Regulation of natural killer and cd4+T cell function by NKG2 C-type lectin-like receptors

Sáez Borderias, Andrea

20 February 2009

This work is centered on the study of the NKG2 C-type lectin-like receptors on NK and CD4+T cells. We provide evidence supporting that CD4+T cells specific for Human Cytomegalovirus (HCMV) may express different NK cell receptors, and demonstrate that the C-type lectin-like receptor NKG2D is expressed on cytotoxic CD4+T cells with an effector/memory phenotype, enhancing their TCR-dependent proliferation and cytokine production. A second part of the work is centered on the study of the CD94/NKG2 receptors on NK cells. We show that NKG2A can be induced on NKG2C+ NK cells upon activation with rIL-12 or when cocultured with HCMV-infected dendritic cells, and that NKG2A expression inhibits the response of NKG2C+NK clones against HLA-E-expressing targets, providing a potential regulatory feedback mechanism to control cell activation. Altogether, our results support that expression of NKG2 C-type lectin like receptors may be shaped during the course of viral infections, providing mechanisms to finely regulate both NK and CD4+T cell functions. / Aquesta tesi es centra en l'estudi dels receptors lectina de tipus C NKG2 en cèl·lules Natural Killer i T CD4+. Demostrem que les cèl·lules T CD4+ específiques pel Cytomegalovirus Humà poden expressar diferents receptors NK, i que el receptor lectina tipus C NKG2D s'expressa en cèl·lules citotòxiques i de memòria, potenciant la proliferació i secreció de citocines depenent del TCR. La segona part d'aquesta tesi es centra en l'estudi de l'expressió dels receptors CD94/NKG2 en cèl·lules NK. Mostrem com l'expressió de CD94/NKG2A s'indueix en cèl·lules CD94/NKG2C+ estimulades amb IL-12 o cultivades amb cèl·lules dendrítiques infectades pel Cytomegalovirus Humà, i que l'expressió de CD94/NKG2A inhibeix la resposta de clons NK CD94/NKG2C+ envers dianes HLA-E+, constituint un possible mecanisme de feedback negatiu per controlar l'activació cel·lular. En resum, els nostres resultats demostren que l'expressió dels receptors lectina tipus C NKG2 pot ser modificada durant les infeccions víriques consitutint un possible mecanisme per regular la resposta tant de cèl·lules NK com T CD4+.

Human Cytomegalovirus

CD94/NKG2

KIR

ILT2

NKG2D

C-type lectin-like receptors

Natural Killer cell Receptors

CD4+T cells

Natural Killer cells

57

The Role of Plasmacytoid Dendritic Cells and Natural Killer Cells in Systemic Lupus Erythematosus

Hagberg, Niklas

January 2014

Systemic lupus erythematosus (SLE) is an autoimmune disease characterized by autoantibody production, which can eventually lead to immune complex (IC)-mediated organ damage. Due to the stimulation of plasmacytoid dendritic cells (pDC) by nucleic acid-containing ICs (DNA- or RNA-IC), patients with SLE have an ongoing interferon (IFN)-α production. IFN-α induces a general activation of the immune system that may initiate or propagate an autoimmune process if not properly regulated. Previous studies have shown that natural killer (NK) cells potently enhance the IFN-α production by pDCs. In study I, the mechanisms behind the NK cell-mediated increased IFN-α production by RNA-IC-stimulated pDCs were investigated. ICs triggered CD56dim NK cells via FcγRIIIA to the secretion of cytokines (e.g. MIP-1β) that promoted IFN-α production. Additionally, an LFA-1-dependent cell-cell interaction between pDCs and NK cells strongly contributed to the increased production of IFN-α. In study II, the RNA-IC-induced regulation of surface molecules on pDCs and NK cells was investigated. The expression of CD319 and CD229, which are two SLAM family receptors genetically associated with SLE, was induced on pDCs and NK cells by RNA-IC. IFN-α-producing pDCs displayed an increased expression of CD319 and CD229, whereas pDCs from patients with SLE had a decreased expression of CD319. In study III, we serendipitously identified an SLE patient harboring autoantibodies to the NK cell receptor CD94/NKG2A. In study IV, sera from 203 patients with SLE were analyzed for autoantibodies to the CD94/NKG2A, CD94/NKG2C and NKG2D receptors. Seven patients harbored anti-CD94/NKG2A autoantibodies, and two of these patient’s autoantibodies also reacted with CD94/NKG2C. Anti-CD94/NKG2A and anti-CD94/NKG2C autoantibodies both interfered with the HLA-E-mediated regulation of NK cell cytotoxicity, and facilitated the elimination of target cells expressing these receptors. Furthermore, these autoantibodies were found in a group of severely diseased SLE patients and their titers closely followed disease activity. In conclusion, this thesis provides insights to molecular mechanisms whereby NK cells regulate the IFN-α production, it further links the SLAM receptors to SLE, and it describes novel autoantibodies to receptors regulating NK cell cytotoxicity. Together these findings strengthen the assumption that NK cells are involved in the pathogenesis of SLE.

