Rôle de la niche mésenchymateuse dans la régulation du phénotype SP des progéniteurs hématopoïétiques humains

L hématopoïèse est un processus finement régulé pour permettre sa pérennité et son adaptation aux contraintes physiologiques et pathologiques. Ce potentiel repose en grande partie sur les capacités de quiescence, auto-renouvellement, division asymétrique et multipotence des cellules souches hématopoïétiques (CSH). Les CSH et progéniteurs hématopoïétiques (CSPH) sont principalement régulés de façon extrinsèque au sein des niches hématopoïétiques médullaires et cette régulation fait intervenir, des contacts intercellulaires et des facteurs diffusibles. Le phénotype side-population (SP), secondaire à l efflux actif d un colorant fluorescent (Hoechst 33342) par des pompes de type multidrugresistance, est une caractéristique des cellules souches de la plupart des tissus. Au sein de l hématopoïèse, le phénotype SP est un excellent moyen pour identifier les CSH murines et est associé à leur quiescence et à leur adhésion à la niche endostéale, mais sa valeur comme marqueur des CSH est plus discutée chez l homme. Les cellules SP, de par leur nature, sont également étudiées en oncologie, et sont associées aux cellules tumorales les plus résistantes et les plus tumorogènes. La compréhension des mécanismes régulant la fonctionnalité SP devrait permettre d ouvrir des pistes en physiologie quand à la compréhension de la régulation des CSPH par les niches mésenchymateuses et en pathologie pour cibler les mécanismes de chimiorésistance.Dans ce travail nous montrons pour la première fois chez l homme que l acquisition du phénotype SP est un phénomène dynamique et versatile sous le contrôle du stroma médullaire. Le stroma médullaire est en effet capable de maintenir le phénotype SP de CSPH médullaires et d induire le phénotype SP de CSPH circulants. L acquisition du phénotype SP par les cellules circulantes nécessite à la fois un nichage au sein du stroma et des facteurs diffusibles. Les cellules circulantes capables d acquérir le phénotype SP contiennent des CSPH au regard de (i) leur expression du CD34, (ii) leur richesse en cellules quiescentes, (iii) leur capacité clonogénique et proliférative en cultures secondaires, (iv) leur expression des gènes de nichage et de souchitude , (v) leur capacité de migration en réponse à un gradient de CXCL12, (vi) leur activité LT-SRC in vivo. De plus nous avons mis en évidence, au sein de ces CSPH SP+CD34+ révélés par le stroma médullaire, une sous-population CD44-/faible qui pourrait contenir les cellules plus immatures en raison de sa quiescence et de l intensité de son efflux du Hoechst 33342. Les études mécanistiques montrent que l acquisition du phénotype SP par les cellules circulantes est sous la dépendance de l intégrine VLA-4 et du CD44. La transduction du signal implique des protéines G et la famille des Src-kinases. Nous montrons également que le stroma médullaire peut induire/maintenir/amplifier la fonctionnalité SP de blastes circulants de leucémie aigüe myéloblastique de façon ß1-intégrine dépendante et que cette fonctionnalité est associée à une capacité d efflux de Mitoxantrone. Ce mécanisme de modulation de l activité d ABC-transporteurs par l adhésion au stroma correspond à un mécanisme encore jamais décrit de CAM-DR.Hematopoiesis is a finely tuned process to allow its long-term efficiency and its adaptation to various physiological and pathological stresses. Hematopoietic stem cell (HSC) is the keystone of hematopoiesis through its multipotency, quiescence, asymmetrical division and self-renewing properties. HSC bone marrow (BM) niches mainly regulate hematopoietic stem and progenitor cells (HSPC) through intercellular contacts and diffusible factors. Side-population (SP) cells are characterized by their capability to actively efflux Hoechst 33342 dye through multidrug resistance-like pumps. SP phenotype is a characteristic of stem cells in many tissues and especially, it is a stringent criterion to purify murine HSCs. In mice, this phenotype has been demonstrated to be related to quiescence and resistance to drugs/environmental stresses and to be controlled by endosteal niche adhesion. SP cells are also studied in oncology and are associated to chemo-resistance and tumor initiating capacity. At steady state, SP cells are mainly present in the BM and are mostly absent from the circulation except in stress conditions, raising the hypothesis of the versatility of the SP functionality. Therefore, studying SP phenotype regulation is of importance to understand how BM niches regulate HSPC and how to interfere with cancer cells chemo-resistance.In this work, we demonstrate for the first time and in human that SP phenotype acquisition is a dynamic phenomenon under control of stromal BM cells. Stromal cells from healthy donors maintain SP phenotype of BM HSPC and promote SP phenotype acquisition in circulating ones. SP phenotype promotion depends of stroma nesting and of diffusible factors secretion. This stroma-induced circulating SP cell fraction contains HSPC, as ascertained by (i) CD34 expression, (ii) proportion of cells in G0, (iii) clonogenic and proliferative potential, (iv) nesting and stemness gene expression, (v) CXCL12-related migration capability and (vi) LT-SRC activity. Moreover, we describe an SP+CD34+CD44-/low sub-population that could contain most immature HSPCs with regards to their quiescence and Hoechst efflux intensity. Mechanistic studies show that the stoma-mediated SP promoting effect is VLA-4/ 4ß1-integrin and CD44 dependent, and implicate G-protein and Src-kinase pathways. We also demonstrate that BM stroma from healthy donors can induce/maintain/amplify in a ß1-integrin dependent manner an SP sub-population with mitoxantrone efflux capability in blast cells from acute myeloid leukemia. The existence of a similar mechanism in circulating leukemic blasts suggests the possibility to interfere with the chemo-resistant phenotype of blast cells through integrin/CD44 axis blockade.PARIS11-SCD-Bib. électronique (914719901) / SudocSudocFranceF

