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The hallmark of DCs is their potent and outstanding capacity to activate naive resting T cells. As such, DCs are the sentinels of the immune system and instrumental for the induction of immune responses. This is one of the reasons, why DCs became the focus of immunotherapeutical strategies to fight infections, cancer, and autoimmunity. Besides the exploration of adoptive DC-therapy for which DCs are generated from monocytes or purified in large numbers from the blood, alternative approaches were developed such as antigen targeting of DCs. The idea behind this strategy is that DCs resident in patients' lymphoid organs or peripheral tissues can be directly loaded with antigens in situ. The proof of principle came from mouse models; subsequent translational studies confirmed the potential of this therapy. The first clinical trials demonstrated feasibility and the induction of T-cell immunity in patients. This review will cover: (i) the historical aspects of antigen targeting, (ii) briefly summarize the biology of DCs and the immunological functions upon which this concept rests, (iii) give an overview on attempts to target DC receptors with antibodies or (glycosylated) ligands, and finally, (iv) discuss the translation of antigen targeting into clinical therapy.
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Células Dendríticas , Imunidade , Animais , CamundongosRESUMO
Human skin is a preferred vaccination site as it harbors multiple dendritic cell (DC) subsets, which display distinct C-type lectin receptors (CLR) that recognize pathogens. Antigens can be delivered to CLR by antibodies or ligands to boost antigen-specific immune responses. This concept has been established in mouse models but detailed insights into the functional consequences of antigen delivery to human skin DC in situ are sparse. In this study, we cloned and produced an anti-human Langerin antibody conjugated to the EBV nuclear antigen 1 (EBNA1). We confirmed specific binding of anti-Langerin-EBNA1 to Langerhans cells (LC). This novel LC-based vaccine was then compared to an existing anti-DEC-205-EBNA1 fusion protein by loading LC in epidermal cell suspensions before coculturing them with autologous T cells. After restimulation with EBNA1-peptides, we detected elevated levels of IFN-γ- and TNF-α-positive CD4+ T cells with both vaccines. When we injected the fusion proteins intradermally into human skin explants, emigrated skin DC targeted via DEC-205-induced cytokine production by T cells, whereas the Langerin-based vaccine failed to do so. In summary, we demonstrate that antibody-targeting approaches via the skin are promising vaccination strategies, however, further optimizations of vaccines are required to induce potent immune responses.
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Células Dendríticas , Células de Langerhans , Lectinas Tipo C , Vacinas , Animais , Humanos , Camundongos , Antígenos/metabolismo , Células de Langerhans/metabolismo , Lectinas Tipo C/metabolismo , Lectinas de Ligação a Manose , PeleRESUMO
Dendritic cells (DC) are promising targets for immunotherapy of cancer. Clinically, immunization against cancer antigens by means of the most potent antigen-presenting cells, that is DC, remains an important treatment option in combination with the modern immune checkpoint approaches. Instead of adoptively transferring in vitro monocyte-derived DC, they can also be loaded in situ by antibody-mediated targeting of antigen. Conventionally, these vaccines are delivered by classical intradermal injections. Here, we tested an alternative approach, namely laser-assisted epicutaneous immunization. With an infrared laser ("Precise Laser Epidermal System"/P.L.E.A.S.E.® Laser System), we created micropores in human skin and applied monoclonal antibodies (mAbs) against C-type lectins, for example DEC-205/CD205 and Langerin/CD207. Optimal parameters for formation of pores in epidermis and dermis were determined. We could induce pores of defined depths without enhanced apoptosis around them. Antibodies applied epicutaneously to the laser-porated skin could be detected both in Langerhans cells (LC) in situ in the epidermis and in migratory skin DC subsets from short term human skin explant culture, demonstrating uptake and transport of Langerin and DEC-205 mAbs. Efficacy of targeting was similar between the different laser treatments and pore depths. Thus, laser-assisted epicutaneous immunization may be a valuable alternative to intradermal injection, yet the loading efficacy of DC needs to be further improved.