Systemic lupus erythematosus

plasmacytoid dendritic cells

natural killer cells

type I interferon

immune complex

SLAM receptors

autoantibodies

CD94/NKG2A

CD94/NKG2C

Étude génétique et fonctionnelle des Interferon-producing Killer Dendritic Cells

Guimont-Desrochers, Fanny

12 1900

L’idée qu’une cellule puisse effectuer la cytolyse de cellules transformées, comme une cellule Natural Killer (NK), tout en ayant la capacité de présenter des antigènes, comme une cellule dendritique (DC), peut sembler fantaisiste. Cependant, de telles cellules furent bel et bien identifiées chez la souris en 2006. Ces cellules, nommées Interferon-producing Killer Dendritic Cells (IKDC), furent l’objet d’une caractérisation extensive qui révéla leur énorme potentiel immunologique. La combinaison de fonctions associées à des cellules NK et à des DC a doté les IKDC d’un pouvoir antitumoral remarquable. D’ailleurs, il a été démontré que les IKDC sont plus efficaces que les cellules NK pour limiter la croissance tumorale. Ainsi, suite à leur découverte, les IKDC ont suscité beaucoup d’intérêt. Cependant, une controverse émergea sur la nature des IKDC. Plusieurs groupes indépendants tentèrent de reproduire les expériences attestant les fonctions de DC des IKDC, sans y parvenir. De plus, des études additionnelles révélèrent que les IKDC possèdent des similitudes très importantes avec les cellules NK. Ces observations ont mené la communauté scientifique à suggérer que les IKDC sont des cellules NK en état d’activation (aNK). Malgré cette controverse, les caractéristiques antitumorales des IKDC sont si uniques et considérables qu’il est primordial de poursuivre l’étude de ces cellules. Pour y arriver, il est essentiel de déterminer la nature des IKDC et de mettre fin à ce débat. Par la suite, il sera important d’identifier des façons de cibler spécifiquement les IKDC pour permettre leur usage dans le cadre de thérapies antitumorales. Ainsi, l’objectif de cette thèse est de définir l’identité des IKDC, puis de déterminer les facteurs génétiques responsables de la régulation de ces cellules. Nous avons démontré que les IKDC ne sont pas des cellules aNK, contrairement à ce qui avait été suggéré. Nous avons constaté que les IKDC prolifèrent activement et possèdent un phénotype unique, des caractéristiques associées à des cellules NK très immatures. Afin de déterminer si les IKDC peuvent acquérir un phénotype mature, nous avons effectué des expériences de transfert adoptif. Suite à leur injection in vivo, les IKDC acquièrent un phénotype de cellules matures, mais étonnamment, elles se différencient aussi en cellules NK. Ainsi, nous avons révélé que les IKDC sont un intermédiaire dans la différenciation des cellules NK. En parallèle, nous avons démontré que la proportion d’IKDC varie grandement entre des souris de fond génétique différent, indiquant que des facteurs génétiques sont impliqués dans la régulation de ces cellules. Nous avons alors effectué une analyse génétique qui a révélé que les IKDC sont régulées par des facteurs génétiques compris dans une région distale du chromosome 7. Les résultats présentés dans cette thèse constituent une avancée importante pour la recherche sur les IKDC. Ils ont permis de définir la nature des IKDC et d’identifier un intervalle génétique impliqué dans la régulation de ces cellules. Ces découvertes sont des connaissances précieuses pour l’identification des IKDC chez l’Homme et la création de nouvelles thérapies dans la lutte contre le cancer. / The idea that a cell could kill transformed cells, like a Natural Killer (NK) cell, all the while exhibiting also the capacity to present antigens to T cells, like a Dendritic Cell (DC), may seem farfetched. However, in mice, a cell presenting these specific properties was identified in 2006. These cells were named Interferon-producing Killer Dendritic Cells (IKDC) and extensive studies revealed that they were endowed with an important immunological potential. Indeed, the fact that IKDCs exhibit properties of both DC and NK cells conferred them with an exceptional anti-tumor potential. Notably, on a per cell basis, the in vivo anti-tumor activity of IKDCs is more efficient than NK cells. Therefore, following their identification, IKDCs showed great therapeutic promise. However, a debate on the cell lineage origin of IKDCs emerged. Several independent groups could not replicate the finding that IKDCs showed functional antigen-presentation properties similar to DCs. Also, additional studies revealed that IKDCs are very similar to NK cells. These and other observations led the scientific community to believe that IKDCs were activated NK cells. Despite this controversy, IKDCs clearly exhibit a unique and outstanding anti-tumor potential, highlighting the relevance to further explore these cells. We must first close the debate regarding the lineage origin of IKDCs. We subsequently need to identify a means to specifically target IKDCs to facilitate their use in novel anti-tumor therapies. Thus, the objective of my thesis is first, to define the identity of IKDCs and second, to determine the genetic factors implicated in the regulation of these cells. For the first objective, we demonstrated that IKDCs do not represent activated NK cells, as previously suggested. We show that IKDCs are highly proliferative and exhibit a unique phenotype associated with very immature NK cells. In an attempt to verify if IKDCs could acquire a mature phenotype, we conducted an adoptive transfer experiment. We found that, after adoptive transfer, IKDCs adopt a mature phenotype, but also surprisingly differentiate into NK cells. These findings indicate that IKDCs represent an intermediate in NK-cell differentiation. For the second objective, we demonstrated that the IKDC proportion was highly variable between strains of different background origins, indicating that these cells are regulated by genetic factors. A genetic study revealed that genetic factors in distal arm of chromosome 7 associate with the proportion of IKDCs. The results presented in this thesis represent an important breakthrough for the research on IKDCs. They allowed to define the cell lineage origin of IKDCs and to identify a genetic region involved in the regulation of this cell type. These discoveries are valuable knowledge for the identification of human IKDCs and the development of novel anti-tumor therapies.

