The roles of Monoamine Oxidase-A and p38(MAPK) in breast cancer

2012 May 1900

Monoamine oxidase-A (MAO-A) is an enzyme that has historically been linked to major depressive disorder (MDD). The prevalence of MDD among breast cancer patients is almost 25%, but realistically it is underdiagnosed within this patient population. Most breast cancer is deemed estrogen receptor positive [ER(+)] and is commonly treated with the anti-estrogenic chemotherapeutic compound tamoxifen. Resistance to tamoxifen has been associated with a paradoxical activation of the stress-associated kinase, p38(MAPK) (normally associated with cell death). Our research group has recently demonstrated that p38(MAPK) can regulate the function of MAO-A in glial cells. Taken together, MAO-A, depression and p38(MAPK) are all associated with a poor prognosis in breast cancer patients, particularly those with an ER(+) status. Several mechanisms have been proposed in each respect and we hope to further elucidate this relationship by focussing on the interaction between MAO-A and p38(MAPK) in the context of breast cancer. The hypothesis states that a functional interaction between the p38(MAPK) and MAO-A systems alters breast cancer cells in an ER-dependent manner. The proposed objectives of this project are to determine what might be influencing MAO-A function in breast cancer cells, and how changes in MAO-A function affect cell phenotype. Using pharmacological approaches (i.e. antidepressant drugs), we investigated the role of MAO-A and p38(MAPK) on selected characteristics of ER(+) (e.g. MCF-7) and ER(-) (e.g. MDA-MB-231) breast cancer cells under four treatment conditions, which include clorgyline (CLG), an antidepressant MAO-A inhibitor, and SB203580, an inhibitor of p38(MAPK). Our results indicate that the very high MAO-A activity in MDA-MB-231 (MB-231) cells was partly dependent on p38(MAPK) activity. The tumourigenic properties (e.g. anchorage-independent growth, migration) of MB-231 cells depended on both MAO-A and p38(MAPK) functions, although the effects were not additive suggesting that both inhibitors were exerting their respective effects via common signalling targets. The role of MAO-A and p38(MAPK) on MB-231 mitochondrial function and cell growth was negligible. In contrast, MAO-A and p38(MAPK) only influenced mitochondrial function in MCF-7 cells and did not affect any of the other tumourigenic properties measured. Immunocytochemical methods, supported by Western blotting, revealed an increase in E-cadherin expression in both cell lines. This suggested that MAO-A and p38(MAPK) could be influencing transitions between epithelial and mesenchymal phenotypes. Our in vitro findings suggest that MAO-A and p38(MAPK) might contribute to a common mechanism in breast cancer cell lines, but that their influence on cell phenotype is less dependent on the respective cell's ER status and perhaps more so dependent on the cell's metastatic potential. If this is the case, then the contribution of MAO-A and p38(MAPK) to [clinical] metastatic breast cancer should be duly considered. Our ongoing investigations are focussing on the influence of clinically relevant antidepressants on breast cancer cell phenotype in vitro.

Monoamine oxidase-A

p38(MAPK)

breast cancer

The Effect of Lithium Chloride on the Distal Insulin Signaling Cascade and on p38 MAPK in the Soleus Muscle of Female Lean Zucker Rats

Gifford, Nancy Renee

January 2007

This project focused on determining the effect of lithium on glucose uptake, glycogen synthesis, and insulin signaling proteins, protein kinase B (Akt1) and GSK-3, in isolated soleus muscle from female lean Zucker rats. We also investigated the role of the stress-activated p38 MAPK in the action of lithium to activate skeletal muscle glucose transport. In the absence of insulin, lithium (10 mM LiCl) increased basal glucose transport by 62% (p<0.05) and glycogen synthesis by 112%. Lithium did not alter phosphorylation of Akt ser473, but enhanced GSK-3β ser9 phosphorylation by 41%. Lithium further enhanced the effect of insulin on glucose transport (42%), glycogen synthesis (44%), and GSK-3ß phosphorylation (13%). Lithium increased phosphorylated p38 MAPK 31% without and 19% with insulin. Moreover, a selective p38 MAPK inhibitor, A304000, completely prevented the lithium-induced enhancement of glucose transport revealing the critical involvement of p38 MAPK phosphorylation in lithium-induced glucose transport in isolated skeletal muscle.

