Expansão ex vivo das células-tronco hematopoiéticas do sangue do cordão umbilical: análise comparativa da proliferação celular em cocultura de células-troco mesenquimais provenientes do endotélio vascular do cordão umbilical e do tecido adiposo / Cord blood hematopoietic stem cells ex vivo expansion: comparative analysis of cell proliferation promoted by adipose tissue and umbilical cord endothelium mesenchymal stem cells in coculture system

Andresa Forte

10 December 2014

INTRODUÇÃO: As células-tronco hematopoiéticas (CTH) do sangue do cordão umbilical (SCU) têm sido utilizadas com sucesso para o tratamento de doenças malignas e não malignas. No entanto, algumas unidades de SCU podem apresentar baixa quantidade de células nucleadas totais (CNT). Algumas abordagens têm sido sugeridas para evitar problemas em relação à baixa concentração de CTH no transplante, como a administração de duas unidades de SCU para o paciente e a expansão ex vivo de CTH. OBJETIVO: Avaliar as taxas de proliferação celular na expansão ex vivo do SCU em sistema de cocultura com células-tronco mesenquimais (CTM) obtidos a partir de diferentes fontes com alta e baixa confluência e adicionando-se ou não coquetel de citocinas no meio de cultura. MÉTODOS: Este estudo foi aprovado pelo Comitê de Ética de Pesquisa (CAPPesq) do Hospital das Clínicas da Faculdade de Medicina da USP. A coleta do SCU (n =10) foi realizada após o nascimento do bebê e expulsão da placenta. O processamento foi realizado utilizando o método de redução de volume, o qual consiste em depleção de eritrócitos. As amostras de CTM provenientes do endotélio vascular do cordão umbilical foram obtidas de doadores diferentes (n=3) e o tecido adiposo (n=3) do inventário do LIM-31. A expansão das CNT e das células com expressão de marcadores CD133+/CD34+ foram observados depois de sete dias de cultura. Além disso, o ensaio para análise de unidades de formadoras de colônias (UFC) foi realizado em todas as amostras antes e depois da expansão do SCU. Para a expansão em sistema de cocultura foi separado dois grupos para ambas as fontes de CTM (Grupo I - cocultura com adição de coquetel de citocinas vs. Grupo II - cocultura sem citocinas). RESULTADOS: Após sete dias, no grupo I com cocultura confluente, a taxa de proliferação de CNT foi duas vezes maior ao comparar com cocultura subconfluente (35 vs. 16 vezes). No mesmo grupo também foi possível evidenciar elevada taxa de proliferação de células CD133+/CD34+. O índice de proliferação das UFC no grupo I aumentou até oito vezes. A cocultura subconfluente tanto do endotélio vascular do cordão umbilical como do tecido adiposo apresentou menor rendimento em comparação as CTM confluentes. A expansão das células na presença de citocinas apresentou maior proliferação celular ao comparar às coculturas sem adição de citocinas. CONCLUSÃO: Este estudo mostrou que para alto rendimento de células do SCU, o sistema de cocultura requer adição de coquetel de citocinas e CTM confluente independentemente da fonte utilizada / INTRODUCTION: Umbilical cord blood (UCB) hematopoietic stem cells have been successfully used for the treatment of both malignant and non-malignant diseases. Nevertheless, some UCB units could have low total nucleated cells (TNC) dose. Several approaches have been suggested to avoid inadequacy problems of hematopoietic stem cells (HSC) number for transplantation, such as administration of two UCB units to the patient and HSC ex vivo expansion. OBJECTIVE: Evaluate UCB ex vivo expansion proliferative rates in a high and low mesenchymal stem cells (MSC) confluence feeder layer obtained from different MSC sources and by adding or not cytokines cocktail into the medium. METHODS: This study was approved by the Research Ethic Committee (CAPPESQ) of Hospital das Clínicas da Faculdade de Medicina da USP. The collection of UCB (n=10) was made after delivery of the infant and the expulsion of placenta. Processing was performed using volume reduction method which consists in red blood depletion. MSC samples from umbilical cord endothelium were obtained from three different donors and adipose tissue (n=3) obtained from LIM31\'s pattern inventory. The total nucleated cell (TNC), expression of hematopoietic surface markers such as CD133+/CD34+ were observed after seven days of culture. Beyond that, colony forming unit assay (CFU) was performed before and after UCB expansion. The expansion by coculture method was observed in two groups (Group I - coculture with cytokines cocktail added vs. Group II- coculture without cytokines cocktail) for both MSCs sources. RESULTS: After seven days, analysis of confluent coculture showed that TNC proliferation rate ware almost 2 times higher than in subconfluent coculture (35 vs. 16-fold) in Group I and also revealed higher proliferative rate in CD133+/CD34+ cells considering. CFU showed similar increase after seven days of culture in comparison of day 0 (up to 8-fold). Subconfluent coculture for both umbilical cord endothelium and adipose tissue showed lower yield compared with those with high MSC confluence. The expansion in the presence of cytokines showed higher cell proliferation compared to the cocultures without addition of cytokines. CONCLUSION: This study showed that coculture system may require the addition of cytokines cocktail in the media and confluent MSC regardless of source for high yield of UCB cells

Células progenitoras hematopoiéticas

Células-tronco

Células-tronco adultas

Cordão umbilical

Proliferação de células

Sangue fetal

Tecido adiposo

Técnicas de cocultura

Adipose tissue

Adult stem cells

Cell proliferation

Coculture techniques

Fetal blood

Hematopoietic progenitor cells

Stem cells

Umbilical cord

Papel de Notch e NF-kB na regulação de fatores de transcrição durante a diferenciação in vitro de células T a partir de células progenitoras hematopoéticas CD34+ / Role of Notch and NF-kB in the regulation of transcription factors during in vitro differentiation of T cells from CD34+

