ALBERT

Description: Key PointsSurvival was 100% for 18 patients with ADA-SCID treated with genetically modified CD34+ cells (2.3-13.4 years follow up; median, 6.9 years). Long-term engraftment, immune reconstitution, and fewer severe infections were observed in 15 out of 18 patients without leukemic transformation.

Description: ARPC1B is a key factor for the assembly and maintenance of the ARP2/3 complex that is involved in actin branching from an existing filament. Germline biallelic mutations in ARPC1B have been recently described in 6 patients with clinical features of combined immunodeficiency (CID), whose neutrophils and platelets but not T lymphocytes were studied. We hypothesized that ARPC1B deficiency may also lead to cytoskeleton and functional defects in T cells. We have identified biallelic mutations in ARPC1B in 6 unrelated patients with early onset disease characterized by severe infections, autoimmune manifestations, and thrombocytopenia. Immunological features included T-cell lymphopenia, low numbers of naïve T cells, and hyper–immunoglobulin E. Alteration in ARPC1B protein structure led to absent/low expression by flow cytometry and confocal microscopy. This molecular defect was associated with the inability of patient-derived T cells to extend an actin-rich lamellipodia upon T-cell receptor (TCR) stimulation and to assemble an immunological synapse. ARPC1B-deficient T cells additionally displayed impaired TCR-mediated proliferation and SDF1-α−directed migration. Gene transfer of ARPC1B in patients’ T cells using a lentiviral vector restored both ARPC1B expression and T-cell proliferation in vitro. In 2 of the patients, in vivo somatic reversion restored ARPC1B expression in a fraction of lymphocytes and was associated with a skewed TCR repertoire. In 1 revertant patient, memory CD8+ T cells expressing normal levels of ARPC1B displayed improved T-cell migration. Inherited ARPC1B deficiency therefore alters T-cell cytoskeletal dynamics and functions, contributing to the clinical features of CID.

Description: Wiskott-Aldrich Syndrome (WAS) is an X-linked primary immunodeficiency characterized by thrombocytopenia, recurrent infections, eczema, autoimmunity and increased susceptibility to malignancies. Allogeneic hematopoietic stem cell transplantation (HSCT) is a recognized curative treatment for WAS, but is still associated with transplant-related complications and long-term morbidity, particularly in the absence of fully matched donors. In April 2010, we initiated a phase I/II clinical trial with hematopoietic stem cell (HSC) gene therapy (GT) for WAS. The investigational medicinal product (IMP) consists of autologous CD34+ HSC engineered with a lentiviral vector (LV) driving the expression of WAS cDNA from an endogenous 1.6 kb human WAS promoter (LV-WAS), infused after a reduced intensity conditioning (RIC) based on anti-CD20 mAb, targeted busulfan and fludarabine. We previously reported early follow up (FU) results from the first 3 patients (Aiuti et al., Science 2013). Seven patients (Zhu score ≥3) have now been treated at a median age of 1.9 years (1.1 - 11.1). As of May 2015, all patients are alive with a median FU of 3.2 years (0.7 - 5.0). CD34+ cell source was bone marrow (BM) (n=5), mobilized peripheral blood (MPB) (n=1) or both (n=1). IMP dose ranged between 7.0 and 14.1 x106 CD34+/kg, containing on average 94.4 ± 3.5% transduced clonogenic progenitors and a mean vector copy number (VCN)/genome in bulk CD34+ cells of 2.7 ± 0.8. No adverse reactions were observed after IMP infusion and RIC was well tolerated. Median duration of severe neutropenia was 19 days; granulocyte-colony stimulating factor was administered to 1 patient. In the first 6 treated patients with FU 〉2 years, we observed robust and persistent engraftment of gene corrected cells. At the most recent FU, transduced BM progenitors ranged between 20.7 and 59.7%, and LV-transduced cells were detected in multiple lineages, including PB granulocytes (VCN 0.34 - 0.93) and lymphocytes (VCN 1.18 - 2.73). WAS protein expression, measured by flow-cytometry, was detected in the majority of PB platelets [mean ± standard deviation (SD), 71.4 ± 14.0%], monocytes (63.3 ± 18.5%) and lymphocytes (78.9 ± 14.9%). Lymphocyte subset counts were normal in most patients and proliferative response to anti-CD3 mAb was in the normal range in all 6 patients. After immune reconstitution, a marked reduction in the annualized estimated rate of severe infections was observed, as compared with baseline (figure 