Insulin signaling cascade

lithium

p38 MAPK

La MAP kinase p38γ influence la structure des cardiomyocytes

Plamondon, Philippe

January 2014

Le cœur est un organe central au fonctionnement du système cardiovasculaire. Il est physiologiquement compartimenté et est constitué de cellules spécialisées qui régulent les impulsions électriques ainsi que la contraction du myocarde. Le cœur adapte le flux sanguin en fonction des besoins du corps. En condition pathologique, le cœur recourt toutefois à des mécanismes compensatoires. Au niveau physiologique, la compensation s’observe par l’hypertrophie des cardiomyocytes qui, bien que bénéfique à court terme, exacerbe à long terme la fonction cardiaque. L’activation des « mitogen activated protein kinases » (MAPK) contribue autant au maintien de la fonction physiologique qu’à la détérioration pathologique du myocarde et serait également une cause de l’hypertrophie observée. Parmi les 5 groupes de MAPK connues, la MAPK p38 est formée de 4 isoformes dont les sérine/thréonine kinases p38α et p38γ sont exprimées de façon prédominante dans le cœur. Les p38 partagent les mêmes activateurs, mais leurs effecteurs diffèrent. Bien que le rôle de p38α semble impliqué dans l’aggravement des troubles cardiaques, celui de p38γ ne semble pas redondant à p38α et demeure incompris. Cette isoforme possède un motif de liaison aux domaines PDZ, unique chez les MAP kinases. Également, chez les cellules cardiaques, elle transloque au noyau en condition de stress. Le but de l’étude ici est de comprendre le rôle de p38γ et de ses motifs uniques sur la structure et la taille des cardiomyocytes. Afin de répondre au but de l’étude, plusieurs mutants adénoviraux de p38 ont été conçus. Un des mutants ne possède pas le motif de liaison aux domaines PDZ, deux autres contrôlent la localisation cellulaire soit au noyau, soit au cytoplasme, et un autre mutant est muté au site de phosphorylation. Des cardiomyocytes en culture ont été infectés par les différents mutants en présence de leur activateur en amont ou de la β-galactosidase. Les réseaux d’α-actinine, ainsi que la taille des cardiomyocytes, ont été observés par microscopie. Les observations effectuées montrent que p38γ entraîne une désorganisation des réseaux d’α-actinine lorsqu’il est phosphorylé. Également, il facilite l’hypertrophie des cardiomyocytes en présence de son activateur s’il est forcé hors du noyau ou en l’absence de son motif de liaison aux domaines PDZ. En conclusion, les résultats obtenus suggèrent que p38γ exerce bel et bien un rôle dans le maintien structural des cardiomyocytes par l’intermédiaire de l’α-actinine.