Rôle de la niche mésenchymateuse dans la régulation du phénotype SP des progéniteurs hématopoïétiques humains

Hematopoiesis is a finely tuned process to allow its long-term efficiency and its adaptation to various physiological and pathological stresses. Hematopoietic stem cell (HSC) is the keystone of hematopoiesis through its multipotency, quiescence, asymmetrical division and self-renewing properties. HSC bone marrow (BM) niches mainly regulate hematopoietic stem and progenitor cells (HSPC) through intercellular contacts and diffusible factors. Side-population (SP) cells are characterized by their capability to actively efflux Hoechst 33342 dye through multidrug resistance-like pumps. SP phenotype is a characteristic of stem cells in many tissues and especially, it is a stringent criterion to purify murine HSCs. In mice, this phenotype has been demonstrated to be related to quiescence and resistance to drugs/environmental stresses and to be controlled by endosteal niche adhesion. SP cells are also studied in oncology and are associated to chemo-resistance and tumor initiating capacity. At steady state, SP cells are mainly present in the BM and are mostly absent from the circulation except in stress conditions, raising the hypothesis of the versatility of the SP functionality. Therefore, studying SP phenotype regulation is of importance to understand how BM niches regulate HSPC and how to interfere with cancer cells chemo-resistance.In this work, we demonstrate for the first time and in human that SP phenotype acquisition is a dynamic phenomenon under control of stromal BM cells. Stromal cells from healthy donors maintain SP phenotype of BM HSPC and promote SP phenotype acquisition in circulating ones. SP phenotype promotion depends of stroma nesting and of diffusible factors secretion. This stroma-induced circulating SP cell fraction contains HSPC, as ascertained by (i) CD34 expression, (ii) proportion of cells in G0, (iii) clonogenic and proliferative potential, (iv) nesting and “stemness” gene expression, (v) CXCL12-related migration capability and (vi) LT-SRC activity. Moreover, we describe an SP+CD34+CD44-/low sub-population that could contain most immature HSPCs with regards to their quiescence and Hoechst efflux intensity. Mechanistic studies show that the stoma-mediated SP promoting effect is VLA-4/4ß1-integrin and CD44 dependent, and implicate G-protein and Src-kinase pathways. We also demonstrate that BM stroma from healthy donors can induce/maintain/amplify in a ß1-integrin dependent manner an SP sub-population with mitoxantrone efflux capability in blast cells from acute myeloid leukemia. The existence of a similar mechanism in circulating leukemic blasts suggests the possibility to interfere with the chemo-resistant phenotype of blast cells through integrin/CD44 axis blockade.L’hématopoïèse est un processus finement régulé pour permettre sa pérennité et son adaptation aux contraintes physiologiques et pathologiques. Ce potentiel repose en grande partie sur les capacités de quiescence, auto-renouvellement, division asymétrique et multipotence des cellules souches hématopoïétiques (CSH). Les CSH et progéniteurs hématopoïétiques (CSPH) sont principalement régulés de façon extrinsèque au sein des niches hématopoïétiques médullaires et cette régulation fait intervenir, des contacts intercellulaires et des facteurs diffusibles. Le phénotype « side-population » (SP), secondaire à l’efflux actif d’un colorant fluorescent (Hoechst 33342) par des pompes de type multidrugresistance, est une caractéristique des cellules souches de la plupart des tissus. Au sein de l’hématopoïèse, le phénotype SP est un excellent moyen pour identifier les CSH murines et est associé à leur quiescence et à leur adhésion à la niche endostéale, mais sa valeur comme