1A). The first 6 treated patients discontinued anti-infective prophylaxis and no longer require a protected environment. Four patients stopped immunoglobulin supplementation and 2 of them developed specific antibodies after vaccination. Eczema resolved in 4 patients and remains mild in 2. No clinical manifestations of autoimmunity were observed ≥1 year after GT in accordance with improved B-cell development and decreased autoantibody production. All patients became platelet transfusion independent at a median of 4 months after GT (range: 1.0 - 8.7). Mean platelet counts progressively increased after treatment (mean ± SD: before GT, 13.4 ± 7.8 x109/l; 24-30 month FU, 45.8 ± 22.0 x109/l; 36-42 month FU, 57.0 ± 18.7 x109/l). The frequency and the severity of bleeding events decreased after the 1st year of FU. No severe bleedings were recorded after treatment (figure 1B). Quality of life improved in all patients after GT. From the 2nd year of FU, the number of hospitalizations for infections decreased and no hospitalizations due to bleeding were observed after treatment. The seventh patient treated, who received MPB derived CD34+ cells only, showed the fastest platelet recovery with the highest level of transduced myeloid cell engraftment, and is clinically well. No Serious Adverse Events (SAE) related to the IMP were observed. The most frequent SAE were related to infections (85%), occuring mainly during the 1st year of FU. Importantly, no evidence of abnormal clonal proliferations emerged after GT and the LV integration profile show a polyclonal pattern, with no skewing for proto-oncogenes. In conclusion, this updated report in 7 WAS patients show that GT is well tolerated and leads to a sustained clinical benefit. The high level of gene transfer obtained with LV-WAS results in robust engraftment of transduced HSC, even when combined with RIC. Prolonged FU will provide additional information on the long-term safety and clinical efficacy of this treatment. Figure 1. Figure 1. Disclosures Villa: Fondazione Telethon: Research Funding. Dott:GlaxoSmithKline: Consultancy. van Rossem:GlaxoSmithKline: Employment. Naldini:Salk Institute: Patents & Royalties: Lentiviral vectors; San Raffaele Telethon Institute: Patents & Royalties: Lentiviral vector technology; GlaxoSmithKline: Other: GSK licensed gene therapies developed at my Institute and the Institute receives milestone payments; Sangamo Biosciences: Research Funding; Biogen: Research Funding; Genenta Sciences: Equity Ownership, Membership on an entity's Board of Directors or advisory committees. Aiuti:GlaxoSmithKline (GSK): Other: PI of clinical trial which is financially sponsored by GSK; Fondazione Telethon: Research Funding.

Description: BACKGROUND: Long-term T-cell survival is pivotal for the development of effective therapeutic approaches against pathogens and cancer, since the success of immunotherapy requires the generation of a robust, safe but also durable immune response. Even if it is established that memory cells can survive and persist for years, little is known about the requirements for their long-term persistence. Suicide gene therapy after T-cell depleted haploidentical hematopoietic stem cell transplantation (haplo-HSCT) provides a unique model to study memory T cells. In this setting, patients receive the post-transplant infusion of donor-derived gene-modified memory T lymphocytes retrovirally transduced to express the Herpes Simples Virus Thymidine Kinase (TK) suicide gene and the DLNGFR selection marker. The presence of a safety switch allows the infusion into patients of a broad T-cell repertoire in the absence of immune suppression, while the surface marker enables unambiguous detection and close monitoring of gene-modified cells circulating in treated patients. In the present work we characterize the immunological profile of a cohort of long-term survivors after suicide gene therapy and we studied the fate of persisting TK cells to shed light on memory T cell dynamics in vivo and to unravel the requirements for long-term persistence directly in humans. RESULTS: We studied 10 adult patients who underwent haplo-HSCT and infusion of suicide-gene modified donor T cells (median dose: 1.9x107 cells/kg, range:1-39.5x106) for high-risk hematologic malignancies between 1995 and 2012. Three out of 10 patients (33%) experienced GvHD early after HSCT; in all cases, ganciclovir (GCV) administration proved effective in abrogating the adverse reaction. At a median follow-up of 7 years (range 2-14), all patients