Josiane Lilian dos Santos Schiavinato

01 April 2011

Em estudos anteriores desenvolvidos por este grupo de pesquisa uma expressão mais elevada de alvos transcricionais e componentes da via NF-kB, bem como altos níveis de NOTCH1, foi identificada em células-tronco hematopoéticas (CTH) CD34+ de sangue de cordão umbilical (SCU) quando comparadas às CTH CD34+ de medula óssea (MO). Este grupo verificou ainda, por comparação das células CD34+ com as CD133+ (mais primitivas) que diversos fatores de transcrição (FT) envolvidos com o potencial de hemangioblasto, com a autorenovação das CTH, e com a diferenciação linfóide; como: RUNX1/AML1, GATA3, USF1, TAL1/SCL, HOXA9 e HOXB4 apresentaram-se mais expressos em células mais primitivas. A potencial participação das vias Notch e NF-kB na regulação destes FT tem importância conceitual e prática no entendimento da biologia das CTH, e dos processos envolvidos na diferenciação destas células. Com isto em vista, este projeto teve como objetivo, estudar o papel da via NF-kB e da via Notch na regulação destes FT. Para isso, um modelo experimental in vitro, de diferenciação de CTH CD34+ em linfócitos T, foi utilizado e a influência de fatores agonistas e inibidores farmacológicos destas vias, foram avaliados por citometria de fluxo e PCR em tempo real. Nossos resultados evidenciam o papel da via Notch na regulação transcricional de HOXB4 e GATA3 em células-tronco hematopoéticas CD34+ humanas, o que foi confirmado com base na expressão dos alvos diretos de Notch (HEY1 e HES1). Notamos ainda, que a expressão dos transcritos HES1, GATA3 e HOXB4 é prejudicada pela síntese protéica das CTH, uma vez que quando empregamos o prétratamento com a droga CHX há aumento da transcrição dos mesmos. Também podemos inferir que a ação do TNF- é positiva sobre esses transcritos, já que quando o utilizamos há elevação do nível de expressão desses transcritos, com exceção a HES1. Em relação ao cocultivo das CTH com as células estromais de camundongos, verificamos que apenas a linhagem OP9-DL1 detém a capacidade de promover a diferenciação celular T, e isso foi comprovado pelo surgimento de células comprometidas com a linhagem linfocítica T, através da presença dos marcadores de superfície específico CD7+ e CD1a+. Esses resultados auxiliarão na compreensão dos mecanismos moleculares de regulação transcricional envolvidos não apenas na diferenciação de linfócitos T, mas também na manutenção de um estado mais primitivo das CTH. Este conhecimento pode vir a contribuir com o desenvolvimento ou otimização de protocolos laboratoriais visando à expansão de CTH ou geração de células T para usos terapêuticos. / In previous studies by this research group a higher expression of transcriptional targets and components via NF-kB, as well as high levels of NOTCH1, was identified in hematopoietic stem cells (HSC) CD34 + cells from umbilical cord blood (UCB) compared to CD34 + hematopoietic stem cells from bone marrow (BM). This group also found, by comparing the CD34 + cells with CD133 + (more primitive) that several transcription factors (TF) involved in the potential of hemangioblast, with self-renewal of hematopoietic stem cells and to differentiated lymphocytic; as Runx1 / AML1, GATA3, USF1, TAL1/SCL, HOXB4 and HOXA9 were more expressed in more primitive cells. The potential involvement of Notch signaling pathways and NF-kB in the regulation of FT has conceptual and practical importance in understanding the biology of HSC, and the processes involved in differentiation of these cells. With this in mind, this project aimed to study the role of NF-kB pathway and Notch signaling in the regulation of FT. For this, an experimental model in vitro differentiation of CD34 + hematopoietic stem cells into T lymphocytes, was used and the influence of pharmacological agonists and inhibitors of these pathways were evaluated by flow cytometry and real-time PCR. Our results highlight the role of Notch signaling in the transcriptional regulation of GATA3 and HOXB4 in hematopoietic stem cells CD34 + human, which was confirmed based on the expression of direct targets of Notch (HES1 and HEY1). We also note that the expression of transcripts HES1, GATA3 and HOXB4 protein synthesis is hampered by the HSC, since when we use the pre-treatment with the drug there CHX increased transcription thereof. We can also infer that the action of TNF- is positive about these transcripts, since when we use it for raising the level of expression of these transcripts, except the HES1. In relation to the HSC coculture with stromal cells of mice, we found that only the line-DL1 Op9 has the ability to promote T cell differentiation, and this was evidenced by the appearance of cells committed to the T lymphocyte lineage, through the presence of specific surface markers CD7 + and CD1a +. These results will help understand the molecular mechanisms of transcriptional regulation involved not only in the differentiation of T lymphocytes, but also in maintaining a more primitive state of HSC. This knowledge may contribute to the development or optimization of laboratory protocols aimed at the expansion of HSC or generation of T cells for therapeutic use.

Células CD34+

Células estromais de camundongos OP9

Células-tronco hematopoéticas

Sangue de cordão umbilical

Via NF-kB

Via NOTCH

CD34+ cells

Hematopoietic stem cells

Stromal cells of mice OP9

Umbilical cord blood

Via NF-kB

Via Notch

Controle tardio da inflamação em esclerose múltipla em pacientes tratados com transplante autólogo de células tronco hematopoiéticas / Late control of inflammation in multiple sclerosis in patients treated with autologous hematopoietic stem cell transplantation

Lara Zupelli Lauar

05 June 2017

A esclerose múltipla (EM) é uma doença desmielinizante inflamatória crônica recorrente, restrita ao sistema nervoso central (SNC), cuja característica histológica é a ocorrência de desmielinização relacionada com infiltrado inflamatório perivenular com relativa preservação axonal. A forma clássica da doença se caracteriza pela recorrência de ataques (surtos), seguidos de remissão dos sintomas (RRMS), com a presença de múltiplas lesões focais dispersas pelo SNC (dissociação espacial) com processo inflamatório exuberante na fase aguda, coexistindo com lesões crônicas (dissociação temporal) sem atividade inflamatória evidenciavel pela quebra de barreira hematoencefálica e realce na fase contrastada na imagem de ressonância magnética (MRI). Alguns pacientes tem uma evolução benigna, permanecendo livre de sequelas significativas por mais de 20 anos da doença. Outros pacientes têm uma forma agressiva da doença, ficando restritos à cadeira de rodas em 8 a 10 anos de evolução. Um desafio é modificar o curso desta forma agressiva, o que pode ser feito com o uso de imunomoduladores, quimioterápicos e, eventualmente, transplante autólogo de células tronco hematopoiéticas (aHSCT). O objetivo da utilização do aHSCT é a restauração da atividade imunológica livre dos ataques à mielina (\"autoimune reset\"). Uma das maneiras de se monitorar a eficácia do tratamento é a identificação da ocorrência de novas lesões e de lesões com reforço visíveis em exames de RM seriados. Objetivo: Testar a hipótese de que o tratamento de pacientes com EM, utilizando AHSCT, foi eficaz em evitar a recorrência de inflamação e o aparecimento de novas lesões visíveis na SB ao exame de MRI, a longo prazo. Resultados: Na nossa Instituição, cerca de 66 pacientes portadores de EM foram tratados com aHSCT no período de 2004 a 2011, sendo seguidos desde então pelas disciplinas de hematologia, neurologia/neuroimunologia e pela seção de RM do CCIFM-HCRP. Método: Foram revisados os exames de RM de encéfalo adquiridos de maneira prospectiva e protocolada, de 76 pacientes submetidos ao aHSCT, com seguimento por MRI há mais de cinco anos. As imagens de RM foram arquivadas nos servidores do CCIFM, foram recuperadas, anonimizadas e revistas por pelo menos dois radiologistas experientes, de maneira independente e por confrontação. Foi considerada falha terapêutica a identificação de lesões novas e/ou lesões com reativação inflamatória. Resultados: Dez pacientes foram excluídos. Doze pacientes (18,18%) apresentaram novas lesões ou recorrência do processo inflamatório, com reforço. Conclusão: Na nossa amostra o aHSCT foi capaz de controlar a recorrência de lesões e da atividade inflamatória perceptível na RM em mais de 87% dos casos, caracterizando uma importante opção terapêutica de segunda linha nos casos de maior agressividade da doença / Multiple sclerosis (MS) is a recurrent chronic inflammatory demyelinating disease, restricted to the central nervous system (CNS), whose histological feature is the occurrence of perivenular inflammatory infiltrate, leading to demyelination with relative axonal preservation. The classic form of the disease is characterized by the recurrence of attacks (outbreaks), followed by remission of symptoms (RRMS), with the presence of multiple focal lesions dispersed by the CNS (spatial dissociation) with exuberant inflammatory process in the acute phase, coexisting with chronic lesions (Temporal dissociation) without inflammatory activity evidenced by the breakdown of blood-brain barrier and contrast-enhanced contrast-enhanced magnetic resonance imaging (MRI). Some patients have a benign course, remaining free of significant sequelae for more than 20 years of the disease. Other patients have an aggressive form of the disease, being restricted to the wheelchair in 8 to 10 years of evolution. One challenge is to modify the course in this aggressive way, which can be done with the use of immunomodulators, chemotherapeutics and, eventually, autologous hematopoietic stem cell transplantation (aHSCT). The goal of using aHSCT is to restore immune activity free of myelin attacks (\"autoimmune reset\"). One of the ways to monitor treatment efficacy is to identify the occurrence of new lesions and visible reinforcing lesions on serial MRI scans. Objective: To test the hypothesis that the treatment of patients with MS using AHSCT was effective in avoiding the recurrence of inflammation and the appearance of new visible lesions in SB at the long-term examination of MRI. Results: At our institution, approximately 66 patients with MS were treated with aHSCT from 2004 to 2011, followed by the hematology, neurology / neuroimmunology and MRI sections of the CCIFM-HCRP. Methods: Brain and MRI scans acquired in a prospective and protocolized way from 76 patients who underwent aHSCT were followed up with MRI for more than five years. The MR images were archived on the CCIFM servers, retrieved, anonymised and reviewed by at least two experienced radiologists, independently and by confrontation. The identification of new lesions and / or lesions with inflammatory reactivation was considered therapeutic failure. Results: Ten patients were excluded. Twelve patients (18.18%) presented new lesions or recurrence of the inflammatory process, with reinforcement. Conclusion: In our sample, aHSCT was able to control the recurrence of lesions and the inflammatory activity detected in MRI in more than 87% of the cases, characterizing an important second line therapeutic option in the cases of greater aggressiveness of the disease.

