B-cell reconstitution after lentiviral vector-mediated gene therapy in patients with Wiskott-Aldrich syndrome

Background Wiskott-Aldrich syndrome (WAS) is a severe X-linked immunodeficiency characterized by microthrombocytopenia, eczema, recurrent infections, and susceptibility to autoimmunity and lymphomas. Hematopoietic stem cell transplantation is the treatment of choice; however, administration of WAS gene-corrected autologous hematopoietic stem cells has been demonstrated as a feasible alternative therapeutic approach. Objective Because B-cell homeostasis is perturbed in patients with WAS and restoration of immune competence is one of the main therapeutic goals, we have evaluated reconstitution of the B-cell compartment in 4 patients who received autologous hematopoietic stem cells transduced with lentiviral vector after a reduced-intensity conditioning regimen combined with anti-CD20 administration. Methods We evaluated B-cell counts, B-cell subset distribution, B cell-activating factor and immunoglobulin levels, and autoantibody production before and after gene therapy (GT). WAS gene transfer in B cells was assessed by measuring vector copy numbers and expression of Wiskott-Aldrich syndrome protein. Results After lentiviral vector-mediated GT, the number of transduced B cells progressively increased in the peripheral blood of all patients. Lentiviral vector-transduced progenitor cells were able to repopulate the B-cell compartment with a normal distribution of B-cell subsets both in bone marrow and the periphery, showing a WAS protein expression profile similar to that of healthy donors. In addition, after GT, we observed a normalized frequency of autoimmune-associated CD19+CD21-CD35- and CD21low

Lentiviral gene therapy corrects platelet phenotype and function in patients with Wiskott-Aldrich syndrome

BACKGROUND: Thrombocytopenia is a serious issue for all patients with classical Wiskott-Aldrich syndrome (WAS) and X-linked thrombocytopenia (XLT) because it causes severe and life-threatening bleeding. Lentiviral gene therapy (GT) for WAS has shown promising results in terms of immune reconstitution. However, despite the reduced severity and frequency of bleeding events, platelet counts remain low in GT-treated patients. OBJECTIVE: We carefully investigated platelet defects in terms of phenotype and function in untreated patients with WAS and assessed the effect of GT treatment on platelet dysfunction. METHODS: We analyzed a cohort of 20 patients with WAS/XLT, 15 of them receiving GT. Platelet phenotype and function were analyzed by using electron microscopy, flow cytometry, and an aggregation assay. Platelet protein composition was assessed before and after GT by means of proteomic profile analysis. RESULTS: We show that platelets from untreated patients with WAS have reduced size, abnormal ultrastructure, and a hyperactivated phenotype at steady state, whereas activation and aggregation responses to agonists are decreased. GT restores platelet size and function early after treatment and reduces the hyperactivated phenotype proportionally to WAS protein expression and length of follow-up. CONCLUSIONS: Our study highlights the coexistence of morphologic and multiple functional defects in platelets lacking WAS protein and demonstrates that GT normalizes the platelet proteomic profile with consequent restoration of platelet ultrastructure and phenotype, which might explain the observed reduction of bleeding episodes after GT. These results are instrumental also from the perspective of a future clinical trial in patients with XLT only presenting with microthrombocytopenia

Outcome of hematopoietic cell transplantation for DNA double-strand break repair disorders

Background: Rare DNA breakage repair disorders predispose to infection and lymphoreticular malignancies. Hematopoietic cell transplantation (HCT) is curative, but coadministered chemotherapy or radiotherapy is damaging because of systemic radiosensitivity. We collected HCT outcome data for Nijmegen breakage syndrome, DNA ligase IV deficiency, Cernunnos-XRCC4-like factor (Cernunnos-XLF) deficiency, and ataxia-telangiectasia (AT). Methods: Data from 38 centers worldwide, including indication, donor, conditioning regimen, graft-versus-host disease, and outcome, were analyzed. Conditioning was classified as myeloablative conditioning (MAC) if it contained radiotherapy or alkylators and reduced-intensity conditioning (RIC) if no alkylators and/or 150 mg/m(2) fludarabine or less and 40 mg/kg cyclophosphamide or less were used. Results: Fifty-five new, 14 updated, and 18 previously published patients were analyzed. Median age at HCT was 48 months (range, 1.5-552 months). Twenty-nine patients underwent transplantation for infection, 21 had malignancy, 13 had bone marrow failure, 13 received pre-emptive transplantation, 5 had multiple indications, and 6 had no information. Twenty-two received MAC, 59 received RIC, and 4 were infused; information was unavailable for 2 patients. Seventy-three of 77 patients with DNA ligase IV deficiency, Cernunnos-XLF deficiency, or Nijmegen breakage syndrome received conditioning. Survival was 53 (69%) of 77 and was worse for those receiving MAC than for those receiving RIC (P=.006). Most deaths occurred early after transplantation, suggesting poor tolerance of conditioning. Survival in patients with AT was 25%. Forty-one (49%) of 83 patients experienced acute GvHD, which was less frequent in those receiving RIC compared with those receiving MAC (26/56 [46%] vs 12/21 [57%], P=.45). Median follow-up was 35 months (range, 2-168 months). No secondary malignancies were reported during 15 years of follow-up. Growth and developmental delay remained after HCT; immune-mediated complications resolved. Conclusion: RIC HCT resolves DNA repair disorder associated immunodeficiency. Long-term follow-up is required for secondary malignancy surveillance. Routine HCT for AT is not recommended.Peer reviewe