Assuntos
Administração Cutânea , Anticorpos/imunologia , Antígenos CD/imunologia , Células Dendríticas/imunologia , Imunização/métodos , Células de Langerhans/imunologia , Lasers , Lectinas Tipo C/imunologia , Antígenos de Histocompatibilidade Menor/imunologia , Receptores de Superfície Celular/imunologia , Adulto , Idoso , Feminino , Humanos , Masculino , Adulto JovemRESUMO
It is unclear how the Langerhans cell (LC) network is maintained in adult epidermis. In this issue of Immunity, Seré et al. (2012) show that LCs are replenished in two waves. Monocyte-derived, short-lived LCs come first. A second wave follows, and these LCs of nonmonocytic origin are long-lived.
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BACKGROUND AND OBJECTIVES: We examined retrospectively whether the combination of standard dacarbazine (DTIC) and/or fotemustine chemotherapy and autologous peptide-loaded dendritic cell (DC) vaccination may improve survival of stage IV melanoma patients. Furthermore, a small cohort of long-term survivors was studied in more detail. PATIENTS AND METHODS: Between 1998 and 2008, 41 patients were vaccinated at least three times with DCs while receiving chemotherapy and compared to all other 168 patients in our database who only received chemotherapy (1993-2008). RESULTS: Median life expectancy of patients receiving additional DC-vaccination was 18 months, compared to eleven months for patients under standard chemotherapy alone. In contrast to patients with other haplotypes, the HLA-A1/A1 subset of DC-treated patients showed significantly lower median survival (12 vs. 25 months). Autoantibodies were frequently detected in serum of both vaccinated and non-vaccinated patients, and there was no correlation between titers, loss or appearance of autoantibodies and survival. Additionally, phenotyping of DCs and PBMCs also did not reveal any conspicuous correlation with survival. CONCLUSIONS: Combining standard chemotherapy and DC vaccination appears superior to chemotherapy alone. The impact of HLA haplotypes on survival emphasizes the importance of a careful selection of patients with specific, well-defined HLA haplotypes for future vaccination trials using peptide-pulsed DCs, possibly combined with checkpoint inhibitors.
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Células Dendríticas , Melanoma , Feminino , Humanos , Masculino , Peptídeos , Estudos RetrospectivosRESUMO
Periodontal Ehlers-Danlos syndrome (pEDS) is an autosomal-dominant disorder characterized by early-onset periodontitis leading to premature loss of teeth, joint hypermobility, and mild skin findings. A locus was mapped to an approximately 5.8 Mb region at 12p13.1 but no candidate gene was identified. In an international consortium we recruited 19 independent families comprising 107 individuals with pEDS to identify the locus, characterize the clinical details in those with defined genetic causes, and try to understand the physiological basis of the condition. In 17 of these families, we identified heterozygous missense or in-frame insertion/deletion mutations in C1R (15 families) or C1S (2 families), contiguous genes in the mapped locus that encode subunits C1r and C1s of the first component of the classical complement pathway. These two proteins form a heterotetramer that then combines with six C1q subunits. Pathogenic variants involve the subunit interfaces or inter-domain hinges of C1r and C1s and are associated with intracellular retention and mild endoplasmic reticulum enlargement. Clinical features of affected individuals in these families include rapidly progressing periodontitis with onset in the teens or childhood, a previously unrecognized lack of attached gingiva, pretibial hyperpigmentation, skin and vascular fragility, easy bruising, and variable musculoskeletal symptoms. Our findings open a connection between the inflammatory classical complement pathway and connective tissue homeostasis.