Cellules dendritiques

Cellules Natural Killer

Immunogénétique

Immunogenetics

Natural Killer cells

Dendritic cells

Effects of murine cytomegalovirus infection on dendritic cell functionality and natural killer cell responses

Andrews, Daniel Mark

January 2004

Cytomegaloviruses (CMVs) are ubiquitous in nature, having evolved over many millenia with their hosts. While in healthy hosts most infections with CMV are asymptomatic, the virus can cause severe disease in immunocompromised hosts. Thus, the increase in organ transplantation and the HIV/AIDS pandemic have established human CMV (HCMV) as a clinically important pathogen. Indeed, HCMV infections are now the major cause of morbidity and mortality among immunocompromised patients, which has led to more research targeting CMV for effective anti-viral treatment. The discovery that cytomegaloviruses encode several genes which are involved in immune escape has prompted a new area of research, aimed at understanding immune escape mechanisms for exploitation as potential anti-viral therapeutics. By targeting the viral proteins directly, or their receptors in the host, it may be possible to treat CMV disease by agonistic/antagonistic therapy. The first part of this thesis describes the first demonstration of anti-NK1.1 staining in situ to identify NK cells using a modified in vivo perfusion/fixation method. Using this method, we have compared the acute NK1.1+ cellular response to wild-type MCMV infection in the visceral organs of genetically susceptible intra-NK complex recombinant BALB.B6-CT6 (Cmv1s, NK1.1+) mice with resistant C57B⁄J (Cmv1r, NK1.1+) and BALB.B6-Cmv1r mice (Cmv1r, NK1.1+). Expression of viral antigens and the consequences of infection on other cellular subsets, were also analyzed in this study. The data show that in susceptible mice (Cmv1s) MCMV infection is predominent in the marginal zone of splenic white pulp, resulting in local changes in various cellular constituents, including macrophages, NK cells and DC. In the liver, distinct foci of infection were comprised of large numbers of macrophages and NK1.1+ cells surrounding infected cytomegalic cells. In resistant mice (Cmv1r), 6 MCMV infection predominantly affected the red-pulp of the spleen and was associated with increased accumulation of NK1.1+ cells and macrophages at sites of viral infection

Cytomegaloviruses -- Molecular aspects

Cytomegaloviruses -- Animal models

Immune response -- Molecular aspects

Dendritic cells -- Immunology

Mice -- Viruses

Murine cytomegaloviruses

Natural killer cells

Cross talk

Local immune regulation in human pregnancy : with focus on decidual macrophages /

Gustafsson, Charlotte,

January 2007

Diss. (sammanfattning) Linköping : Linköpings universitet, 2007. / Härtill 4 uppsatser.

MHC control of virus immunity through NK cells

Xie, Xuefang.

January 2009

Thesis (Ph. D.)--University of Virginia, 2009. / Title from title page. Includes bibliographical references. Also available online through Digital Dissertations.

Defining how polymorphisms at the SLAM family locus affect NK and T cell function

Mooney, Jill Marie.

January 2006

Thesis (Ph.D.) -- University of Texas Southwestern Medical Center at Dallas, 2006. / Not embargoed. Vita. Bibliography: 181-228.