were in complete remission and free of GvHD, and displayed a complete and broad donor-derived immune system characterized by physiological counts of NK cells, B lymphocytes, γδ T cells and naïve and memory CD4+ or CD8+ T cells. TK cells were detected in all patients, at low levels (median=4cells/uL), even in patients treated with GCV. Ex vivo selection of pure TK-cells confirmed the presence of functional transduced cells, thus directly demonstrating the ability of memory T cells to persist for years. Importantly, GCV sensitivity was preserved in long-term persisting TK cells, independently from their differentiation phenotype. Longitudinal follow up revealed that TK cells circulated in patients at stable levels and displayed a conserved phenotype comprising effector memory (TEM), central memory (TCM) and stem memory (TSCM) T cells. The low level of Ki-67 positivity suggested the maintenance of a pool of gene-modified memory cells through homeostatic proliferation. Polyclonality was demonstrated by sequencing among TK cells of thousands of diverse TCRs with a broad usage of V and J alpha and beta genes. The number of TK cells persisting at the longest follow-up did not correlate with the amount of infused cells, but instead with the peak of TK cells measured within the first months after infusion, suggesting that antigen recognition is dominant in driving in vivo expansion and persistence of memory T cells. Accordingly, we documented the persistence of CMV and Flu-specific TK cells only after post-transplant CMV reactivation or after Flu infection. Characterization of TK cell products infused to patients showed that the amount of infused TSCM cells positively correlates with early expansion and long-term persistence of gene-marked cells. By combining sorting of memory T-cell subsets with sequencing of integration sites, TCRα and TCRβ clonal markers, we longitudinally traced T-cell clones from infused products to late follow-up time-points. We showed that although T cells retrieved long-term are enriched in clones originally shared in different memory T-cell subsets, dominant long-term clonotypes preferentially originate from infused TSCM clones, suggesting that TSCM might play a privileged role in the generation of a long-lasting immunological memory. CONCLUSION: In a completely restored immune system, suicide gene-modified donor T cells persist for up to 14 years in treated patients. Long-term persistence of memory T cells is determined by antigen exposure, and by the original phenotype of infused cells, according to a hierarchical model in which TSCM are superior to TCM and TEM/EFF. Disclosures Lambiase: MolMed S.p.A: Employment. Traversari:MolMed S.p.A: Employment. Bordignon:MolMed S.p.A: Membership on an entity's Board of Directors or advisory committees. Bonini:MolMed S.p.A: Consultancy.

Description: A deeper understanding of T lymphocytes survival and differentiation potential in humans is paramount for the development of effective gene/cell therapies based on T-cell engineering. We here performed a comprehensive study of T-cells dynamics and plasticity in humans by a unique combination of phenotypic/functional studies and high-throughput integration sites (IS) analyses. We analyzed samples from hematopoietic stem cells (HSC) (n=10) or mature lymphocytes (PBL) gene therapy (GT) (n=4) treated ADA (adenosine deaminase) deficient-SCID patients. For comparative analyses, we also collected data from pediatric (n=19) and adult (n=52) healthy donors (HD), and from bone marrow transplanted patients (BMT) with primary immunodeficiencies (n=10, 4 with ADA-SCID). We observed that vector-positive CD62L+/CD45RA+ putative T naïve cells were detectable 12 years after last infusion of gene-corrected lymphocytes in peripheral blood of PBL-GT patients that lack the support of transduced lymphocytes precursors. We then unveiled that the vast majority of these CD62L+/CD45RA+ cells (80.3%) in PBL-GT patients could be actually classified phenotypically (CD95, IL2Rβ and IL7Rα surface expression) and functionally (IFNγ production and aCD3/aCD28 in vitro differentiation) as active long-lasting T memory stem cells (Tscm). The peculiar Tscm frequency found in PBL-GT patients was most likely due to a combinatorial in vitro and in vivo effect. Indeed, by a series of in vitro assays, we showed that Tscm relative enrichment in CD45RA+CD62L+ compartment have occurred during the in vitro manipulation of T cells before infusion. Additionally, we found higher-then-normal Tscm contribution