Assuntos
Complemento C1r/genética , Complemento C1s/genética , Síndrome de Ehlers-Danlos/genética , Deleção de Genes , Mutação de Sentido Incorreto , Periodontite/genética , Adolescente , Adulto , Criança , Pré-Escolar , Mapeamento Cromossômico , Cromossomos Humanos Par 12/genética , Síndrome de Ehlers-Danlos/diagnóstico , Retículo Endoplasmático/genética , Retículo Endoplasmático/metabolismo , Exoma , Feminino , Loci Gênicos , Humanos , Masculino , Linhagem , Periodontite/diagnóstico , Conformação Proteica , Adulto JovemRESUMO
BACKGROUND: Hypospadias are among the most common genital malformations. Langerhans Cells (LCs) play a pivotal role in HIV and HPV infection. The migration of LC precursors to skin coincides with the embryonic period of hypospadias development and genetic alterations leading to the formation of hypospadias impact the development of ectodermally derived tissues. We hypothesized that this might be associated with a difference in frequency or morphology of epidermal and dermal LCs in hypospadias patients. METHODS: A total of 43 patients from two centers were prospectively included into this study after parental consent and ethics approval. Epidermal and dermal sheets were prepared from skin samples of 26 patients with hypospadias, 13 patients without penile malformations and 4 patients with penile malformations other than hypospadias. Immunofluorescence staining of sheets was performed with anti-HLA-DR-FITC and anti-CD207/Langerin-A594 antibodies. Skin sections from 11 patients without penile malformation and 11 patients with hypospadias were stained for Langerin. Frequencies as well as morphology and distribution of epidermal and dermal LCs on sheets and sections were microscopically evaluated. Cell counts were compared by unpaired t-tests. RESULTS: There was no difference in frequency of epidermal LCs, Neither on sheets (873 ± 61 vs. 940 ± 84LCs/mm2, p = 0.522) nor on sections (32 ± 3 vs. 30 ± 2LCs/mm2, p = 0.697). Likewise, the frequency of dermal LCs (5,9 ± 0,9 vs. 7.5 ± 1.3LCs/mm2, p = 0.329) was comparable between patients with hypospadias and without penile malformation. No differences became apparent in subgroup analyses, comparing distal to proximal hypospadias (p = 0.949), younger and older boys (p = 0.818) or considering topical dihydrotestosterone treatment prior to surgery (p = 0.08). The morphology of the LCs was not different comparing hypospadias patients with boys without penile malformations. CONCLUSIONS: LCs are present in similar frequencies and with a comparable morphology and distribution in patients with hypospadias as compared to children without penile malformations. This suggests that patients with hypospadias are not different from patients with normal penile development considering this particular compartment of their skin immunity.
Assuntos
Antígenos CD/análise , Antígenos HLA-DR/análise , Hipospadia/embriologia , Hipospadia/patologia , Células de Langerhans , Lectinas Tipo C/análise , Lectinas de Ligação a Manose/análise , Pele/química , Pele/patologia , Pré-Escolar , Epiderme/química , Epiderme/patologia , Humanos , Lactente , Masculino , Estudos ProspectivosRESUMO
Langerhans cells (LCs) are dendritic cells (DCs) residing in epithelia, where they critically regulate immunity and tolerance. The p14 adaptor molecule is part of the late endosomal/LAMTOR (lysosomal adaptor and mitogen-activated protein kinase and mammalian target of rapamycin [mTOR] activator/regulator) complex, thereby contributing to the signal transduction of the extracellular signaling-regulated kinase (ERK) and the mTOR cascade. Furthermore, p14 represents an important regulator for endosomal sorting processes within the cell. Mutated, dysfunctional p14 leads to a human immunodeficiency disorder with endosomal/lysosomal defects in immune cells. Because p14 participates in the regulation of endosomal trafficking, growth factor signaling, and cell proliferation, we investigated the role of p14 in mouse DCs/LCs using a conditional knockout mouse model. p14-deficient animals displayed a virtually complete loss of LCs in the epidermis early after birth due to impaired proliferation and increased apoptosis of LCs. Repopulation analysis after application of contact sensitizer leads to the recruitment of a transient LC population, predominantly consisting of short-term LCs. The underlying molecular mechanism involves the p14-mediated disruption of the LAMTOR complex which results in the malfunction of both ERK and mTOR signal pathways. Hence, we conclude that p14 acts as a novel and essential regulator of LC homeostasis in vivo.