Role of the Intestinal Immune System in the Pathogenesis of Autoimmune Diabetes in the BB Rat Model of Type 1 Diabetes Mellitus

Todd, Derrick James

11 June 2001

The intestine is the largest lymphoid organ in the body, challenged constantly by an enonnous quantity and diversity of antigens. Distinct from peripheral lymphocytes, intestinal lymphocytes have evolved unique mechanisms of tolerance and appear to govern mucosal processes such as "chronic physiologic inflammation" and oral tolerance. Failure of mucosal tolerance has been implicated in the pathogenesis of several diseases, including inflammatory bowel disease, celiac disease, and even autoimmune diabetes. One population of intestinal lymphocytes, intraepithelial lymphocytes (IELs), exists within the intestinal epithelium itself and remains poorly characterized. IELs respond to unique activation signals and appear to be in part responsible for the maintenance of epithelial integrity and mucosal tolerance. Type 1 diabetes is one of the most common chronic childhood illnesses and causes significant morbidity and mortality. Type 1 diabetes mellitus is an autoimmune disease that results from immune-mediated destruction of insulin-producing pancreatic beta cells and is characterized by an absolute insulin deficiency. Several animal models are used to study the immunopathogenesis of type 1 diabetes, including the BB rat and NOD mouse. BBDP rats spontaneously develop autoimmune diabetes mellitus and are severely deficient in peripheral T cells. BBDR rats do not spontaneously develop autoimmune diabetes, have nonnal numbers of peripheral T cells, and can be induced to become diabetic by injections of a cytotoxic anti-ART2a mAb and low doses of poly I:C. The cause of autoimmune diabetes in BB rats and humans is still unknown, but both genetic and environmental factors appear to participate. I hypothesize that one important class of environmental factors--diet and enteromicrobial agents--participates in this pathogenic process through the mediation of the gut immune system. In this dissertation, I report a new method for the isolation of rat IELs that is based on the selective removal of intestinal epithelial cells under conditions that leave the basement membrane undisturbed. The yield of rat IELs using this method is 5-10 fold greater than that reported for other methods. Morphological and phenotypic analyses demonstrate that the purified cell population is comprised of IELs and is not contaminated with lamina propria or Peyer's patch lymphocytes. Phenotypic analysis reveals 5 major subsets of IELs, including populations of γδ T and natural killer (NK) cells present at levels not previously detected. I also report that rat intraepithelial NK (IENK) and peripheral NK cells are similar in morphology, in their ability to lyse NK-sensitive targets, and in their ability to suppress a one-way mixed lymphocyte culture. In contrast, IENK cells differ from splenic NK cells phenotypically, and a substantial fraction of IENK cells appear to spontaneously secrete IL-4 and/or IFN-γ. I conclude that rat IELs harbor a large population of NKR-P1A+ CD3-cells that function as NK cells but display an activated phenotype and unusual cytokine profile that clearly distinguish them from splenic NK cells. Their phenotypic and functional characteristics suggest that these distinctive intraepithelial NK cells may participate in the regulation of mucosal immunity. I next demonstrate that, prior to diabetes, both BBDP and ART2a-depleted BBDR rats have a reduced total number of IELs and exhibit a selective deficiency of IENK cell number and function as compared to control BBDR rats. The deficiency of BBDP rat IELs can be corrected by engraftment of bone marrow from histocompatible WF donors. These results suggest 1) that the peripheral lymphopenia in BBDP rats extends to the IEL compartment, particularly to IENK cells, 2) that in BBDR rats the diabetes-inducing treatment depletes IELs, particularly IENK cells, and 3) that the defect in BBDP rat IELs is intrinsic to hematopoietic cells, not intestinal stromal cells. I also establish that, unlike BBDR and WF rats, BBDP rats are also deficient in γδTCR+IELs, a population of T cells that may play a role in normal mucosal tolerance. In addition, I report preliminary data supporting the hypothesis that systemic autoreactivity may be initiated in the intestine; peripheral autoreactive lymphocyte populations appear to emanate first from mesenteric lymph nodes that drain the intestine, and such cells may initiate a type 2 autoimmune phenomenon driven by IL-4. Collectively, my findings support the hypothesis that a failure of mucosal tolerance in BBDP rats, perhaps secondary to deficiencies in one or more IEL subpopulations, participates in the pathogenesis of autoimmune diabetes in these animals by activating peripheral autoreactive T cells. The nature of the autoimmune response in BB rats (driven by IL-4) appears to be distinct from that of NOD mice. Despite the differences between these two well-accepted animal models of autoimmune diabetes, until more is known about the pathogenesis of type 1 DM in humans, lessons learned from both the BB rat and NOD mouse continue to be of tremendous benefit to our understanding of human disease.