Esclerose múltipla

Imagem de ressonância magnética

Transplante autólogo de medula óssea

Bone marrow transplante (BMT)

Magnetic ressonance imaging

Multiple sclerosis

Importância das disparidades genéticas nos genes HLA e KIR na resposta de pacientes submetidos ao transplante alogênico de células progenitoras hematopoiéticas para o tratamento de doenças onco-hematologicas = Importance of genetic differences in HLA and KIR genes in the response of patients undergoing allogeneic hematopoietic stem cell transplantation for treatment of onco-hematological diseases / Importance of genetic differences in HLA and KIR genes in the response of patients undergoing allogeneic hematopoietic stem cell transplantation for treatment of onco-hematological diseases

Cardozo, Daniela Maira, 1984-

22 August 2018

Orientadores: Cármino Antonio de Souza, Jeane Eliete Laguila Visentainer / Tese (doutorado) - Universidade Estadual de Campinas, Faculdade de Ciências Médicas / Made available in DSpace on 2018-08-22T17:20:39Z (GMT). No. of bitstreams: 1 Cardozo_DanielaMaira_D.pdf: 3033896 bytes, checksum: b4696b2dc5fc0ec422091c74289aed9f (MD5) Previous issue date: 2013 / Resumo: No organismo humano, as moléculas HLA (Human Leukocyte Antigens) são proteínas expressas na superfície da maioria das células nucleadas e são codificadas por genes localizados no braço curto do cromossomo 6 na região do Complexo Principal de Histocompatibilidade (CPH). Essas proteínas são caracterizadas pelo alto grau de polimorfismo, e também faz a ligação com receptores KIR (Immunoglobulin-like Receptors), expressos nas células Natural Killer. Os receptores KIR, que reconhecem moléculas do complexo HLA de classe I, estão entre os principais receptores inibidores dos linfócitos NK. Células infectadas por vírus e células tumorais perdem ou têm diminuída a expressão de moléculas HLA de classe I e, por isso, são eliminadas pela ausência de ligação entre moléculas HLA e receptores KIR inibitórios. Atualmente, muitos estudos têm destacado a importância dos genes KIR e HLA no Transplante de Células Progenitoras Hematopoiéticas (TCPH). O TCPH é o tratamento de escolha para muitas doenças hematológicas e dependem de vários fatores incluindo o estágio da doença, o regime de condicionamento, a fonte de células, o grau de identidade HLA entre doador e receptor e o desenvolvimento da doença do enxerto contra o hospedeiro (DECH). Estudos recentes indicam que a presença de células NK alorreativas no enxerto representa um fator favorável à recuperação de pacientes, uma vez que essas células têm a capacidade de eliminar células tumorais residuais pela ausência ou diminuição da expressão de moléculas HLA e sem a indução da DECH. Também outros fatores podem estar envolvidos na resposta pós-transplante, como a presença e ausência de determinados alelos HLA e genes KIR, os quais podem estar ligados à melhor ou pior resposta pós-transplante. O primeiro ensaio investigou a associação entre HLA e a ocorrência da DECH aguda e crônica em pacientes que receberam transplante de células progenitoras hematopoiéticas HLA-idêntico, aparentados. No total, foram 176 pacientes que receberam o primeiro transplante entre 1997 e 2009. DECH aguda foi positivamente associada ao HLA-A10 (P = 0.0007), HLA-A26 (P = 0.002), B55 (P = 0.001), DRB1*15 (P = 0.0211) e DQB1*05 (P = 0.038), enquanto que HLA-B16 (P = 0.0333) foi mais frequente em pacientes sem DECH aguda. DECH crônica foi positivamente associada com HLA-A9 (P = 0.01) e A23 (P = 0.0292) e negativamente associada com HLA-A2 (P = 0.0031) e B53 (P = 0.0116). HLA-B35 (P = 0.0373), B49 (P = 0.0155) e B55 (P = 0.0024) foi alta em pacientes com DECH aguda grau 3 ou mais, do que os outros pacientes. Nos pacientes com DECH crônica extensa, HLA-A9 (P = 0.0004), A24 (P = 0.0059) e A26 (P = 0.0411) foi maior do que nos outros pacientes, enquanto HLA-A2 foi baixo (P = 0.0097). O objetivo do segundo ensaio foi avaliar as possíveis interações dos genes KIR e HLA com o curso clínico do transplante HLA compatível, aparentado e não depletado de linfócitos T, particularmente na doença do enxerto contra o hospedeiro (DECH) aguda e crônica, recaída, sobrevida global e sobrevida livre de evento. A maioria dos doadores (78%) apresentaram o haplótipo B do KIR enquanto que 22% apresentaram o haplótipo A. Dos pacientes que receberam o haplótipo A do doador, 90% tiveram DECH, aguda ou crônica, comparados com os que receberam o haplótipo B (58%) (dados não estatisticamente significantes). Não houve diferença significativa para recaída entre pacientes que receberam os haplótipo A ou B (27% vs 23%). Não houve diferença no desenvolvimento da DECH e recaída para os pacientes homozigotos (C1C1 ou C2C2) e heterozigotos (C1C2) e nem para aqueles com HLA-Bw4 presente e ausente. Também, a sobrevida global não foi diferente para os grupos de pacientes analisados. No entanto, houve forte correlação entre o grupo de pacientes heterozigotos para HLA-C (C1C2) e a incidência de DECH aguda e recaída. A SLE foi maior nos pacientes heterozigotos que não desenvolveram DECHa (p<0,0001). Resultados mostraram que as variantes de HLA podem influenciar na ocorrência de DECH em transplante alogênico, com doadores relacionados, HLA-idênticos, tanto como fatores de proteção, quanto como fatores de susceptibilidade. Ainda, a interação KIR/HLA tem impacto significante no resultado dos transplantes relacionados, HLA compatível, sem depleção de linfócitos T, influenciando na incidência de recaída e na ocorrência da DECH. Resultados mostraram que para o grupo heterozigoto (C1C2) a maioria dos pacientes não desenvolveu DECH aguda e apresentou maior SLE, sugerindo um possível efeito protetor para esse grupo / Abstract: In the human organism, the HLA (human leukocyte antigens) are proteins expressed on the surface of most nucleated cells and are encoded by genes located on the short arm of chromosome 6 in the region of the Major Histocompatibility Complex (MHC). These proteins are characterized by a high degree of polymorphism, and also make the connection with KIR (Immunoglobulin-like Receptors), expressed in Natural Killer cells. KIR receptors that recognize HLA molecules of class I are among the major inhibitory receptors of NK-cells. Virus infected cells and tumor cells have lost or diminished expression of HLA class I molecules and therefore are eliminated by the absence of binding between HLA molecules and inhibitory KIR receptors. Currently, many studies have highlighted the importance of KIR and HLA genes in Hematopoietic Stem Cell Transplantation (HSCT). HPCT is the treatment of choice for many hematological malignancies and depends on various factors including stage of disease, the conditioning regimen, the source of cells, the degree of identity between donor and recipient HLA and development of chronic graft-versus-host (GVHD). Recent studies indicate that the presence of alloreactive NK cells in the graft is a factor aiding the recovery of patients, since these cells have the ability to eliminate residual tumor cells by the absence or diminution of expression of HLA molecules and without inducing GVHD. Also other factors may be involved in response post-transplant, as the presence or absence of certain HLA genes and KIR, which can be connected to a better or worse response after transplantation. The first trial investigated the association between HLA and the occurrence of acute and chronic GVHD in patients receiving hematopoietic stem cell transplant HLA-identical related. In total, 176 patients who received a first transplant between 1997 and 2009. GVHD was positively associated with HLA-A10 (P = 0.0007), HLA-A26 (P = 0.002), B55 (P = 0.001), DRB1 * 15 (P = 0.0211) and DQB1 * 05 (P = 0.038), while that HLA-B16 (P = 0.0333) was more frequent in patients without acute GVHD. Chronic GVHD was positively associated with HLA-A9 (P = 0.01) and A23 (P = 0.0292) and negatively associated with HLA-A2 (P = 0.0031) and B53 (P = 0.0116). HLA-B35 (P = 0.0373), B49 (P = 0.0155) and B55 (P = 0.0024) was high in patients with acute GVHD grade 3 or more, than the other patients. In patients with extensive chronic GvHD, HLA-A9 (P = 0.0004), A24 (P = 0.0059) and A26 (P = 0.0411) was greater than in the other patients, whereas HLA-A2 was low (P = 0.0097). The objective of the second test was to evaluate the possible interactions of KIR and HLA genes with the clinical course of the transplant HLA compatible related and not depleted of T lymphocytes, particularly in chronic graft versus host disease (GVHD) acute and chronic relapse, survival overall and event-free survival. Most donors (78%) presented the KIR B haplotype while 22% were haplotype A. Of the patients who received the donor haplotype A, 90% had GvHD, acute or chronic, compared with those who received the haplotype B (58%) (data not statistically significant). There was no significant difference in relapse between patients who received the haplotype A or B (27% vs 23%). There was no difference in the development of GVHD and relapse for patients homozygous (C1C1 or C2C2) and heterozygous (C1C2) and not for those with HLA-Bw4 present and absent. Also, the overall survival was not different for the groups of patients studied. However, there was strong correlation between the group of patients heterozygous for HLA-C (C1C2) and the incidence of acute GVHD and relapse. The SLE was higher in patients who did not develop GVHD heterozygotes (p <0.0001). Results showed that the HLA variants may influence the occurrence of GVHD in allogeneic transplantation with related donors, HLA-identical, both as protective factors, such as susceptibility factors. Furthermore, the interaction KIR / HLA has a significant impact on the outcome of transplantation related HLA-compatible, without depletion of T cells, influencing the incidence of relapse and the occurrence of GVHD. Results showed that for the heterozygous group (C1C2) most patients did not develop acute GVHD and showed higher SLE, suggesting a possible protective effect for this group / Doutorado / Clinica Medica / Doutora em Clínica Médica

Receptores KIR

Células matadoras naturais

Células-tronco hematopoéticas

Doença enxerto-hospedeiro

Major histocompatibility complex

Receptors, KIR

Killer cells, Natural

Hematopoietic stem cells

Graft vs host disease

Gestantes com hipertensão arterial: implicações na celularidade do sangue de cordão umbilical e placentário