among CD45RA+/CD62L+ cells even in ADA-SCID patients receiving HSC-GT and BMT, suggesting a role of disease background on in vivo Tscm persistence. Analyzing our cohorts of healthy donors and treated individuals we were able to further correlate Tscm contribution in vivo with age, conditioning regimen, disease background, cell source, and long-term T-cell reconstitution. One unique aspect of our study consisted in the opportunity to track Tscm clonal dynamics in vivo in humans since each gene-corrected cell infused in our GT patients is univocally and permanently tagged by a retroviral integration site.To perform in vivo molecular tracing of individual T-cell clones we sorted T naïve, Tscm, central memory and effector memory subtypes. We then collected from these subpopulations, by LAM-PCR+Illumina-Miseq sequencing, 2.584.137 integration sites (IS) sequences mapped to 1.746 unique chromosomal positions, corresponding to 910 integrations from 5 HSC-GT patients in vivo, 79 integrations from 2 PBL-GT samples of transduced cell products prior to infusion and 754 integrations from 4 PBL-GT patients in vivo. Firstly, to establish a relationship between precursors and terminally differentiated T cells we searched for the presence of identical insertion sites detected in multiple T-cell subtypes, applying stringent analytical filters for cross-contaminations. Strikingly, the level of shared integrations in each subtype was directly correlated to its stage of differentiation with Tscm, isolated from PBL-GT patients, showing the highest proportion of integration sites shared with the other T-cell subsets. Importantly, the results of the same analysis performed on HSC-GT patients were outstandingly coherent with the progressive developmental model of memory T-cell differentiation. We then assessed the survival of individual Tscm clones by performing a longitudinal IS analysis of different T-cell subtypes isolated from 3 PBL-GT patients over a 2 to 5 years timeframe up to 12 years after last infusion. We were able to formally prove the persistence of individual Tscm by re-capturing identical IS tagging specific Tscm clones in two independent timepoints in a 5- years window. Importantly, the same IS were also detected in multiple T-cell subtypes, representing the best indirect evidence that these clones were endowed with long-term precursor activity. We also documented, by IS sequencing reads, the long-term polyclonal composition of each subtype and we did not observe enrichment for IS flanking proto-oncogenes. Overall, this study validates, for the first time in humans, the safe and functional decade-long survival of engineered Tscm, paving the way for their future application in clinical settings. Disclosures No relevant conflicts of interest to declare.

Description: Background: Wiskott-Aldrich syndrome (WAS) is a rare, X-linked, life-threatening primary immunodeficiency caused by mutations in the gene encoding the WAS protein (WASP). WASP-deficient immune cells have compromised immunological synapse formation, cell migration and cytotoxicity. Thus, WAS is characterized by development of recurrent or severe infections, eczema, and increased risk of autoimmunity and malignancies. In addition, WASP deficiency results in microthrombocytopenia, leading to severe bleeding episodes. When a suitable donor is available, WAS can be treated by hematopoietic stem cell transplant (HSCT), but HSCT can be impeded by complications such as graft versus host disease, rejection and autoimmunity. Importantly, HSCT may carry higher risks in older children (〉2-5 yrs) [Shin et al, 2012; Moratto et al, 2011]. An alternative approach is gene therapy (GT). We previously reported interim results of a Phase I/II clinical trial (NCT01515462) in 8 subjects treated with OTL-103, a drug product composed of autologous CD34+ hematopoietic stem and progenitor cells (HSPCs) transduced ex vivo with a lentiviral vector (LV) encoding human WASP cDNA under the control of the endogenous promoter [Ferrua et al, 2019]. We now report updated results on the safety and efficacy of OTL-103 in 17 subjects treated at San Raffaele Hospital as part of the same clinical trial or expanded access programs (EAP) with up to 8 yrs follow up (FU). Methods: NCT01515462: As described in Ferrua et al, 8 male subjects (mean age at GT: 4.8 yrs, range 1.1-12.4) were treated with OTL-103. The source of autologous CD34+ HSPCs was bone marrow (BM; n=5), mobilized peripheral blood (mPB; n=2) or both (n=1). As part of a reduced-intensity conditioning