Lymphocytes

Diabetes Mellitus

Type 1

Rats

Inbred BB

Killer Cells

Natural

Animal Experimentation and Research

Cells

Endocrine System Diseases

Hemic and Immune Systems

Immune System Diseases

Nutritional and Metabolic Diseases

Avaliação de aspectos inatos e adaptativos do sistema imune na psoríase: análise fenotípica e funcional de células natural killer e células T / Innate and adaptive features of the immune system in psoriasis: phenotypic and functional analyses of natural killer cells and T cells

Mariana Dias Batista

06 December 2012

INTRODUÇÃO: A psoríase é doença inflamatória hiperproliferativa da pele, na qual mecanismos imunológicos são cruciais para o processo patogênico. O marcador CD57 denota inabilidade de replicação e imuno-senescência de células T CD8+, e sua expressão foi demonstrada em diversas condições inflamatórias. CD57 também pode ser expresso por células natural killer (NK), nas quais é considerado marcador de maturidade, por ser em geral adquirido pelas formas mais diferenciadas CD56+CD16+. A expressão de CD57 e outros receptores de células NK não foi amplamente investigada na psoríase. OBJETIVOS: Este estudo buscou examinar o fenótipo de células NK em biópsias de pele e células mononucleares do sangue periférico (CMSP) de pacientes com psoríase em relação a controles sadios. Este estudo investigou também o fenótipo e características funcionais de células T isoladas da pele lesional e não afetada de pacientes com psoríase. MÉTODOS: Foram isoladas células NK dos subtipos CD56+CD16- e CD56+CD16+ de pele lesional, não afetada e CMSP de pacientes com psoríase, comparadas com pele normal e CMSP de controles sadios. A expressão de CD57, NKG2A e NKG2C foi determinada nesses subtipos de células por citometria de fluxo. Células T CD4+ e CD8+ foram isoladas da pele lesional e não afetada de pacientes com psoríase, e a expressão de CD57 foi avaliada. Características funcionais de células T foram estudadas através da análise da secreção de diversas citocinas inflamatórias (IL-17A, IFN-\", IL-2, IL-33, TNF- #, IL-21, IL-22 and IL-27) produzidas por células T CD4+ e CD8+ isoladas por sorting celular, a partir de amostras de pele lesional e não afetada de pacientes com psoríase. RESULTADOS: Células NK isoladas das lesões de psoríase apresentaram um fenótipo particular, caracterizado por baixa expressão de CD57 e alta expressão de NKG2A na pele lesional e não afetada em relação aos controles. Em relação às células T, encontrouse frequência de células T CD4+CD57+ e CD8+CD57+ significativamente maior na pele não afetada em relação à pele lesional de pacientes com psoríase. Células T CD4+ isoladas por sorting celular a partir de amostras de pele lesional produziram níveis maiores de IL-17A, IL-22 e IFN-\" em relação às amostras de pele não afetada. Células T CD8+ isoladas da pele lesional secretaram maiores níveis de IL-17A, IFN-\", TNF-# e IL- 2 em relação à pele não afetada. CONCLUSÕES: Esses dados sugerem que células NK presentes nas lesões de psoríase apresentam fenótipo imaturo, que foi previamente associado a maiores capacidades funcionais, e poderiam ser implicadas na patogênese da psoríase. Em relação às células T, as características fenotípicas sugerem menor sobrevivência de células com baixa capacidade replicativa na pele lesional, pelo ambiente inflamatório local ou pelo alto turnover celular da psoríase / INTRODUCTION: Psoriasis is a hyper-proliferative inflammatory disease of the skin in which immunological mechanisms play a direct role in disease pathogenesis. CD57 is a marker of replicative inability and immunosenescence on CD8+ T cells and its expression is increased in a number of inflammatory conditions. CD57 is also expressed by NK cells and is considered a marker of NK cell maturity, being acquired by more differentiated CD56+CD16+ NK cells. The expression of CD57 and other NK cell markers in psoriasis has not been thoroughly investigated. OBJECTIVES: This study sought to examine the phenotype of NK cells in skin biopsies and peripheral blood mononuclear cells (PBMC) from patients with psoriasis and healthy controls. We also investigated the phenotype and functional characteristics of T cells from psoriasis patients, comparing lesional and unaffected skin. METHODS: CD56+CD16- and CD56+CD16+ NK cells were isolated from lesional skin, unaffected skin and PBMC of psoriasis patients, and normal skin and PBMC from healthy controls. The expression of CD57, NKG2A, and NKG2C was assessed by flow cytometry. CD57 expression was also determined on T cells from lesional and unaffected skin by flow cytometry. We assessed functional characteristics of T cells by evaluating the secretion of several inflammatory cytokines (IL-17A, IFN-\", IL- 2, IL-33, TNF-#, IL-21, IL-22 and IL-27), from cell-sorted purified CD4+ and CD8+ T cells isolated from lesional and unaffected skin of psoriasis patients, by multiplex assays. RESULTS: NK cells in psoriasis skin lesions exhibited a distinct phenotype, with CD57 expression significantly reduced and NKG2A expression increased on NK cells in lesional and unaffected skin compared to controls. In relation to T cells, we observed that the frequency of CD57+CD4+ and CD57+CD8+ T cells was significantly increased in unaffected skin of psoriasis patients compared to lesional skin. Sorted CD4+ T cells from psoriasis lesional skin produced higher levels of IL-17A, IL-22 and IFN-\" compared to unaffected skin. CD8+ T cells isolated from lesional skin produced higher levels of IL- 17A, IFN-\", TNF-# and IL-2 compared to unaffected skin. CONCLUSIONS: These data suggest that NK cells in psoriasis lesions exhibit an immature phenotype, that has been previously associated with higher functional abilities, and could implicate NK cells in psoriasis pathogenesis. For T cells, the findings of this study suggest lower survival of cells with low replicative ability in lesional skin, due to the local inflammatory environment or to the high cellular turnover in psoriasis