Marques, Dulcinéa Luzia de Oliveira Lima

January 2011

Submitted by Fabiana Gonçalves Pinto (benf@ndc.uff.br) on 2015-12-03T17:07:24Z No. of bitstreams: 1 Dulcinea Luzia de Oliveira Lima Marques.pdf: 1782106 bytes, checksum: 004f6a4a517b9e777f74bc04168ea7c5 (MD5) / Made available in DSpace on 2015-12-03T17:07:24Z (GMT). No. of bitstreams: 1 Dulcinea Luzia de Oliveira Lima Marques.pdf: 1782106 bytes, checksum: 004f6a4a517b9e777f74bc04168ea7c5 (MD5) Previous issue date: 2011 / Mestrado Acadêmico em Ciências do Cuidado em Saúde / As atividades desenvolvidas pelo enfermeiro nos Bancos de Sangue de Cordão Umbilical Placentário demanda alta complexidade assistencial e funcional, fato que imputam a responsabilidade de identificar situações que devam ser avaliadas, pesquisadas e reformuladas, como por exemplo os critérios de doação de sangue de cordão umbilical e placentário (SCUP), critérios de inclusão e exclusão de doadoras, padronização de técnicas e demais situações que envolvem a atuação do enfermeiro. A celularidade tem sido alvo de atenção por parte dos enfermeiros, devido a necessidade de obtenção de um número adequado células-tronco hematopoiéticas. Este estudo objetivou discutir a associação entre a celularidade do sangue do cordão umbilical e placentário e a hipertensão arterial e; traçar perfil das gestantes com hipertensão arterial e sem hipertensão arterial. A metodologia correspondeu a um estudo observacional do tipo caso-controle. O local da pesquisa foi o Hospital Maternidade Oswaldo de Nazareth e o Laboratório de Processamento e Criopreservação do Instituto Nacional de Câncer e os sujeitos do estudo foram setenta de três gestantes internadas, e que tiveram o sangue de cordão umbilical e placentário coletados após a dequitação. A análise estatística foi processada pelo software estatístico SAS® System, versão 6.11 e o critério de determinação de significância adotado foi o nível de 5%. A análise estatística apresentou resultados satisfatórios, constatamos que a celularidade inicial do sangue do cordão umbilical de gestantes hipertensas não apresentou diferença significativa comparado com a celularidade de gestantes não-hipertensas. Das bolsas de SCUP coletas de gestantes hipertensas, 80% apresentou celularidade ≥ 5 x 108 e 20% celularidade < 5 x 108 (de acordo com padrão estabelecido pela RDC 56). A partir deste estudo, podemos concluir que gestantes com hipertensão arterial apresentaram uma quantidade adequada no total de células nucleadas, atendendo aos critérios estabelecidos pela RDC 56. Com base nestes resultados e com a intensificação de pesquisas neste campo, sugerimos a reavaliação dos critérios de doação do sangue do cordão umbilical e placentário das gestantes com hipertensão arterial. A celularidade do SCUP apresentou uma relação positiva com alguns fatores neonatais e características da placenta/cordão, o conhecimento destes fatores permitirá as equipes dos BSCUP, a identificação de características importantes relacionadas à mãe, ao recém-nascido e as características da placenta e do cordão que possam otimizar o quantitativo de células obtidas do SCUP. / The activities performed by nurses in the Blood Banks Umbilical Cord Placental high demand and functional complexity of care, a fact that indirectly responsible to identify situations that should be evaluated, researched and reworked, such as the criteria for donation of umbilical cord blood and placental (SCUP), inclusion and exclusion criteria for donors, standardization of techniques and other situations that involve the performance of nurses. WBC has been the subject of attention from nurses, due to the need to obtain an adequate number of hematopoietic stem cells. This study aimed to discuss the relation between cellularity and cord blood and placental and hypertension, a profile of pregnant women with hypertension and no hypertension. The methodology corresponded to an observational case-control. The research site was the Maternity Hospital and Oswaldo de Nazareth Processing and Cryopreservation Laboratory of the National Cancer Institute and the study subjects were pregnant women admitted seventy three, and had the blood of the umbilical cord and placenta collected after dequitação. Statistical analysis was performed with SAS ® System software, version 6.11 and the criterion for determining significance was set at 5%. Statistical analysis showed satisfactory results, we found that the initial cellular cord blood of pregnant women with hypertension showed no significant difference compared with the cellularity of pregnant women not hypertensive. SCUP collections of the stock of pregnant women with hypertension, 80% had WBC ≥ 5 x 108 and 20% cellularity <5 x 108 (according to standards established by the DRC 56). From this study, we conclude that pregnant women with hypertension had an adequate amount of total nucleated cells, meeting the criteria established by the RDC 56. Based on these results and the intensification of research in this field, we suggest a reassessment of the criteria for donation of umbilical cord blood and placenta of pregnant women with hypertension. The cellularity of the SCUP presented a positive relationship with some factors and characteristics of neonatal placental / cord, the knowledge of these factors will allow teams of BSCUP, the identification of important features related to the mother, the newborn and the characteristics of the placenta and umbilical that can optimize the quantity of cells obtained from SCUP.

Hipertensão induzida pela gravidez

Sangue fetal

Células-tronco hematopoéticas

Placenta

Hipertensão induzida pela gravidez

Sangue fetal

Células-tronco hematopoéticas

Placenta

Pregnancy-induced hypertension

Fetal blood

Hematopoietic stem cell

Placenta

Bone marrow niche-mimetics modulate hematopoietic stem cell function via adhesion signaling in vitro

Kräter, Martin

09 November 2017