Assuntos
Endossomos/metabolismo , Homeostase , Células de Langerhans/metabolismo , Proteínas/genética , Proteínas/metabolismo , Animais , Animais Recém-Nascidos , Apoptose/genética , Antígeno CD11c/genética , Antígeno CD11c/metabolismo , Proliferação de Células , MAP Quinases Reguladas por Sinal Extracelular/metabolismo , Alvo Mecanístico do Complexo 1 de Rapamicina , Camundongos , Camundongos Knockout , Mitose/genética , Complexos Multiproteicos/metabolismo , Transdução de Sinais , Pele/imunologia , Pele/metabolismo , Pele/patologia , Serina-Treonina Quinases TOR/metabolismoRESUMO
Skin dendritic cells (DC) express C-type lectin receptors for the recognition of pathogens. Langerhans cells (LC) express the receptor Langerin/CD207, whereas DEC-205/CD205 is mainly expressed by dermal DC, but can also be detected at low levels on LC. In this study, we tested an ex vivo approach for targeting DC in situ with monoclonal antibodies (mAb) against Langerin and DEC-205. The targeting mAb was injected intradermally into human skin biopsies or added to the medium during skin explant culture. Corresponding to the expression patterns of these lectin receptors on skin DC, Langerin mAb was detected merely in LC in the epidermis and DEC-205 mainly in dermal DC in human skin explants, regardless of the application route. Migratory skin DC bound and carried targeting mAb from skin explants according to their lectin receptor expression profiles. In contrast to the very selective transport of Langerin mAb by LC, DEC-205 mAb was more widely distributed on all CD1a(+) skin DC subsets but almost absent in CD14(+) dermal DC. As effective vaccination requires the addition of adjuvant, we co-administered the toll-like receptor (TLR)-3 ligand poly I:C with the mAb. This adjuvant enhanced binding of DEC-205 mAb to all skin DC subsets, whereas Langerin targeting efficacy remained unchanged. Our findings demonstrate that LC can be preferentially targeted by Langerin mAb. In contrast, DEC-205 mAb can be bound by all CD1a(+) skin DC subsets. The efficacy of DEC-205 mAb targeting strategy can be boosted by addition of poly I:C underlining the potential of this combination for immunotherapeutical interventions.
Assuntos
Anticorpos Monoclonais/administração & dosagem , Células de Langerhans/imunologia , Receptores Mitogênicos/antagonistas & inibidores , Adjuvantes Imunológicos/administração & dosagem , Anticorpos Monoclonais/metabolismo , Complexo Antígeno-Anticorpo/metabolismo , Antígenos CD/imunologia , Células Cultivadas , Humanos , Imunização , Injeções Intradérmicas , Lectinas Tipo C/antagonistas & inibidores , Lectinas Tipo C/imunologia , Lectinas de Ligação a Manose/antagonistas & inibidores , Lectinas de Ligação a Manose/imunologia , Antígenos de Histocompatibilidade Menor , Poli I-C/administração & dosagem , Receptores de Superfície Celular/antagonistas & inibidores , Receptores de Superfície Celular/imunologia , Receptores Mitogênicos/imunologia , Receptor 3 Toll-Like/metabolismoRESUMO