marqueur des CSH est plus discutée chez l’homme. Les cellules SP, de par leur nature, sont également étudiées en oncologie, et sont associées aux cellules tumorales les plus résistantes et les plus tumorogènes. La compréhension des mécanismes régulant la fonctionnalité SP devrait permettre d’ouvrir des pistes en physiologie quand à la compréhension de la régulation des CSPH par les niches mésenchymateuses et en pathologie pour cibler les mécanismes de chimiorésistance.Dans ce travail nous montrons pour la première fois chez l’homme que l’acquisition du phénotype SP est un phénomène dynamique et versatile sous le contrôle du stroma médullaire. Le stroma médullaire est en effet capable de maintenir le phénotype SP de CSPH médullaires et d’induire le phénotype SP de CSPH circulants. L’acquisition du phénotype SP par les cellules circulantes nécessite à la fois un « nichage » au sein du stroma et des facteurs diffusibles. Les cellules circulantes capables d’acquérir le phénotype SP contiennent des CSPH au regard de (i) leur expression du CD34, (ii) leur richesse en cellules quiescentes, (iii) leur capacité clonogénique et proliférative en cultures secondaires, (iv) leur expression des gènes de « nichage » et de « souchitude », (v) leur capacité de migration en réponse à un gradient de CXCL12, (vi) leur activité LT-SRC in vivo. De plus nous avons mis en évidence, au sein de ces CSPH SP+CD34+ révélés par le stroma médullaire, une sous-population CD44-/faible qui pourrait contenir les cellules plus immatures en raison de sa quiescence et de l’intensité de son efflux du Hoechst 33342. Les études mécanistiques montrent que l’acquisition du phénotype SP par les cellules circulantes est sous la dépendance de l’intégrine VLA-4 et du CD44. La transduction du signal implique des protéines G et la famille des Src-kinases. Nous montrons également que le stroma médullaire peut induire/maintenir/amplifier la fonctionnalité SP de blastes circulants de leucémie aigüe myéloblastique de façon ß1-intégrine dépendante et que cette fonctionnalité est associée à une capacité d’efflux de Mitoxantrone. Ce mécanisme de modulation de l’activité d’ABC-transporteurs par l’adhésion au stroma correspond à un mécanisme encore jamais décrit de CAM-DR

Risk factors and decision criteria for intensive chemotherapy in older patients with acute myeloid leukemia.

International audienceBACKGROUND: There is a need for standardization of treatment decisions in older patients with acute myeloid leukemia. The aim of the present study was to analyze the decisional value of poor risk factors in 416 elderly patients treated in the ALFA-9803 trial in order to derive a decisional index. DESIGN AND METHODS: Standard multivariate analysis was used to identify risk factors for overall survival. Risk factors were then considered as good decision tools if associated with a frequency >10% and a false positive rate or =75 years, performance status > or =2, and white cell count > or =50 x 10(9)/L. This simple two-class decisional index, which was validated in an independent patient set, enabled us to discriminate 100 patients (24%) who had an estimated overall survival of only 19% at 12 months, with a good 9% false positive rate. CONCLUSIONS: We propose waiting for cytogenetic information before making treatment decisions in elderly patients with acute myeloid leukemia. Those patients with unfavorable cytogenetics, as well as patients with at least two of the following features, age > or =75 years, performance status > or =2, and white cell count > or =50 x 10(9)/L, should not be considered for standard intensive chemotherapy (ClinicalTrials.gov identifier: NCT00363025)

Hematopoietic Recovery using Multi-Cytokine Therapy in 8 Patients Presenting Radiation-Induced Myelosuppression after Radiological Accidents