As graft source for lymphoma or leukemia treatment, hematopoietic stem and progenitor cells (HSPCs) have been the focus of translational medicine for decades. HSPCs are defined by their self-renewing capacity and their ability to give rise to all mature blood cells. They are found anchored to a specialized microenvironment in the bone marrow (BM) called the hematopoietic niche. HSPCs can be enriched by sorting them based on the presence of the surface antigen CD34 before clinical or tissue engineering use. As these cells represent a minority in most graft sources and the amount of applicable cells is limited, ex vivo expansion-cultures were established using cytokine cocktails or small molecules. However, in vitro culture of HSPCs as suspension-cultures result in heterogeneous cell populations with undefined cellular identities. In the BM niche, HSPCs are not exclusively maintained by cytokines but also by cell-matrix adhesions mediated by integrins (ITGs). Thus, β1 and β2 ITGs were found to promote initial contact of HSPCs with mesenchymal stromal cells (MSCs) and ITGβ3 expression was shown to be a marker for long-term repopulating HSPCs in vivo. Consequently, ex vivo remodeling of the BM niche using co-cultures of HSPCs and niche cells like MSCs came into spotlight and was proven to be a promising tool for stem cell expansion. However, in clinical and research applications, direct contact of two cell populations necessitates HSPC post-culture purification. To address these problems, we established a novel culture method for remodeling the BM extra cellular stroma in vitro wherein we used decellularized extracellular matrix (ECM) scaffolds derived from immortalized mesenchymal stromal cells (SCP-1). Such scaffolds were found to be highly reproducible and served as in vitro niche for HSPCs by being more effective for the expansion of CD34+ cells, compared to classical suspension cultures. ECMs were shown to consist of multiple proteins including fibronectins, collagens, and a major niche chemokine responsible for BM homing and retention of HSPCs in vivo, namely, stromal derived factor 1 (SDF-1). SDF-1 is known to be secreted by MSCs and is anchored to matrix proteins. This reveals that ECM scaffolds produced by SCP-1 cells are a naïve reconstructed microenvironment. When CD34+ cells were seeded, only around 20% of the cells adhered to the provided ECM scaffold. These cells recognized SDF-1 via C-X-C chemokine receptor type 4 (CXCR-4), as shown by laser scanning confocal microscopy. Thus, adhesive sides as they are present in the BM niche are provided. However, CD34+ cells isolated from G-CSF mobilized peripheral blood of healthy donors were found to be heterogenous with respect to adhesion capacity. Nonetheless, it was similar to HSPC co-cultures with SCP-1 cells as feeder layer. Therefore, we separated and analyzed two cell fractions, the adherent (AT-cells) and the non- adherent supernatant (SN-cells) cells. Other signals provided by the BM extracellular stroma to HSPCs are physical cues that control HSPC fate. HSPCs sense these physical features through focal contacts and accordingly remodel their morphological and biomechanical properties. Using real-time deformability cytometry (RT-DC) to uncover biomechanical phenotypes of freshly isolated HSPCs, SN-cells, AT-cells, and classical suspension cultured HSPCs in plastic culture dishes (PCD) were analyzed. We found freshly isolated cells to be less deformable and small. AT-cells displayed actin polymerization to stress fibers, and exhibited a stiffer mechanical phenotype compared to PCD-cultured or SN-cells. This might constitute the first hint of functional adaptation. Integrins are known to establish mechanosensing focal contacts. Thus, we analyzed ITG surface expression and identified ITGαIIb, ITGαV, and ITGβ3 to be enriched on AT-cells compared to freshly isolated cells or SN-cells. Active integrins need to form heterodimers consisting of one α- and one β subunit. Interestingly, the identified ITGs exclusively interact with each other to form RGD peptide receptors. RGD is a tripeptide consisting of the amino acids arginine, glycine, and aspartic acid and was identified as an adhesion sequence within fibronectin and other extracellular proteins. Consequently, we could confirm an important role for ITGαVβ3 in HSPC- ECM interaction with respect to adhesion and migration. However, we also identified ITGβ3 expression on a subset of CD34+ cells either freshly isolated or ECM cultured cells, as a marker for erythrocyte differentiation. These findings demonstrate that, in vitro, the ECM compartment acts as a regulator of HSPC fate and portray mechanical recognition as a potent driver of differentiation. In this context, targeted modulation of ECM scaffolds could enhance cell-ECM interactions and accelerate stem cell expansion or differentiation. These modulations could also provide further insights into HSPC-niche regulation. We demonstrate that ECMs derived from osteogenic differentiated SCP-1 cells increase HSPC expansion but do not lead to increased cell adhesion. As ECM adhesion preliminary alters HSPC function, we aimed at developing ECM scaffolds with increased adhesion capacity. Using lentiviral transduction, we generated a stable knock down of fibulin-1 in SCP-1 cells. Fibulin-1 is an ECM protein known to form anti-adhesion sites with fibronectin. However, we failed to increase adherent cell numbers or enhance HSPC expansion in the fibulin-1 knock down ECMs. Taken together, SCP-1 cell-derived ECM protein scaffolds provide an in vitro niche for HSPCs capable of stem cell expansion. Integrin mediated signaling altered the biomechanical and functional properties of HSPCs and hints at suspension cultures as being inappropriate to study the physiological aspects of HSPCs. Targeted modulation of ECM scaffolds could theoretically generate suitable ex vivo environments with the capacity to gain detailed insight into HSPC regulation within their niche. This will enhance the functionality of new biomaterials and will lead to improved regenerative therapies like BM transplantation.