MAP kinase

p38

Cardiomyocyte

Localisation

Domaine PDZ

Glucocorticoid resistance in COPD : the role of p38 MAPK

Gaffey, Kate

January 2013

Chronic Obstructive Pulmonary Disease (COPD) is a chronic, inflammatory condition, characterised by airflow limitation. The use of glucocorticoids (GC) as an anti-inflammatory treatment in COPD has limited clinical benefits, and as such, new treatments are needed. Identifying key pathways involved in the inflammatory response in COPD may enable the development of novel treatments. The aims of this thesis were to examine the steroid sensitivity of an in vitro mixed sputum culture cell model, comparing COPD cells to smoking and non-smoking controls, examine expression of the intracellular signalling molecule p38 Mitogen Activated Protein Kinase (MAPK) in COPD lungs compared with controls, examine the GC and p38 MAPK inhibitor and dual therapy sensitivity of a bronchial epithelial cell line and finally, to understand the mechanisms by which a p38 MAPK inhibitor in combination with a GC synergistically inhibit pro-inflammatory mediator production in a bronchial epithelial cell line. Dexamethasone inhibits mixed sputum cell pro-inflammatory mediator release, with no differences in sensitivity observed between COPD and control cells. Isolated sputum neutrophils demonstrate modest sensitivity to dexamethasone, which is in contrast to blood neutrophils. There are increased numbers of cells positive for activated p38 MAPK in COPD lungs compared with controls, specifically localised to follicular B and CD8+ T cells, bronchial epithelial cells and alveolar and sputum macrophages. Lung and sputum neutrophils are devoid of activated p38 MAPK, and a pharmacological p38 MAPK inhibitor has no effect on pro-inflammatory mediator production from these cells. This is in contrast to blood neutrophils, whereby p38 MAPK activation can be induced following LPS stimulation and in vitro cell culture, and pro-inflammatory mediator release is inhibited by a p38 MAPK inhibitor. Dexamethasone and birb 796 inhibit stimulated pro-inflammatory mediator release from a bronchial epithelial cell line in a dose-dependent manner. Sensitivity to either drug is dependent on stimuli and the pro-inflammatory mediator analysed. There is additive and synergistic inhibition of pro-inflammatory mediator production when combination therapy comprising dexamethasone and birb 796 is used compared with either drug alone. This may be due to Birb 796 enhancing dexamethasone-mediated nuclear translocation of the glucocorticoid receptor, which may enhance the GC-mediated anti-inflammatory effects. Combination therapy may therefore be a useful therapeutic in the treatment of COPD.

616.24

AMPK activation reverts mouse epiblast stem cells to naive state / AMPK経路の活性化はマウスエピブラスト幹細胞をナイーブ状態に戻す

Liu, Yajing

25 March 2024

京都大学 / 新制・論文博士 / 博士(医学) / 乙第13598号 / 論医博第2308号 / 新制||医||1072(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 斎藤 通紀, 教授 浅野 雅秀, 教授 山中 伸弥 / 学位規則第4条第2項該当 / Doctor of Medical Science / Kyoto University / DFAM

AMPK

revert

naive

pluripotency

p38

490

The inhibitory effects of Orengedokuto on inducible PGE2 production in BV-2 microglial cells / ミクログリア細胞株BV-2細胞における誘導性PGE2産生に対する黄蓮解毒湯の阻害効果

岩田, 良佳

23 May 2024

京都大学 / 新制・課程博士 / 博士(医学) / 甲第25498号 / 医博第5098号 / 新制||医||1074(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 渡邊 直樹, 教授 寺田 智祐, 教授 井上 治久 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

Orengedokuto

PGE2

Microglia

p38 MAPK

Neuroinflammation

490

Rôle des MAPK dans la migration des lymphocytes Th17 à travers le collagène tridimensionnel (3D)

Kadiri, Maleck

20 November 2024

La migration des lymphocytes T à travers la matrice extracellulaire (MEC) est un évènement clé dans la réponse immune adaptative et dans les maladies inflammatoires. Bien que les mécanismes de migration trans-endothéliale soient bien étudiés, ceux impliqués dans la migration à travers la MEC du tissu interstitiel sont encore peu connus. Au laboratoire, on s'intéresse aux lymphocytes Th17 du fait de leur rôle important dans le développement des maladies auto-immunes. Nous avons récemment montré que le récepteur à domaine discoïdine de type 1 (DDR1), qui lie le collagène, est important pour la migration des Th17 à travers le collagène de type I et également in vivo dans le modèle de la poche d'air. Par ailleurs DDR1 active la voie Rho/ROCK/MAPK/ERK qui est essentielle à la motilité des Th17. Dans cette étude, nous avons investigué l'implication des voies MAPK p38 et JNK dans la migration des lymphocytes Th17 à travers le collagène de type I qui est le constituant majeur de la MEC du tissu interstitiel. Nous avons trouvé que la voie p38 est nécessaire à la migration des Th17 à travers le collagène tridimensionnel (3D), et que cette voie est activée par le récepteur DDR1. Ainsi, ces résultats suggèrent que la voie DDR1/MAPK p38 pourrait constituer une cible thérapeutique importante pour le traitement des maladies auto-immunes dépendantes des lymphocytes Th17.