Antígenos CD57

Células natural-killer

Citocinas

Imunidade adaptativa

Imunidade inata

NKG2A

Psoríase

Adaptive immunity

CD57

Cytokines

Innate immunity

Natural killer cells

NKG2A

Psoriasis

Expressão de proteinas de choque termico 70 (HSP70) nas celulas uNK de camundongos na gestação normal e sob estresse induzido pela lesão embrionaria / Heat shock protein 70 (HSP70) expression in the mouse uNK cells in normal pregnancy and under stress induced by embryon injury

Lima, Patricia Daniele Azevedo, 1984-

29 February 2008

Orientador: Aureo Tatsumi Yamada / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-10T22:06:48Z (GMT). No. of bitstreams: 1 Lima_PatriciaDanieleAzevedo_M.pdf: 2003445 bytes, checksum: 597310400704b8df5b1e07544bd6caca (MD5) Previous issue date: 2008 / Resumo: Durante a gestação em animais que possuem placentação hemocorial, a hipóxia no primeiro terço da prenhez é um dos fatores cruciais para indução da angiogênese e o adequado desenvolvimento da placenta. Contudo, esta hipóxia se contrapõe à intensa atividade das células que requerem elevado metabolismo, gerando um estresse fisiológico para estas células presentes na interface materno-fetal. Presume-se que estas células necessitem de mecanismos apropriados de citoproteção para sua sobrevida enquanto comprometidos ativamente no suporte funcional do útero gestante. Neste sentido, o presente trabalho teve como objetivo investigar a expressão e a distribuição da proteína de choque térmico 70 (HSP70) na interface materno-fetal durante a gestação normal em camundongos e a sua possível variação em condição de estresse adicional induzido experimentalmente através da lesão embrionária. Sítios de desenvolvimento embrionário/fetal de camundongos prenhes do dia de gestação (dg) 6 ao 17 e, após 30 minutos, 1, 6 e 12 h dos animais submetidos à lesão cirúrgida do embrião (LCE) no dg 9 foram coletados para: - processamento histotécnico convencional de embebição em parafina destinados às análises citoquímicas (lectina DBA e reação de TUNEL) e imunocitoquímicas (anti-HSP72/73, anti-PCNA); - embebição em resina Lowilcryl- K4M para imunocitoquímica ultraestrutural (anti-HSP72/73); - obtenção de homogenados teciduais destinados à SDS-PAGE das frações protéicas e Westernblot (anti-HSP72/73) e, - extração de RNA de homogenados teciduais e de células uNK isoladas para análise de transcritos (HSP72 e 73) com amplificação pelo RTPCR. As análises imunocitoquímicas demonstraram que as células uNK eram as únicas células que expressavam de forma constante as isoformas HSP72/73 ao longo da gestação, sendo confirmada a expressão dos transcritos gênicos das isoformas HSP72/73 nas células uNK isoladas pelo RT-PCR. A imunomicroscopia eletrônica detectou marcação conspícua nas mitocôndrias das células uNK. A análise quantitativa demonstrou que a lesão do embrião reduz o número de células uNK positivas para HSP72/73 e, o SDS/PAGE/Western-blotting identificou as isoformas HSP72 e 73 presente nos homogenados teciduais do útero com uma perceptível redução na intensidade da banda correspondente ao HSP73 nas amostras de pós-lesão, sem afetar significativamente a isoforma HSP72. As análises realizadas com a dupla marcação de TUNEL e PCNA demonstrarm redução de células uNK PCNA positivas no útero submetido a lesão embrionária e aumento de núcleos marcadas positivamente pelo TUNEL. Estes resultados demonstram de forma inédita a expressão de HSP72/73 nas células uNK, sendo inédita também a constatação em leucócitos, sugerindo um papel citoprotetor para estas células importantes na manutenção da gestação. A redução de células uNK HSP72/73 positivas no útero gestante desencadeada pela lesão embrionária, consubstancia a hipótese da atuação da HSP 72/73 como chaperona citoprotetora nas células uNK sendo crítica a atuação da isoforma HSP73 presente na mitocôndria através da regulação negativa das vias de morte celular por apoptose nas células uNK / Resumo: Durante a gestação em animais que possuem placentação hemocorial, a hipóxia no primeiro terço da prenhez é um dos fatores cruciais para indução da angiogênese e o adequado desenvolvimento da placenta. Contudo, esta hipóxia se contrapõe à intensa atividade das células que requerem elevado metabolismo, gerando um estresse fisiológico para estas células presentes na interface materno-fetal. Presume-se que estas células necessitem de mecanismos apropriados de citoproteção