Knochenmarksnische

Integrin beta 3

extrazelluläre Miatrix

blutbildende Stammzelle

Bone marrow niche-mimetics

Integrin beta 3

extracellular matrix

hematopoietic stem cell

ddc:610

rvk:WE 2400

Blutstammzelle

Extrazelluläre Matrix

Knochenmark

Integrine

Hematopoietic progenitor populations for cell therapy of autoimmune diseases : characterization and comparison of their mechanism of action in Type I Diabetes and Experimental Autoimmune Encephalomyelitis / Thérapie cellulaire des maladies autoimmunes avec des populations de progéniteurs hématopoïétiques : caractérisation et comparaison de leur mécanisme d'action dans le diabète de type I et encéphalomyélite autoimmune expérimentale

Korniotis, Sarantis

24 June 2014

Les infections et l’activation du système immunitaire stimulent l’hématopoïèse. L’activation des récepteurs Toll-like (TLRs) des cellules souches hématopoïétiques, par leur reconnaissance de motifs moléculaires portés par des agents infectieux, en oriente la différenciation vers les voies myéloïdes, renforçant la capacité de notre organisme à lutter contre les infections. Ici, nous avons étudié si les agonistes TLRs peuvent, au contraire, induire au sein de la moelle osseuse l’émergence de progéniteurs hématopoïétiques présentant des propriétés immunorégulatrices. Nous montrons que l’incubation de moelle osseuse de souris en présence de l’agoniste TRL-9, CpG-B, entraîne l’émergence d’une population de progéniteurs au stade pro-B (appelée CpG-proBs). Le transfert adoptif de seulement 60,000 CpG-proBs par receveur, à l’apparition des premiers signes cliniques, confère une protection à long terme dans deux modèles expérimentaux de maladies auto-immunes, le Diabète de Type I (T1D) et l’Encéphalomyélite Auto-immune Expérimentale (EAE). La migration, la différenciation, et les mécanismes cellulaires et moléculaires de cette population protectrice sont décrits et comparés entre ces deux modèles. Dans les deux modèles, les CpG-proBs migrent vers le tissu cible de la réponse auto-immune et se différencient en cellules B matures régulatrices. Dans le T1D, l’interféron-γ (IFN-γ) produit par les cellules T s’avère essentiel pour induire la surexpression de FasL à la surface des CpG-proBs, entraînant l’apoptose des cellules T effectrices. De plus, l’IFN-γ produit par les CpG-proBs réduit la production par les cellules T de l’IL-21, une cytokine pathogène majeure dans le T1D. La descendance des CpG-proBs est composée de précurseurs transitionnels B, de cellules B de la zone marginale et de cellules B folliculaires, exprimant de forts niveaux de FasL et toujours capables d’induire l’apoptose des cellules T, prolongeant ainsi le contrôle des cellules effectrices T auto-immunes in vivo. Dans l’EAE, l’IFNγ est indirectement responsable de la rétention des cellules T, par l’internalisation de CCR7, au sein des ganglions lymphatiques, inhibant ainsi leur migration au système nerveux central (SNC). Dans la moelle épinière, tissu cible de l’EAE, les CpG-proBs se différencient en cellules B220+CD5+CD1dhiCD11b+, secrétant la cytokine anti-inflammatoire IL-10. Enfin, la mobilisation des progéniteurs hématopoïétiques par un cocktail de facteurs hématopoïétiques confère à une sous-population multipotente au stade MPP2 la propriété d’augmenter l’expansion des Foxp3+ Tregs et de prévenir la survenue du diabète de type 1. Nous montrons que les MPP2 mobilisés s’avèrent également capables d’exercer un effet protecteur envers l’EAE. Leur capacité à induire l’expansion de Treg Foxp3+ au sein du SNC et à la périphérie joue un rôle essentiel dans la protection des souris envers l’EAE, puisque la déplétion des Treg abolit la protection déjà établie. Pour conclure, nous avons mis en évidence que diverses stimulations de l’hématopoïèse induisent l’émergence de nouvelles populations de progéniteurs hématopoïétiques qui présentent des propriétés immunorégulatrices et constituent de nouveaux outils de thérapie cellulaire des maladies auto-immunes. / It is well known today that various infectious events or other stimuli of the immune system can trigger hematopoiesis. The hematopoeitic stem and/or progenitor cells express on their cell surface Toll-like receptors which can recognize molecular motifs of infectious agents. The stimulation of TLRs on hematopoietic stem cells favors their differentiation into myeloid lineages, reinforcing the capacity of our body to fight against the pathogens. Herein, we have investigated whether the stimulation of TLRs can induce, instead, the emergence within the bone marrow of selective progenitor cells with immunoregulatory properties. We show that incubation of bone marrow cells with the TLR-9 ligand CpG-B can induce a pro-B cell population (named CpG-proBs) whose adoptive transfer at low numbers of 60,000 cells provided long-lasting protection in two models of autoimmune diseases, Type I Diabetes (TID) and Experimental Autoimmune Encephalomyelitis (EAE) at the onset of clinical signs. The migration, differentiation and molecular mechanism of action of this protective population is described and compared between these two models. In both models, the CpG-proBs migrate to the target tissue of autoimmune responses and differentiate into more mature regulatory B cells. In TID, IFN-γ produced by both T and CpG-proB cells is essential for the upregulation of FasL at the surface of CpG-proBs, inducing the apoptosis of the effector T cells. In addition, IFN-γ reduced the T-cell production of IL-21, a major pathogenic cytokine in TID. The progeny of the adoptively transferred CpG-proBs, including transitional precursors B cells, marginal zone and follicular B cells, display high expression of FasL, promote apoptosis of effector T cells and prolong the control of autoimmune effector T cells in vivo. In EAE, IFN-γ was responsible for the restriction of T cells to the lymph nodes, inhibiting their homing to the CNS. IFN-γ indirectly induced the internalization of CCR7, a receptor required for the migration across the blood-brain barrier. In the spinal cord (target tissue in EAE), CpG-proBs differentiated into B220+CD5+CD1dhiCD11b+ cells secreting the anti-inflammatory cytokine IL-10. Finally, hematopoietic progenitor populations mobilized to the periphery by a cocktail of G-CSF and Flt3l, at the stage of MPP2, have already been shown to protect against TID by expanding the Foxp3+ Tregs. We evaluated them in the EAE model, showing that the ability of these mobilized progenitor cells to trigger the expansion of Foxp3+ Treg within the CNS and the periphery was necessary for providing protection to EAE mice since Treg depletion abrogated the protection once established. In conclusion, we provide evidence for the emergence of new populations of hematopoietic progenitor cells which can display immunoregulatory properties and might be used for cell therapy of autoimmune diseases.