Incorporation of Ags by dendritic cells (DCs) increases when Ags are targeted to endocytic receptors by mAbs. We have previously demonstrated in the mouse that mAbs against C-type lectins administered intradermally are taken up by epidermal Langerhans cells (LCs), dermal Langerin(neg) DCs, and dermal Langerin(+) DCs in situ. However, the relative contribution of these skin DC subsets to the induction of immune responses after Ag targeting has not been addressed in vivo. We show in this study that murine epidermal LCs and dermal DCs transport intradermally injected mAbs against the lectin receptor DEC-205/CD205 in vivo. Skin DCs targeted in situ with mAbs migrated through lymphatic vessels in steady state and inflammation. In the skin-draining lymph nodes, targeting mAbs were found in resident CD8α(+) DCs and in migrating skin DCs. More than 70% of targeted DCs expressed Langerin, including dermal Langerin(+) DCs and LCs. Numbers of targeted skin DCs in the nodes increased 2-3-fold when skin was topically inflamed by the TLR7 agonist imiquimod. Complete removal of the site where OVA-coupled anti-DEC-205 had been injected decreased endogenous cytotoxic responses against OVA peptide-loaded target cells by 40-50%. Surprisingly, selective ablation of all Langerin(+) skin DCs in Langerin-DTR knock-in mice did not affect such responses independently of the adjuvant chosen. Thus, in cutaneous immunization strategies where Ag is targeted to DCs, Langerin(+) skin DCs play a major role in transport of anti-DEC-205 mAb, although Langerin(neg) dermal DCs and CD8α(+) DCs are sufficient to subsequent CD8(+) T cell responses.
Assuntos
Anticorpos/administração & dosagem , Antígenos CD/imunologia , Antígenos de Superfície/biossíntese , Células Dendríticas/imunologia , Mediadores da Inflamação/fisiologia , Lectinas Tipo C/biossíntese , Lectinas Tipo C/imunologia , Lectinas de Ligação a Manose/biossíntese , Receptores de Superfície Celular/imunologia , Pele/imunologia , Linfócitos T Citotóxicos/imunologia , Animais , Antígenos de Superfície/fisiologia , Células Dendríticas/metabolismo , Células Dendríticas/patologia , Técnicas de Introdução de Genes , Mediadores da Inflamação/metabolismo , Injeções Intradérmicas , Células de Langerhans/imunologia , Células de Langerhans/metabolismo , Lectinas Tipo C/fisiologia , Linfonodos/imunologia , Linfonodos/metabolismo , Linfonodos/patologia , Lectinas de Ligação a Manose/fisiologia , Camundongos , Camundongos Endogâmicos BALB C , Camundongos Endogâmicos C57BL , Camundongos Transgênicos , Antígenos de Histocompatibilidade Menor , Técnicas de Cultura de Órgãos , Transporte Proteico/genética , Transporte Proteico/imunologia , Ratos , Pele/metabolismo , Pele/patologia , Linfócitos T Citotóxicos/metabolismo , Linfócitos T Citotóxicos/patologiaRESUMO
A variety of animals host parapoxviruses. Orf virus is prevalent in sheep and goats in the Tyrol region of Austria and Northern Italy. Zoonotic infections in humans mostly occur after occupational exposure. We report here a case of a hunter with a typical Orf lesion (contagious ecthyma) on the finger, with no history of direct contact with domestic animals. Three weeks previously he had been hunting chamois (Rupicapra rupicapra) and cut his finger while handling a carcass. Parapoxvirus infection was confirmed by electron microscopy and PCR, and the species was identified by DNA sequencing. The sequence was highly homologous with prevalent sheep Orf virus and rather distant from parapoxviruses found in red deer in Northern Italy. As this case indicated that the infection was acquired via game, we performed spot testing in the suspected area and detected several seropositive animals. This is a strong indication that Orf virus has been introduced into chamois in Western Austria. This probably occurred via roaming domestic sheep sharing the high alpine areas during the summer months.