Rôle du TGF-béta dans la carcinogenèse hépatique liée au virus de l’hépatite C

Chronic HCV infection) may progress to liver fibrosis, cirrhosis and hepatocellular carcinoma (HCC). HCV core binds several cellular proteins and in particular Smad3, a major protein of transforming growth factor beta (TGF-Β) signalling.. The aim of this study was to determine the implication of HCV core protein in TGF-Β responses. High genetic variability is a characteristic of HCV and it was previously shown that HCV core protein isolated from tumour (cT) or adjacent non-Tumour (cNT) livers displayed different sequences. Both were able to shift TGF-B responses from tumour suppressor to tumour promotor by decreasing hepatocyte apoptosis and increasing epithelial-Mesenchymal transition (EMT). Core cT was more potent than core cNT to promote this effect that was mainly attributed to the capacity of HCV core to alleviate Smad3 activity. Moreover, HCV core protein activated the latent form of TGF-Β through increased thrombospondin expression. It is commonly accepted that αSMA (alpha smooth muscle actin) is a hallmark of EMT. In the current study another SMA isoform, γSMA was found to be polymerized during hepatocyte EMT. γSMA was expressed in HCC tissues and correlated with EMT, stem cell and aggressiveness markers. In conclusion, this work contributed to a better understanding of the HCV core role in hepatitis fibrosis and HCC related to HCV. Indeed, HCV core might act both as an autocrine and paracrine way by modulating TGF-Β responses within hepatocytes and by activating hepatic stellate cells in stromal environment through its capacity to activate TGF-Β.L’infection chronique par le virus de l’hépatite C (VHC) conduit au développement de la fibrose et de la cirrhose qui risque d’évoluer vers le carcinome hépatocellulaire (CHC). La protéine de capside du VHC interagit avec de nombreuses protéines de l’hôte et en particulier avec Smad3, protéine majeure de la voie de signalisation du transforming growth factor beta (TGF-Β). Mon travail de thèse consistait à étudier les conséquences biologiques de l’interaction entre la protéine de capside avec la voie de signalisation du TGF-Β. Le VHC présente une grande variabilité génétique et des travaux du laboratoire ont montré l’existence de séquences différentes de protéines de capside du virus entre les régions tumorales (cT) et cirrhotiques (cNT) d’un même sujet. Nous avons montré que ces différentes protéines de capside exprimées dans des hépatocytes orientent les réponses biologiques du TGF-Β vers la promotion tumorale en diminuant l’apoptose et en augmentant la transition épithelio-Mésenchymateuse (TEM) en particulier le variant cT. Cet effet est attribué à la capacité de la protéine de capside de diminuer l’activité transcriptionnelle de Smad3. De plus, les variants de la protéine de capside activent le TGF-Β latent via l’augmentation de l’expression de la trombospondine. L’un des marqueurs classiquement exprimé au cours d’une TEM est l’alpha-Actine musculaire lisse (αSMA). Nous avons montré qu’une autre isoforme, la γSMA, était polymérisée dans les cellules hépatiques développant une TEM. L’expression de γSMA a été retrouvée sur des coupes de CHC et a pu être significativement corrélée à la fois avec des marqueurs de la TEM, des marqueurs progéniteurs et avec l’agressivité de la tumeur.Ce travail apporte une meilleure compréhension du rôle de la protéine de capside dans la fibrose hépatique liée à l’infection virale. En effet, la protéine de capside du VHC agit à la fois de façon autocrine dans les hépatocytes en modulant les réponses du TGF-Β vers la promotion tumorale et de façon paracrine, en affectant l’activation des cellules étoilées en myofibroblastes par le TGF-Β activé

Molecular Pathways in Cancers

This book includes some recent works providing the readers with novel relevant findings about the main signaling pathways that govern the molecular pathogenesis of some of the highest prevalent human tumors, which are the basis for developing alternative therapeutic strategies to improve patient outcomes