MAP kinases p38.

Lymphocytes T.

Collagène.

Comprometimento funcional de células dendríticas derivadas de monócitos de pacientes com câncer: envolvimento das vias de sinalização p38 e ERK1/2 (p44/p42) MAPK. / Functional commitment of monocyte derived dendritic cells from cancer patients: involvement of p38 and ERK1/2 (p44/p42) MAPK signaling pathways.

Barbosa, Bruna Zelante

09 February 2017

Células dendríticas são as principais células apresentadoras de antígeno e apresentam alterações em pacientes com câncer. As vias de sinalização ERK 1/2 e p38 MAPK participam da diferenciação de DCs derivadas de monócitos (Mo-DCs). A exposição ao sobrenadante tumoral (ST) da linhagem MCF-7 levou à diminuição de CD1a e aumento de CD14 (frequência), além do aumento de IL-6 e IL-10. A inibição da via ERK1/2 MAPK corrigiu a expressão de CD14 e corrigiu parcialmente a produção das citocinas. A inibição da via p38 MAPK corrigiu a expressão de CD1a e CD14 e diminuiu parcialmente a produção das citocinas. Identificamos a proteína de choque térmico HSP27. A exposição à HSP27 não levou às alterações observados quando as células foram expostas ao ST. Por fim, em Mo-DCs de pacientes com câncer de mama o tratamento com o inibidor da p38 MAPK diminuiu a expressão de CD86 e HLA-DR. Portanto, os resultados deste trabalho sugerem que a inibição da via p38 MAPK não parece ser uma abordagem interessante na manipulação de Mo-DCs de pacientes com carcinoma ductal invasivo de mama. / Dendritic cells are the main presenting cells and present alterations in cancer patients. The signaling pathways p38 and ERK1/2 MAPK participate of monocyte-derived dendritic cells (Mo-DCs) differentiation. Exposition to MCF-7s supernatant (TS) decreased CD14 and CD1a expression (frequency) while enhanced IL-6 and IL-10 production. Inhibition of ERK1/2 MAPK reverted CD14 expression and partially reverted cytokines production. Inhibition of p38 MAPK reverted CD1a and CD14 expression and partially reverted cytokines production too. We identified the heat shock protein HSP27. Exposition to HSP27 did not cause the observed alterations seen when the cells were exposed to TS. Lastly, treatment of Mo-DCs from breast cancer patients with the p38 inhibitor decreased CD86 and HLA-DR expression. Therefore, the data presented in this study suggest that p38 MAPK inhibition does not appear to be an interesting approach in the manipulation of Mo-DCs from breast cancer patients.

Breast cancer

Câncer de mama

Células dendríticas

Dendritic cells

HSP27

HSP27

p38 MAPK

p38 MAPK

Quinase p38 alfa como alvo para o planejamento de fármacos em Mal de Alzheimer / p38 alpha MAPK as target for drug design in Alzheimer\'s disease