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Ectima Contagioso/diagnóstico , Ectima Contagioso/transmissão , Dedos/virologia , Rupicapra/virologia , Dermatopatias Virais/diagnóstico , Zoonoses/diagnóstico , Animais , Áustria , DNA Viral/isolamento & purificação , Humanos , Masculino , Microscopia Eletrônica , Pessoa de Meia-Idade , Reação em Cadeia da Polimerase , Poxviridae/genética , RecreaçãoRESUMO
Langerhans cells (LCs) are antigen-presenting dendritic cells (DCs) that reside in epithelia. The best studied example is the LC of the epidermis. By electron microscopy, their identifying feature is the unique rod- or tennis racket-shaped Birbeck granule. The phenotypic hallmark is their expression of the C-type lectin receptor langerin/CD207. Langerin, however, is also expressed on a recently discovered population of DC in the dermis and other tissues of the body. These 'dermal langerin(+) dendritic cells' are unrelated to LCs. The complex field of langerin-negative dermal DCs is not dealt with here. In this article, we briefly review the history, ontogeny, and homeostasis of LCs. More emphasis is laid on the discussion of functional properties in vivo. Novel models using genetically engineered mice are contributing tremendously to our understanding of the role of LCs in eliciting adaptive immune responses against pathogens or tumors and in inducing and maintaining tolerance against self antigens and innocuous substances in vivo. Also, innate effector functions are increasingly being recognized. Current activities in this area are reviewed, and possibilities for future exploitation of LC in medicine, e.g. for the improvement of vaccines, are contemplated.
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Antígenos CD/imunologia , Antígenos de Superfície/imunologia , Células de Langerhans/imunologia , Lectinas Tipo C/imunologia , Lectinas de Ligação a Manose/imunologia , Pele/imunologia , Imunidade Adaptativa , Animais , Apresentação de Antígeno , Antígenos CD/genética , Antígenos de Superfície/genética , Linhagem da Célula , Doenças Transmissíveis/imunologia , Dermatite de Contato/imunologia , Modelos Animais de Doenças , Homeostase , Humanos , Tolerância Imunológica , Imunidade Inata , Lectinas Tipo C/genética , Lectinas de Ligação a Manose/genética , Camundongos , Camundongos Transgênicos , Neoplasias/imunologia , Ovalbumina/imunologia , Fenótipo , Pele/citologia , Vacinas/imunologiaRESUMO
Skin aging is the result of two types of aging, "intrinsic aging" an inevitable consequence of physiologic and genetically determined changes and "extrinsic aging," which is dependent on external factors such as exposure to sunlight, smoking, and dietary habits. UVB causes skin injury through the generation of free radicals and other oxidative byproducts, also contributing to DNA damage. Appearance and accumulation of senescent cells in the skin are considered one of the hallmarks of aging in this tissue. Mitochondria play an important role for the development of cellular senescence, in particular stress-induced senescence of human cells. However, many aspects of mitochondrial physiology relevant to cellular senescence and extrinsic skin aging remain to be unraveled. Here, we demonstrate that mitochondria damaged by UVB irradiation of human dermal fibroblasts (HDF) are eliminated by NIX-dependent mitophagy and that this process is important for cell survival under these conditions. Additionally, UVB-irradiation of human dermal fibroblasts (HDF) induces the shedding of extracellular vesicles (EVs), and this process is significantly enhanced in UVB-irradiated NIX-depleted cells. Our findings establish NIX as the main mitophagy receptor in the process of UVB-induced senescence and suggest the release of EVs as an alternative mechanism of mitochondrial quality control in HDF.
