particularly suitable for topical application because they differ in their spectrum of activity from systemically administered GCs such as dexamethasone. We compared effects on oxygen consumption as measured with a Clark electrode (nonspecific non-genomic glucocorticoid effects), on interleukin-6 synthesis by means of ELISA (genomic effects) and on apoptosis using flow cytometry (non-genomic and genomic effects) in quiescent and mitogen-stimulated PBMCs. Beclomethasone and clobetasol had stronger effects on the oxygen consumption of quiescent and stimulated cells at lower concentrations (10-10, 10-8 M) but were less potent at higher concentrations (10-5, 10-4 M) in comparison with dexamethasone. Also in terms of genomic potency, topical GCs were more effective than dexamethasone at 10-10 M and 10-8 M but gave similar results at higher concentrations. The ability of all three GCs to induce apoptosis was found to be concentration-dependent and similar at concentrations between 10-8 and 10-5 M but, compared with 10-4 M dexamethasone, 10-4 M beclomethasone or clobetasol was significantly more effective at inducing apoptosis in both PBMCs and Jurkat T cells. These results show that systemic and topical GCs differ significantly in their ability to induce genomic and non-genomic effects. This suggests that non-genomic effects are more therapeutically relevant in certain clinical conditions than currently assumed.

Apoptose

Interleukin-6

systemische und topische Glucocorticoide

Sauerstoffverbrauch

apoptosis

interleukin-6

systemic and topical glucocorticoids

human peripheral blood mononuclear cells

oxygen consumption

610 Medizin

33 Medizin

VS 7707

XI 4604

XI 4690

ddc:610

Análise da mobilização e resultados do transplante de células-tronco hematopoiéticas autogênico (TCTHa) com alta hospitalar precoce nos portadores de doenças hematológicas / Analysis of mobilization and autologous hematopoietic stem cells (HSCT) outcomes with early hospital discharge in patients with hematological diseases

Barban, Alessandra

15 July 2013

padrão utilizado para algumas doenças hematológicas e também na consolidação do tratamento de outras doenças. O aumento da demanda de pacientes que necessitam deste tratamento fez com que fossem criados alguns modelos de transplante ambulatorial. A alta precoce é uma modalidade de transplante em que o paciente recebe alta hospitalar após o regime de condicionamento e infusão das células-tronco hematopoiéticas (CTH) e a continuidade do seu tratamento ocorre em regime ambulatorial. Na área da Enfermagem, o número limitado de estudos científicos relacionados à Assistência de Enfermagem nos pacientes submetidos ao TCTH com alta hospitalar precoce são ainda deficientes. Diante disso, o objetivo deste estudo foi analisar os resultados da alta hospitalar precoce como alternativa viável ao tratamento dos pacientes submetidos ao TCTHa e sua relação com a assistência de enfermagem. MÉTODO: Estudo retrospectivo, quantitativo, descritivo e transversal. Foram analisados prontuários de 112 pacientes consecutivos submetidos ao TCTHa, no período de janeiro a dezembro de 2009. Destes 12 pacientes não receberam alta hospitalar da unidade de internação até o décimo dia após o TCTH (D+10) e, por isso, foram excluídos, restando 100 pacientes. RESULTADOS: A mediana de idade foi de 48,5 anos (19-69 anos). Houve um pareamento não intencional do sexo. Todos os pacientes mobilizaram e coletaram CTH por fonte periférica. Os regimes de condicionamento mais utilizados foram BU12+Mel100 e BEAM 400. As toxicidades atribuídas ao regime de condicionamento foram bem conduzidas no ambulatório, expressa por 10 pacientes que necessitaram de internação, embora um grande número de pacientes da casuística apresentou algum grau de toxicidade. A neutropenia febril esteve presente em 58% dos pacientes até a enxertia medular. Não houve aumento na mortalidade na fase de aplasia medular; dois pacientes foram a óbito por causas infecciosas durante os 60 primeiros dias após o TCTH, sendo que apenas um não apresentava enxertia medular. A mediana de enxertia de granulócitos após o TCTHa com alta hospitalar precoce foi de 12 dias e de plaquetas 15 dias, com mediana de transfusões até a alta do serviço de três concentrados de hemácias e quatro concentrados de plaquetas. Vinte e três pacientes necessitaram de internação hospitalar em algum momento desde a alta hospitalar após o transplante até o momento de sua alta. CONCLUSÃO: A equipe de enfermagem apresenta papel fundamental no contexto da alta hospitalar precoce na conduta e manejo dos pacientes. O Enfermeiro participou na orientação e condutas durante a fase de mobilização, transplante e acompanhamento ambulatorial. A mediana de tempo para enxertia medular foi de 12 dias e durante a fase de aplasia os pacientes evoluíram com baixa internação e infecção. Houve baixa incidência de complicações e internações, sendo a toxicidade ao regime de condicionamento a maior causa de internação. As toxicidades ao regime de condicionamento apresentadas foram bem manejadas em regime ambulatorial também pela Equipe de Enfermagem / The autologous hematopoietic stem cell transplantation (HSCTa) is a standard treatment used for some hematological malignancies and also in consolidating the treatment of other diseases. The increased number of patients who need this treatment leads to new models of outpatient transplant. The early discharge is a type of transplant in which the patient is discharged after the conditioning regimen and infusion of hematopoietic stem cells (HSC) and the continuity of your treatment will occur in outpatient settings. Although the models of outpatient HSCT are well defined, there is few studies and publications that demonstrate the actual results of this modality. In the field of nursing, the limited number of scientific studies related to nursing care in HSCT patients with early hospital discharge are even more deficient. Thus, the aim of this study was to analyze the results of early discharge as a viable alternative to the treatment of patients undergoing HSCTa and its relationship to nursing care. Methods: A retrospective, quantitative, descriptive and cross study was performed. A total of 112 patients initially enrolled, 12 were excluded due to the discharged occurred after than tenth day after HSCTa (D +10) and, therefore, 100 patients were enrolled in the study. Results: The median age was 48.5 years (range: 19-69 years). There was an unintentional pairing of sex. All patients were mobilized and collected by HSC peripheral source. The conditioning regimens were used more BU12 + Mel100 and BEAM 400. The conditioning regimen-related toxicities was well at the clinic, expressed by 10 patients who required hospitalization, although a large number of patients in the sample had some degree of toxicity. Febrile neutropenia was observed in 58% of patients until the marrow engraftment. There was no increase in mortality in bone marrow aplasia phase, two patients (2%) died of infectious causes during the first 60 days after HSCTa, and only one patient showed no engraftment. The median granulocyte engraftment after HSCTa with early hospital discharge was 12 days and platelets 15 days, with a median transfusion until discharge from the service three and four units of blood transfused platelet concentrates. Twenty-three patients required hospitalization at some time from hospital discharge after transplantation until the time of his discharge. Conclusion: The nursing team has key role in the context of early hospital discharge in the conduct and management of patients. The nurse participated in the orientation and conduct during the mobilization phase, and outpatient transplant. The median time to engraftment was 12 days and during the aplasia phase of the patients improved, with low infection and hospitalization. There was a low incidence of complications and hospitalizations, and the toxicity conditioning regimen the leading cause of hospitalization. The toxicities presented to the conditioning regimen were well managed on an outpatient basis also for the Nursing Team

Alta do paciente

Cuidados de enfermagem

Drug toxicity

Hematopoietic stem cell mobilization

Infecção

Infection

Nursing care

Patient discharge

Resultado de tratamento

Toxicidade de drogas

Transplantation autologus/nursing

Transplantation conditioning/nursing

Transplante autólogo/enfermagem

Treatment outcome