para sua sobrevida enquanto comprometidos ativamente no suporte funcional do útero gestante. Neste sentido, o presente trabalho teve como objetivo investigar a expressão e a distribuição da proteína de choque térmico 70 (HSP70) na interface materno-fetal durante a gestação normal em camundongos e a sua possível variação em condição de estresse adicional induzido experimentalmente através da lesão embrionária. Sítios de desenvolvimento embrionário/fetal de camundongos prenhes do dia de gestação (dg) 6 ao 17 e, após 30 minutos, 1, 6 e 12 h dos animais submetidos à lesão cirúrgida do embrião (LCE) no dg 9 foram coletados para: - processamento histotécnico convencional de embebição em parafina destinados às análises citoquímicas (lectina DBA e reação de TUNEL) e imunocitoquímicas (anti-HSP72/73, anti-PCNA); - embebição em resina Lowilcryl- K4M para imunocitoquímica ultraestrutural (anti-HSP72/73); - obtenção de homogenados teciduais destinados à SDS-PAGE das frações protéicas e Westernblot (anti-HSP72/73) e, - extração de RNA de homogenados teciduais e de células uNK isoladas para análise de transcritos (HSP72 e 73) com amplificação pelo RTPCR. As análises imunocitoquímicas demonstraram que as células uNK eram as únicas células que expressavam de forma constante as isoformas HSP72/73 ao longo da gestação, sendo confirmada a expressão dos transcritos gênicos das isoformas HSP72/73 nas células uNK isoladas pelo RT-PCR. A imunomicroscopia eletrônica detectou marcação conspícua nas mitocôndrias das células uNK. A análise quantitativa demonstrou que a lesão do embrião reduz o número de células uNK positivas para HSP72/73 e, o SDS/PAGE/Western-blotting identificou as isoformas HSP72 e 73 presente nos homogenados teciduais do útero com uma perceptível redução na intensidade da banda correspondente ao HSP73 nas amostras de pós-lesão, sem afetar significativamente a isoforma HSP72. As análises realizadas com a dupla marcação de TUNEL e PCNA demonstrarm redução de células uNK PCNA positivas no útero submetido a lesão embrionária e aumento de núcleos marcadas positivamente pelo TUNEL. Estes resultados demonstram de forma inédita a expressão de HSP72/73 nas células uNK, sendo inédita também a constatação em leucócitos, sugerindo um papel citoprotetor para estas células importantes na manutenção da gestação. A redução de células uNK HSP72/73 positivas no útero gestante desencadeada pela lesão embrionária, consubstancia a hipótese da atuação da HSP 72/73 como chaperona citoprotetora nas células uNK sendo crítica a atuação da isoforma HSP73 presente na mitocôndria através da regulação negativa das vias de morte celular por apoptose nas células uNK / Abstract: During the pregnancy of animals developing hemochorial placenta, the hypoxia in the first third of pregnancy is one of the crucial factor for induction of angiogenesis and adequate placental development. However, this hypoxia is contradictory to the great dynamism and metabolism of cells required in the pregnant uterus, conditioning a physiological stress for the cells present at the maternal-fetal interface. It is presumed these cells demand appropriate cytoprotective mechanism for their survival while are committed to actively support the pregnancy. In this way, the present work aimed to investigate the expression and distribution of the chapelone isoforms heat shock protein 72 and 73 (HSP72/73) at the maternal fetal-interface through the pregnancy in mice and its possible variations under additional stressing condition induced experimentally by embryo lesion. Embryo/fetus developing sites of pregnant mice from gestational days (gd) 6 to 17 and, after 30min, 1h and 6h of surgical embryo lesion (SEL) on gd 9 mice, were collected for: - conventional paraffin embedding for cytochemical (DBA lectin and TUNEL reaction) and immunocytochemical (anti-HSP72/73, anti-PCNA) analysis; - LR-white resin embedding for ultrastructural immunocytochemistry (anti- HSP72/73); - uterine tissue homogenates for SDS-PAGE of proteins fractions and Western-blot (anti-HSP7273) and; - RNA extratction form uterine tissue homogenates and isolated uNK cells for transcripts (HSP72 and 73) amplification by RT-PCR. The immunocytcchemical analysis showed the uNK cells as the only cell expressing constantly the HSP72/73 isoforms throughout the gestation, being confirmed the expression of both gene isoforms by RT-PCR in uNK cells. The