Assuntos
Senescência Celular , Fibroblastos , Mitocôndrias , Mitofagia , Raios Ultravioleta , Humanos , Mitofagia/efeitos da radiação , Raios Ultravioleta/efeitos adversos , Senescência Celular/efeitos da radiação , Mitocôndrias/metabolismo , Mitocôndrias/efeitos da radiação , Fibroblastos/metabolismo , Fibroblastos/efeitos da radiação , Proteínas Mitocondriais/metabolismo , Proteínas Mitocondriais/genética , Proteínas de Membrana/metabolismo , Proteínas de Membrana/genética , Envelhecimento da Pele/efeitos da radiação , Proteínas Proto-Oncogênicas , Proteínas Supressoras de TumorRESUMO
Interaction between the nervous and immune systems greatly contributes to inflammatory disease. In organs at the interface between our body and the environment, the sensory neuropeptide substance P (SP) is one key mediator of an acute local stress response through neurogenic inflammation but may also alter cytokine balance and dendritic cell (DC) function. Using a combined murine allergic inflammation/noise stress model with C57BL/6 mice, we show in this paper that SP--released during repeated stress exposure--has the capacity to markedly attenuate inflammation. In particular, repeated stress exposure prior to allergen sensitization increases DC-nerve fiber contacts, enhances DC migration and maturation, alters cytokine balance, and increases levels of IL-2 and T regulatory cell numbers in local lymph nodes and inflamed tissue in a neurokinin 1-SP-receptor (neurokinin-1 receptor)-dependent manner. Concordantly, allergic inflammation is significantly reduced after repeated stress exposure. We conclude that SP/repeated stress prior to immune activation acts protolerogenically and thereby beneficially in inflammation.
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Alérgenos/administração & dosagem , Apresentação de Antígeno/imunologia , Dermatite Alérgica de Contato/imunologia , Dermatite Alérgica de Contato/prevenção & controle , Mediadores da Inflamação/fisiologia , Estresse Fisiológico/imunologia , Substância P/fisiologia , Alérgenos/imunologia , Animais , Células Cultivadas , Técnicas de Cocultura , Células Dendríticas/imunologia , Células Dendríticas/metabolismo , Células Dendríticas/patologia , Dermatite Alérgica de Contato/patologia , Modelos Animais de Doenças , Estimulação Elétrica/efeitos adversos , Feminino , Células de Langerhans/imunologia , Células de Langerhans/metabolismo , Células de Langerhans/patologia , Camundongos , Camundongos Endogâmicos C57BL , Ruído/efeitos adversos , Ovalbumina/administração & dosagem , Ovalbumina/imunologia , Projetos Piloto , Distribuição AleatóriaRESUMO
Langerhans cells (LCs) are a distinct subset of DCs that resides in the epidermis and other epithelia. They are potent antigen-presenting cells and strong inducers of T-cell responses. Like other DC types, LCs express C-type lectins that serve as antigen/pathogen uptake receptors, with Langerin/CD207 being the characteristic LC C-type lectin. In this issue of the European Journal of Immunology, Geijtenbeek and colleagues [Eur. J. Immunol. 2011. 41: 2619-2631] assign a role to Langerin on human LCs for binding and capturing measles virus. Interestingly, however, this function does not correlate with productive infection or with cross-presentation of measles virus. These authors show that measles virus does not infect the LCs via Langerin, and that LCs cannot cross-present the virus to CD8(+) T cells; however, presentation of this virus to CD4(+) T cells occurs and is dependent on virus capture by Langerin. Thus, cross-presentation of measles virus may be left to skin DCs other than LCs. This highlights the complexity of anti-viral T-cell responses that originate in the skin and also emphasizes the need for intensified investigations into human skin DCs in order to be able to ultimately harness their potential for immunotherapy.