International audienceTreatment of accidental radiation-induced myelosuppressionis primarily based on supportive care and requiresspecific treatment based on hematopoietic growth factorsinjection or hematopoietic cell transplantation for the mostsevere cases. The cytokines used consisted of pegylatederythropoietin (darbepoetin alfa) 500 IU once per week,pegylated G-CSF (pegfilgrastim) 6 mg 3 2 once, stem cellfactor 20 lg.kg–1 for five days, and romiplostim (TPO analog)10 lg.kg1 once per week, with different combinationsdepending on the accidents. As the stem cell factor did nothave regulatory approval for clinical use in France, theFrench regulatory authorities (ANSM, formerly, AFSSAPS)approved their compassionate use as an investigational drug‘‘on a case-by-case basis’’. According to the evolution andclinical characteristics, each patient’s treatment was adoptedon an individual basis. Daily blood count allows initiating GCSFand SCF delivery when granulocyte ,1,000/mm3, TPOdelivery when platelets ,50,000/mm3, and EPO when Hb,80g/L. The length of each treatment was based on blood cellrecovery criteria. The concept of ‘‘stimulation strategy’’ islinked to each patient’s residual hematopoiesis, which variesamong them, depending on the radiation exposure’s characteristicsand heterogeneity. This paper reports the medicalmanagement of 8 overexposed patients to ionizing radiation.The recovery of bone marrow function after myelosuppressionwas accelerated using growth factors, optimized bymultiple-line combinations. Particularly in the event ofprolonged exposure to ionizing radiation in dose ranges inducing severe myelosuppression (in the order of 5 to 8 Gy),with no indication of hematopoietic stem cell transplantation

Evaluation of infectious complications after haploidentical hematopoietic stem cell transplantation with post-transplant cyclophosphamide following reduced-intensity and myeloablative conditioning: a study on behalf of the Francophone Society of Stem Cell Transplantation and Cellular Therapy (SFGM-TC)

Several approaches have been developed to overcome historical barriers associated with poor outcomes in the setting of HLA-haploidentical allogeneic transplantation (HaploSCT). Here, we examine the outcome of patients with various hematological disorders undergoing HaploSCT with high-dose, post-transplantation cyclophosphamide. We performed a retrospective study on 381 patients from 30 centers between January 2013 and December 2015. At the last follow-up, a total of 1058 infectious episodes were diagnosed, affecting 90.3% of the cohort. Median time to first infection was 13 days for bacterial, 32 days for viral and 20 days for fungal infections. Around 41% of these infections were of bacterial origin and 35% of viral origin, among which 48.8% of patients presented CMV reactivation. Median of GVHD relapse-free survival, progression-free survival and overall survival were 7.1 months, 19.9 months and 33.5 months, respectively. HSCT procedure was the primary or contributing cause of death (55.6%), followed by relapse of the original disease (34.2%). Infections accounted for 45.7% of the HSCT-related deaths. The present multicenter data on a large cohort of patients receiving HaploSCT with PTCy confirmed the feasibility of the procedure with an acceptable incidence of infectious complications, not different as compared to other haploidentical platforms or HLA-matched transplantation. © 2019, Springer Nature Limited

Immune stimulation during chemotherapy increases incidence of acute graft versus host disease in acute myeloid leukemia: A study on behalf of SFGM-TC and ALFA

IF 2.501International audience60-70% of AML patients have an indication of allogeneic hematopoietic stem cell transplantation (allo-HSCT) during their treatment. Graft versus host disease (GvHD), the major cause of mortality and comorbidities post-transplantation, develops by immunological mechanism and decides greatly prognosis and quality of life (QoL) of graft recipient. Current GvHD prophylaxis is not personalized. Infections, toxicities and leukemic infiltration complicate the first chemotherapy phases prior to allo-HSCT. They, to certain extent, induce local immune stimulation. Impact of immune stimulation of this period on incidence of GvHD has not been evaluated. We retrospectively studied 238 AML patients transplanted at first remission from 21 French centers in the ALFA-0702 protocol and found that cutaneous and digestive immune stimulation during induction increases the incidence of skin and gut aGVHD, respectively. Furthermore, prolonged febrile duration correlates with elevated incidence of grade II-IV aGvHD. Thus, we identified a group of patients with higher risk of aGvHD. The benefit of personalized GvHD prophylaxis should be explored in a prospective cohort to decrease incidence of aGvHD in these patients and improve their QoLs