immunoelectron microscopy detected conspicuous labeling in the mitochondria of uNK cells. The quantitative analysis demonstrated that embryo-lesion reduced the number of HSP72/73 positive uNK cells in the uterus and, SDS/PAGE and Westernblot identified the HSP72 and 73 isoforms present in the tissue homogenates with low reactive intensity of the band corresponding to HSP73 in the after-lesion samples, without affecting significantly the HSP72 isoform. The analysis of TUNEL and PCNA double labelling showed decreasing of PCNA positive-uNK cells in the uterus after embryo-lesion and increasing of TUNEL positive nuclei. These results confirms the expression of HSP72 and HSP73 isoforms in the uNK cells through the gestation and to date, this is also the first report showing HSP70 in leukocytes, suggesting a cytoptotective function to this cell while working actively as important cells supporting the pregnancy. The decreasing of HSP72/73 positive uNK cells in the pregnant uterus triggered by embryo lesion consubstantiate the hypothesis of HSP72/73 working as cytoprotective chaperone in the uNK cells, and the HSP73 isoform in the mitochondria seems to be critical on down-regulation of apoptotic cell depth pathway / Abstract: During the pregnancy of animals developing hemochorial placenta, the hypoxia in the first third of pregnancy is one of the crucial factor for induction of angiogenesis and adequate placental development. However, this hypoxia is contradictory to the great dynamism and metabolism of cells required in the pregnant uterus, conditioning a physiological stress for the cells present at the maternal-fetal interface. It is presumed these cells demand appropriate cytoprotective mechanism for their survival while are committed to actively support the pregnancy. In this way, the present work aimed to investigate the expression and distribution of the chapelone isoforms heat shock protein 72 and 73 (HSP72/73) at the maternal fetal-interface through the pregnancy in mice and its possible variations under additional stressing condition induced experimentally by embryo lesion. Embryo/fetus developing sites of pregnant mice from gestational days (gd) 6 to 17 and, after 30min, 1h and 6h of surgical embryo lesion (SEL) on gd 9 mice, were collected for: - conventional paraffin embedding for cytochemical (DBA lectin and TUNEL reaction) and immunocytochemical (anti-HSP72/73, anti-PCNA) analysis; - LR-white resin embedding for ultrastructural immunocytochemistry (anti- HSP72/73); - uterine tissue homogenates for SDS-PAGE of proteins fractions and Western-blot (anti-HSP7273) and; - RNA extratction form uterine tissue homogenates and isolated uNK cells for transcripts (HSP72 and 73) amplification by RT-PCR. The immunocytcchemical analysis showed the uNK cells as the only cell expressing constantly the HSP72/73 isoforms throughout the gestation, being confirmed the expression of both gene isoforms by RT-PCR in uNK cells. The immunoelectron microscopy detected conspicuous labeling in the mitochondria of uNK cells. The quantitative analysis demonstrated that embryo-lesion reduced the number of HSP72/73 positive uNK cells in the uterus and, SDS/PAGE and Westernblot identified the HSP72 and 73 isoforms present in the tissue homogenates with low reactive intensity of the band corresponding to HSP73 in the after-lesion samples, without affecting significantly the HSP72 isoform. The analysis of TUNEL and PCNA double labelling showed decreasing of PCNA positive-uNK cells in the uterus after embryo-lesion and increasing of TUNEL positive nuclei. These results confirms the expression of HSP72 and HSP73 isoforms in the uNK cells through the gestation and to date, this is also the first report showing HSP70 in leukocytes, suggesting a cytoptotective function to this cell while working actively as important cells supporting the pregnancy. The decreasing of HSP72/73 positive uNK cells in the pregnant uterus triggered by embryo lesion consubstantiate the hypothesis of HSP72/73 working as cytoprotective chaperone in the uNK cells, and the HSP73 isoform in the mitochondria seems to be critical on down-regulation of apoptotic cell depth pathway / Mestrado / Histologia / Mestre em Biologia Celular e Estrutural

Prenhez

Proteínas de choque térmico HSP70

Estresse

Células matadoras naturais

Útero

Pregnancy

Uterine Natural Killer cells

Heat shock protein 70

Stress

Uterus