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Antígenos CD/metabolismo , Linfócitos T CD4-Positivos/metabolismo , Linfócitos T CD8-Positivos/metabolismo , Células de Langerhans/metabolismo , Lectinas Tipo C/metabolismo , Lectinas de Ligação a Manose/metabolismo , Vírus do Sarampo/imunologia , Sarampo/imunologia , Receptores Virais/metabolismo , Animais , HumanosRESUMO
The phenotypes and functions of endothelial cells (EC), a heterogeneous cell population, vary along the vascular tree and even in the same organ between different vessels. The placenta is an organ with abundant vessels. To enhance further knowledge concerning placenta derived EC, we develop a new method for isolation, purification and culture of these EC. Moreover, in order to investigate the peculiarity of placenta derived EC we compare their phenotypic and functional characteristics with human dermal lymphatic endothelial cells (HDLEC) and human umbilical vein endothelial cells (HUVEC). Freshly isolated placenta derived EC displayed an elongated shape with pale cytoplasm and showed the typical cobblestone pattern of EC but also a swirling pattern when confluent. FISH-analyses of the isolated EC from placentae of male fetus revealed an XY genotype strongly indicating their fetal origin. Characterisation of placenta derived fetal EC (fEC) underlined their blood vessel phenotype by the expression of vWF, Ulex europaeus lectin-1, HLA-class I molecules, CD31, CD34, CD36, CD51/61, CD54, CD62E, CD105, CD106, CD133, CD141, CD143, CD144, CD146, VEGFR-1, VEGFR-2, EN-4, PAL-E, BMA120, Tie-1, Tie-2 and α-Tubulin. In contrast to previous reports the expression of lymphatic markers, like VEGFR-3, LYVE-1, Prox-1 and Podoplanin was consistently negative. Haematopoietic surface markers like CD45 and CD14 were also always negative. Various functional tests (Dil-Ac-LDL uptake, Matrigel assay and TNF-α induced upregulation of CD62E and CD54) substantiated the endothelial nature of propagated fEC. At the ultrastructural level, fEC harboured numerous microvilli, micropinocytic vesicles at their basis, were rich in intermediate filaments and possessed typical Weibel - Palade bodies. In conclusion, the placenta is a plentiful source of fetal, microvascular, blood EC with an expression profile (CD34+, CD133+, VEGFR-2+, CD45-) suggestive of an endothelial progenitor phenotype.
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Antígenos CD/metabolismo , Biomarcadores/metabolismo , Células Endoteliais/citologia , Placenta/irrigação sanguínea , Receptor 2 de Fatores de Crescimento do Endotélio Vascular/metabolismo , Antígeno AC133 , Adulto , Antígenos CD34/metabolismo , Técnicas de Cultura de Células , Células Cultivadas , Estruturas Citoplasmáticas/ultraestrutura , Derme/irrigação sanguínea , Células Endoteliais/metabolismo , Células Endoteliais/ultraestrutura , Feminino , Glicoproteínas/metabolismo , Células Endoteliais da Veia Umbilical Humana/citologia , Células Endoteliais da Veia Umbilical Humana/metabolismo , Humanos , Antígenos Comuns de Leucócito/metabolismo , Microvilosidades/ultraestrutura , Peptídeos/metabolismo , Gravidez , Nascimento a TermoRESUMO
Dendritic cells (DCs) critically regulate immune responses and the "immune-surveillance" of tumours. This study retrospectively analysed the distribution and maturation status of DC-subsets in T-cell lymphoma of the skin. Mycosis fungoides and Sézary syndrome (n = 25) were investigated immunohistochemically for DC subsets, based on C-type lectin receptor expression: Langerhans' cells (langerin/CD207+, DEC-205/CD205+), dermal DCs (DC-SIGN/CD209+, CD205+) and plasmacytoid DC (BDCA-2/CD303+). Maturation status was assessed by double-labelling for CD83 and CD208/DC-LAMP. DCs were interspersed between the neoplastic infiltrate, and a marked increase in numbers of all three subsets was noted, DC-SIGN+ dermal DCs constituting the majority. Substantial numbers of plasmacytoid DCs were consistently observed. Most DCs in epidermis and dermis were phenotypically immature. Amongst the relatively few mature DCs in the dermis, langerin+ cells predominated. There was a positive correlation between the histological intensity of the tumour infiltrate and DC numbers. It is possible that mature DCs reflect ongoing anti-tumour immune responses, and immature DCs the induction of tumour tolerance.