Immunothérapie

Progéniteurs hématopoïétiques

Les récepteurs Toll-like

EAE

TID

Cellules régulatrices B

Maladies auto-immunes

Immunotherapy

Hematopoietic progenitors

Toll-like receptors

EAE

TID

B regulatory cells

Autoimmune diseases

Regulatory populations

616.079

Approche physiopathologique et recherche de biomarqueurs associés aux complications neurovasculaires chez l'enfant drépanocytaire / Biomarkers associated with cerebrovascular complications in children with sickle-cell disease : a pathophysiological approach

Kossorotoff, Manoëlle

24 November 2014

L'atteinte vasculaire cérébrale est une complication grave et fréquente chez les enfants drépanocytaires, car elle impacte leur pronostic, en termes de morbidité (handicap) et de mortalité. L’accélération des vitesses mesurées par le doppler transcrânien (DTC) est prédictive du risque d'infarctus cérébral et implique une modification de la prise en charge thérapeutique. Chez l’enfant drépanocytaire, l'infarctus cérébral est d'origine multifactorielle, lié à la vasculopathie cérébrale sténotique ainsi qu'à une hypercoagulabilité et une activation cellulaire. Nous avons étudié de manière prospective l'association de marqueurs biologiques au DTC chez 108 enfants porteurs de syndrome drépanocytaire majeur et recherché des éléments prédictifs d'événement vasculaire périphérique ou cérébral. Nous avons ainsi réalisé une analyse approfondie de la fonction endothéliale, de l’activation de l’hémostase primaire et de la coagulation, de l'activation cellulaire et de la mécanique artérielle. L’atteinte vasculaire cérébrale a été estimée en considérant les données du DTC comme une variable continue plutôt que catégorielle. Le principal résultat est le rôle prédictif du nombre des cellules souches hématopoïétiques CD34+ pour la survenue d'événements cliniques vasculaires. Nous avons également mis en évidence un profil particulier de coagulation chez les enfants drépanocytaires présentant des céphalées récurrentes ou des accès migraineux. Ceci supporte l'hypothèse que les céphalées chez l'enfant drépanocytaire, et notamment celles répondant aux critères de la migraine, peuvent être le reflet d'événements ischémiques cérébraux ultra-transitoires. Elles représentent donc peut-être un indicateur indirect de risque ischémique cérébral. Nous avons par ailleurs montré que le risque hémorragique cérébral chez les enfants drépanocytaires restait proportionnellement stable par rapport au risque ischémique, malgré l'utilisation en routine de stratégies de prévention du risque ischémique. L'observation de lésions sténotiques et d'anévrismes permet de supposer que ces atteintes vasculaires cérébrales procèdent de mécanismes physiopathologiques communs. L'amélioration de la compréhension des mécanismes physiopathologiques des complications neurovasculaires et la mise en évidence de facteurs prédictifs d'événements cliniques est un pas supplémentaire vers l'amélioration de la sensibilité diagnostique de la vasculopathie cérébrale drépanocytaire, de la compréhension des mécanismes des accidents vasculaires cérébraux de ces enfants et probablement de leur pronostic neurologique en permettant une prise en charge thérapeutique adaptée plus précoce. / Cerbrovascular involvement is frequent in children with sickle-cell disease (SCD). It is severe in terms of morbidity (handicap) and mortality. Accelerated intracranial arterial blood flow velocity measured by transcranial doppler (TCD) is predictive for stroke occurrence and leads to therapeutic modifications. In SCD children, ischemic stroke results from stenotic cerebral vasculopathy associated with hypercoagulability, and cell activation. We prospectively addressed associations between biological markers and TCD velocity in 108 children with sickle-cell anemia (HbSS or HbSβ°) and looked for predictive factors for vascular peripheral or cerebral events. We performed extensive work-up of endothelial function, coagulation activation, cell activation, and arterial wall mechanics. Cerebral vasculopathy was defined using TCD velocity (continuous data) rather than the classical category classification. The main result is the demonstration of the role of hematopoietic stem cell CD34+ for the prediction of clinical vascular event occurrence. We also demonstrated an imbalanced coagulation profile in SCD children with recurrent cephalalgia or migraine. This finding supports the hypothesis that recurrent cephalalgia, especially migraine, could be a symptom of ultra-transient ischemic cerebrovascular events in SCD children. Therefore, this symptom may also indicate increased cerebrovascular ischemic risk. We demonstrated that the ratio cerebral hemorrhagic risk / cerebral ischemic risk in SCD children remains stable, despite the routine use of strategies aiming at reducing ischemic stroke risk. The concurrent observation of intracranial arterial stenotic lesions and aneurysm suggests common pathophyiological mechanisms. Improving pathophysiological understanding of cerebrovascular complications and demonstrating predictive risk factors for clinical events may help clinicians to improve early diagnosis of SCD-associated cerebral vasculopathy, to better understand stroke mechanism in this population, and probably to improve neurological outcome with earlier and more adapted management

Drépanocytose

Enfant

Vasculopathie cérébrale

AVC

Infarctus cérébral

Cellules souches hématopoïétiques

Migraine

Hémorragie cérébrale

Anévrisme

Sickle-cell disease

Children

Cerebral vasculopathy

Stroke

Ischemic stroke

Hematopoietic progenitor cell

Migraine

Cerebral hemorrhage

Aneurysm

616.152 7

La différentiation in vitro des cellules dendritiques plasmacyto des partir de cellules CD34+ de sang de cordon, un outil thérapeutique pour augmenter l'activité́ antitumorale des cellules NK