Pinsetta, Flávio Roberto

26 February 2013

O Mal de Alzheimer (MA) foi caracterizado pela primeira vez em 1907 pelo neuropatologista alemão Alois Alzheimer, tendo como sintomas clínicos disfunções cognitivas, fisiológicas, comportamentais, perda de memória, e eventualmente incontinência, demência, acamação e morte. É uma doença neurodegenerativa do sistema nervoso central que costuma afetar, principalmente, indivíduos em faixa etária mais avançada. Este mal é caracterizado microscopicamente pela presença de placas amilóides, que são acúmulos da proteína betaamilóide inter-neurônios, e emaranhados neurofibrilares, formados predominantemente por formas altamente fosforiladas de uma proteína associada aos microtúbulos, Tau, as quais formam massas emaranhadas que consomem o corpo celular neuronal, possivelmente levando à disfunção neuronal e finalmente à morte. MAPK p38? tem sido implicada em dois eventos associados ao MA, fosforilação da Tau e inflamação. MAPK p38? é ativada por uma via de fosforilação dupla em Thr180 e Tyr182. O planejamento de fármacos inibidores de p38? é principalmente focado em pequenas moléculas que competem pelo sítio catalítico do ATP. Aqui, nós utilizamos diferentes técnicas de modelagem molecular e planejamento racional baseado em estrutura e ligantes, tendo como base os inibidores da MAPK p38? descritos na literatura, além das estruturas depositadas no PDB. Como resultado das diferentes abordagens de triagens virtuais utilizadas neste trabalho, tais como \"docking\", farmacóforo, dinâmica molecular, campos de interação molecular, predição de atividade e toxicidade, cálculo de propriedades farmacocinéticas e físico-químicas, foi selecionado um total de 14 compostos que atendem aos critérios adotados de baixa ou nenhuma toxicidade potencial, bom perfil farmacoterapêutico predito, atividades calculadas em valores comparáveis aos obtidos para os compostos de referência, além da manutenção das principais interações observadas para os inibidores mais potentes. Estes compostos podem ser adquiridos para estudos de inibição in vitro frente à enzima MAPK p38?, contribuindo assim na busca de um potencial candidato à fármaco no tratamento do Mal de Alzheimer. / Alzheimer\'s disease (AD) was first characterized in 1907 by the German neuropathologist Alois Alzheimer, whose clinical symptoms includes cognitive, physiological and behavioral dysfunctions, memory loss, eventually incontinence, dementia, and death. It is a neurodegenerative disease of the central nervous system that usually affects individuals group in older age. This is characterized microscopically by the presence of amyloid plaques, which are accumulations of beta-amyloid protein inter-neurons, and neurofibrillary tangles formed predominantly by highly phosphorylated forms of the microtubule-associated protein, tau, which form tangled masses that consume neuronal cell body, possibly leading to neuronal dysfunction and ultimately death. p38? MAPK has been implicated in both events associated with AD, tau phosphorylation and inflammation. p38? MAPK pathway is activated by a dual phosphorylation at Thr180 and Tyr182 residues. The drug design of p38? MAPK inhibitors is mainly focused on small molecules that compete for ATP in the catalytic site. Here, we used different techniques of molecular modeling based on p38? MAPK structure deposited in the PDB and its inhibitors described in the literature. As a result of different virtual screening approaches used in this work, such as \"docking\", pharmacophore, molecular dynamics, molecular interaction fields, activity and toxicity predictions assays, pharmacokinetic properties and physicochemical, was selected a total of 14 compounds that meet these criteria of low or no toxicity potential, good pharmacotherapeutic profile, predicted activities calculated values comparable to those obtained for the reference compounds, while maintaining the main interactions observed for the most potent inhibitors. These compounds should be acquired for in vitro inhibition studies against the enzyme p38? MAPK, thereby helping in the search of a potential drug candidate for the treatment of Alzheimer\'s disease.

Alzheimer's Disease

Mal de Alzheimer

p38 alpha MAPK and drug design

Quinase p38 alfa e Modelagem molecular

Rôle du couple Flt3-ligand/Flt3 et de l'activation des "Mitogen-activated protein kinases" p38 dans la dysmégacaryopoïèse des patients atteints de myélofibrose primitive / Rôle du couple Flt3-ligand/Flt3 et de l'activation des "Mitogen-activated protein kinases" p38 dans la dysmégacaryopoïèse des patients atteints de myélofibrose primitive