Diaz Rodriguez, Yildian

08 1900

L’immunothérapie basée dans l’utilisation des cellules NK pour le traitement de différents types de cancers humains est une stratégie très prometteuse. Les cellules dendritiques plasmacytoïdes (pDC) activées permettent de stimuler les cellules NK pour augmenter leurs propriétés anti-tumorales. Les cellules NK activées par les pDC sont capables de développer in vitro et in vivo une forte réponse cytotoxique contre différentes lignées de leucémie lymphoblastiques pre-B. En revanche, les faibles quantités de pDC obtenues à partir du sang périphérique limitent leur l’utilisation en clinique. L’expansion et la différenciation des pDC in vitro à partir des progéniteurs hématopoïétiques CD34, permet d’obtenir des pDC humaines en grande quantité. Récemment il a été démontré que l’utilisation des antagonistes du récepteur de l’aryl hydroxycarbone (AhR) augmente le nombre des pDC générées in vitro. Cependant, la capacité à activer les cellules NK des pDC différenciées in vitro en présence d’antagonistes de l’AhR n’a pas encore été étudiée. Dans cette étude, nous montrons que les pDC obtenues in vitro ont une expression de molécules d’activation et une sécrétion de IFN plus faibles que celles des pDC du sang périphérique, mais que leur capacité à stimuler des cellules NK est similaire. Ces résultats ouvrent donc la voie à l’utilisation des pDC générées in vitro comme agent immuno-therapeutique visant à stimuler les fonctions anti-tumorales des cellules NK. / NK cells immunotherapy is a promising treatment for different human cancers. An effective approach to stimulate NK cells has been the use of activated plasmacytoid dendritic cells (pDC). NK cell activated by pDC develops a strong cytotoxic response against pre-B acute lymphoblastic leukemia (ALL) cell lines in vitro and in vivo. However, the use of pDC in the clinic has limitations because of its low frequency. One suitable strategy is the differentiation of CD34+ progenitors using different cytokines and chemokines. Recently, it has been demonstrated that antagonists of aryl hydroxyl receptor (AhR) increase the number of pDC obtained after culture of CD34+ cells. Nevertheless, the ability of these in vitro differentiated pDC to induce NK cells activation has not been well documented. In this study, it was showed that activated in vitro differentiated pDC present different characteristics than adult pDC, like a lower expression of activation markers and IFNalpha secretion, but their capacity to stimulate NK cells was similar to that observed in adult pDC. In addition, NK cells activated by in vitro differentiated pDC showed a strong cytotoxicity against the pre-B ALL cell line REH suggesting its effectiveness to treat ALL patients.

Immunothérapie

cellules NK

antagonistes du AhR

Immunotherapy

NK cells

plasmacytoid dendritic cells

AHR antagonists

Les dilemmes de l'allogreffe de sang placentaire explorés au travers de deux alternatives thérapeutiques : le sérum anti-lymphocytaire in vivo, l'interleukine-7 in vitro / The dilemmas of the allograft of placental blood explored through two therapeutic alternatives

Pascal, Laurent

19 December 2014

Le greffon de sang placentaire permet d’accéder aux indications de l’allogreffe de cellules souches hématopoïétiques (CSH) en l’absence de disponibilité d’un donneur non apparenté compatible. De part ses propriétés intrinsèques, cette source n’expose pas à un risque plus élevée de réaction de greffon contre l’hôte (GVH) au regard des incompatibilités qu’elle autorise ni à un taux plus élevé de rechutes. En revanche, elle comporte un risque supérieur de non prise de greffe et une reconstitution immunologique post‐greffe retardée responsable d’une morbidité et d’une mortalité liées aux infections. L ‘expansion homéostatique périphérique des lymphocytes T du sang placentaire est un facteur déterminant de l’évolution bénéfique ou défavorable de l’allogreffe de CSH de sang placentaire. Dans les premières semaines post‐greffe, la prolifération homéostatique des cellules T joue un rôle critique par son implication dans l’immunité anti‐tumorale et antiinfectieuse. Cette dualité qui a été le fil conducteur de ce travail de thèse est délicate à maitriser car elle concerne des cellules T dont les propriétés sont tout à fait singulières. Il s’agit de cellules T naïves pour la plupart fraichement émigrées du thymus, leur nombre est limité et elles contiennent un contingent non négligeable des cellules T régulatrices.Dans ce contexte, l’impact d’une lymphodéplétion profonde engendrée par l’utilisation du sérum anti‐lymphocytaire (SAL) est encore largement méconnu et tout particulièrement dans le cadre de l’allogreffe de sang placentaire.La première partie de nos travaux comprend deux études rétrospectives évaluant l’impact du sérum anti‐lymphocytaire dans les greffes de sang placentaires après conditionnement myéloablatif et après conditionnement atténué. Les résultats de ces deux études concordent : le SAL est responsable d’une lymphodéplétion profonde chez le receveur qui diminue le taux de GVH aiguë de grade II à IV sans améliorer notablement la prise de greffe. En revanche, il est associé à une altération de la survie globale en aggravant sévèrement la 6 mortalité liée à la procédure. Dans ces deux études, nous avons retrouvé une augmentation du taux de complications infectieuses chez les receveurs qui ont bénéficié d’un conditionnement avec SAL. Au travers des données recueillies, nous avons également observé que les cellules immunocompétentes présentes dans le sang placentaire sont souvent très altérées : en moyenne, seulement 40% d’entre elles sont viables et vont donc pouvoir participer activement à la reconstitution immunitaire post‐greffe.La constatation de cette fragilité des cellules T de sang de cordon nous a conduit à son évaluation in vitro. L’analyse de la viabilité des lymphocytes T démontre qu’elle est globalement médiocre mais variable en fonction des cordons au cours des tous premiers jours de culture sans que les conditions de recueil ou de stockage ne puissent être incriminées. Cette viabilité peut être améliorée par l’exposition quotidienne des cellules T à de faible dose (100 pg/mL) d’interleukine‐7 (IL‐7) sans potentialiser la réponse allogénique. Le risque in vivo d’augmenter significativement l’alloréactivité en utilisant l’IL‐7 avec des greffons non‐manipulés ne peut être occulté. Toutefois, les résultats obtenus in vitro lors de la stimulation allogénique des cellules T de sang de cordon en présence d’IL‐7 montre qu’à faibles doses, celle‐ci améliore préférentiellement la viabilité des lymphocytes quiescents, non engagés dans la réponse alloréactive.L’ensemble de ces résultats souligne l’intérêt d’une connaissance précise non seulement de la quantité mais aussi de la qualité des cellules T de sang de cordon infusées lors de l’allogreffe. Les thérapeutiques actuelles et à venir bloquant leur réactivité ou au contraire potentialisant leur viabilité doivent intégrer cette donnée pour mieux maitriser leur action potentielle et l’adapter au cas par cas. / The placental blood graft provides access to indications for hematopoietic stem cell transplantation (CSH) in the absence of availability of a compatible unrelated donor.

Cellules souches hématopoïétiques

Homéostasie

Lymphocytes T

Emigrants thymiques récents

Interleukine 7

Sérum anti-lymphocytaire

GVH aiguë et chronique

Hematopoietic stem cells

Homeostasis

T lymphocytes

Recent thymic emigrants

Interleukin 7

Anti-lymphocyte serum

GVH acute and chronic