Desterke, Christophe

25 May 2011

La myélofibrose primitive (MFP) est un néoplasme myéloprolifératif (NMP) chronique BCR-ABL1-négatif associant une dérégulation de l’hématopoïèse (myéloprolifération, dysmégacaryopoïèse et migration des cellules souches et progéniteurs hématopoïétiques (CSH/PH)) à une altération du stroma médullaire et splénique (fibrose ostéomyélosclérose, néoangiogenèse). Le mégacaryocyte (MK) est un acteur majeur de sa pathogenèse, via la production de cytokines et facteurs fibrosants, dans un contexte inflammatoire. Plusieurs arguments suggèrent que les mutations JAK2V617F et MPL515L/K qui caractérisent les NMP ne sont pas les événements initiaux de la MFP car elles ne sont retrouvées que chez la moitié des patients. L’objectif de mon travail a été de rechercher si d’autres anomalies, géniques ou non, pouvaient expliquer la pathogenèse de la MFP. Pour cela, parallèlement à une démarche génomique (transcriptome et CGH array), nous avons développé une approche de biologie cellulaire ciblée sur le rôle du stroma hématopoïétique. Bien que n’ayant pas identifié d’autres anomalies génomiques que celles décrites dans la littérature et en particulier, la délétion 13q, les approches génomiques que nous avons développées nous ont permis de préciser les bornes de cette délétion dans les PH CD34+ et les polynucléaires des patients. Cette délétion (région chromosomique minimale 13q14-13q21) est située à 2 mégabases (télomérique) du cluster FLT où est localisé le gène FLT3. Plusieurs arguments nous ont ensuite conduits à rechercher si le couple Flt3-ligand/Flt3 était impliqué dans la dérégulation de l’hématopoïèse et plus particulièrement dans la dysmégacaryopoïèse observée chez les patients. Parmi ceux-ci, citons : 1) l’existence d’une modulation d’expression de gènes inclus dans la zone de délétion 13q et dans le cluster FLT, dont le gène FLT3 et 2) le fait que Flt3, un récepteur clé de la régulation de l’hématopoïèse primitive, soit souvent impliqué dans la pathogenèse d’hémopathies malignes et que son ligand, Flt3-ligand, soit majoritairement produit par le stroma hématopoïétique. Notre étude montre une dérégulation de Flt3 et des MAPKs p38 dans les PH CD34+ et les MK des patients atteints de MFP et ceci, quelque soit leur statut mutationnel Jak2. Elle démontre également que la persistance de la stimulation de l’axe Flt3/p38 en réponse à une production accrue de Flt3 ligand, participe à la dysmégacaryopoïèse qui caractérise la maladie. En effet, nous avons mis en évidence : 1) une augmentation du taux sérique de Flt3 ligand et de son expression par les cellules du stroma médullaire et splénique ainsi que par les PH des patients atteints de MFP, 2) une surexpression spécifique de son récepteur Flt3 et de sa phosphorylation dans les CSH/PH CD34+ et les progéniteurs mégacaryocytaires (MK), qui persistent au cours de la différenciation MK, quelque soit le statut mutationnel de Jak2 des patients, 3) une activation de Flt3 dans les progéniteurs MK en réponse au Flt3 ligand conduisant à la phosphorylation en cascade de la voie de signalisation des MAPKs p38 et à l’expression de ses gènes cibles tels que AP-1, p53, NFATc4, ATF2, IL-8, 4) une restauration de la mégacaryopoïèse et une inhibition de la migration (Flt3-ligand)-dépendante des progéniteurs MK des patients après inhibition de Flt3 ou de p38.Nos résultats confirment l’importance d’une altération des MAPKs dans une dérégulation de l’hématopoïèse et soulignent le rôle d’une activation persistante de la voie p38, via le couple Flt3-ligand/Flt3, dans la dysmégacaryopoïèse qui caractérise la myélofibrose primitive. Ils suggèrent également que cette dérégulation participe au processus inflammatoire à l’origine de la réaction stromale et « lit » d’une transformation leucémique potentielle. Ce dialogue altéré entre les cellules hématopoïétiques pathologiques (Bad seeds), en particulier mégacaryocytaires et les cellules stromales (Bad soil), conforte notre concept « Bad seeds in Bad soil ». / The primary myelofibrosis (PMF) is a chronic myeloproliferative neoplasm (NMP) BCR-ABL1-negative associating a dysregulation of hematopoiesis (myeloproliferation, dysmegacaryopoiesis and egress of hematopoietic stem and progenitor cells (HSC / PH)) from an altered bone marrow stroma (osteosclerosis, fibrosis, angiogenesis) to the spleen. The megakaryocyte (MK) is a major player in its pathogenesis through the production of cytokines and fibrotic factors in an inflammatory context. Several arguments suggest that mutations JAK2V617F and MPL515L / K which characterize the NMP are not the initial events of the PMF since they are found only in half of patients. The aim of my work was to investigate whether other abnormalities, genetic or otherwise, could explain the pathogenesis of the PMF. For this, a process parallel to genomics (transcriptome and CGH array), we developed a cell biology approach focused on the role of hematopoietic stroma.Although we have not identified other genomic abnormalities as those described in the literature and in particular, deletion 13q, by genomic approaches we have clarified the limits of this deletion in the PH CD34+ and polymorphonuclear patients. This deletion (chromosomal region 13q14-13q21 minimum) is located 2 megabases (telomeric) of the cluster where is located the FLT gene FLT3. Several arguments have then led to inquire whether the couple was involved in Flt3-ligand/Flt3 deregulation of hematopoiesis, especially in the dysmegakaryopoiesis observed in patients. Among these are: 1) the existence of an expression modulation of genes included in the area of deletion 13q and FLT in the cluster, as gene FLT3 and 2) the fact that Flt3, a key receptor the regulation of primitive hematopoiesis, is often implicated in the pathogenesis of hematologic malignancies and its ligand, Flt3-ligand, was predominantly produced by the hematopoietic stroma.Our study shows dysregulation of Flt3 and p38 MAPKs in CD34+ and PH MK from patients with PMF and this, whatever their Jak2 mutation status. It also shows that persistent stimulation of the axis Flt3/p38 in response to increased production of Flt3 ligand, participates in the dysmegacaryopoiesis that characterizes the disease. Indeed, we have highlighted: 1) an increase in serum Flt3 ligand and its expression by stromal cells and bone marrow and spleen by PH patients with PMF, 2) a specific overexpression of its receptor Flt3 and its phosphorylation in HSC / PH CD34+ and megakaryocytic progenitors (MK), which persist during the MK differentiation, regardless of the mutational status of Jak2 patients, 3) activation of Flt3 in MK progenitors by the Flt3 ligand leads to phosphorylation cascade signaling pathway, p38 MAPK and expression of its target genes such as AP-1, p53, NFATc4, ATF2, IL-8, 4) a restoration of megakaryopoiesis and inhibition of migration (Flt3-ligand)-dependent patients after of MK progenitors by Flt3 or p38 inhibitors.Our results confirm the importance of an alteration of MAPKs in a deregulation of hematopoiesis and highlight the role of a persistent activation of the p38 pathway, via the couple Flt3-ligand/Flt3 in the dysmegakaryopoiesis that characterizes idiopathic myelofibrosis. They also suggest that this dysregulation contributes to the inflammatory process at the origin of the stromal reaction and "bed" of a leukemic transformation potential. The dialogue among impaired hematopoietic cell disease (Bad Seeds), especially the stromal cells and megakaryocyte (Bad Soil), reinforces our concept of "Bad Seeds in Bad Soil". This work could help improve the dialogue with therapeutic approaches targeting the axis Flt3-ligand/Flt3 mediated by activation of p38 which, by reducing the inflammatory process, re-establish a link between the "seed" and the "Soil".

Myélofibrose primitive

Mégacaryocyte

Flt3

MAPK p38

Inflammation

Primary myelofibrosis

Megakaryocyte

Flt3

P38 MAPKs

Inflammatory process