regimen, rituximab was given 22 days prior and busulfan + fludarabine during the week before OTL-103 infusion. At time of reporting, all subjects had ≥3 yrs FU (range: 3-8 yrs). EAP: 9 male subjects (11.2 yrs, 1.4-35.1) received identical treatment to subjects in the clinical trial; autologous CD34+ HSPCs source was mPB in all subjects. At time of reporting, subjects had a median of 1.4 yrs FU (range: 0.1-3.0 yrs) with 6/9 having ≥1 yr FU. Results: At last FU for all subjects (median: 3.0 yrs, range 0.1-8.0), overall survival was 94% (16/17). One EAP subject died 4.5 mo post-GT, due to deterioration of an underlying neurodegenerative condition considered unrelated to OTL-103 by investigator. To date, there have been no reports of insertional oncogenesis or replication-competent LV. While most subjects experienced adverse events (AEs) due to the reduced-intensity conditioning regimen (mainly mild or moderate), there were no reports of AEs related to OTL-103. Efficacy endpoints analyses were performed on surviving patients with ≥1 yr FU. Evidence of engraftment of genetically corrected HSPCs and LV+ colonies in BM was observed within 3 mo and persisted up to 8 yrs - the longest published FU of LV vector durability to date (Figure). WASP expression was restored after GT, shown by increases in the fraction of WASP+ lymphocytes and platelets (PLT) within 3 mo and maintained thereafter (Table). After GT, PLT counts improved, leading to a reduction of frequency and severity of bleeding events. Independence from PLT transfusions and absence of severe bleeding events were observed in all subjects by 9 mo FU (Table). Immune function improved; all evaluable patients discontinued immunoglobulin supplementation after GT (median time to discontinuation: 0.9 years after GT, range: 0.2-5 years). Furthermore, reduction in severe infection rate was observed post-GT, suggestive of immune reconstitution (Table). The decrease in bleeding events and severe infection rates occurred despite the integration of subjects into normal daily activities. Eczema progressively resolved or was reduced compared to baseline. Conclusions: This combined analysis of 17 subjects treated in a clinical trial or EAP with up to 8 yrs FU demonstrates that GT continues to be an effective treatment for WAS. All surviving subjects achieved high levels of multilineage engraftment, sustained restoration of WASP expression in lymphocytes and PLTs, improved PLT counts, and fewer bleeding events. A significant reduction in severe infection rate suggests reconstitution of immune function. Importantly, clinical benefit was also attained in older subjects (〉5 yrs), a group considered at higher risk when treated with allogeneic HSCT. Disclosures Jones: Orchard Therapeutics: Employment, Equity Ownership. Dott:Orchard Therapeutics: Employment, Equity Ownership. Naldini:Genenta Science: Consultancy, Equity Ownership; Magenta Therapeutics: Equity Ownership; San Raffaele Telethon Institute for Gene Therapy (SR-TIGET), a joint venture between Fondazione Telethon and Ospedale San Raffaele (OSR): Other: Wiskott-Aldrich Syndrome (WAS) gene therapy was licensed to GlaxoSmithKline (GSK) in 2014. It was then licensed to Orchard Therapeutics (OTL) in April 2018. OTL is the current sponsor of the clinical trial.. Aiuti:San Raffaele Telethon Institute for Gene Therapy (SR-TIGET), a joint venture between Fondazione Telethon and Ospedale San Raffaele (OSR): Other: Wiskott-Aldrich Syndrome (WAS) gene therapy was licensed to GlaxoSmithKline (GSK) in 2014. It was than licensed to Orchard Therapeutics (OTL) in April 2018. OTL is the current sponsor of the clinical trial.; San Raffaele Telethon Institute for Gene Therapy (SR-TIGET), a joint venture between Fondazione Telethon and Ospedale San Raffaele (OSR): Other: Study PI.

Description: Hematopoietic stem cells (HSC) are endowed with the unique role of generating an adequate and efficient pool of blood cells throughout human life. Data derived from clonal tracking of HSC activity and hematopoietic dynamics directly in vivo in humans would be of paramount importance for the design of therapies for hematological disorders and cancers. Our gene therapy (GT) clinical trials for adenosine deaminase (ADA) deficient-SCID and Wiskott-Aldrich Syndrome (WAS) based on the infusion of genetically engineered HSC, constitute unique clinical settings where each vector-marked progenitors and its blood cell progeny is traceable being univocally barcoded by a vector integration site (IS). To study early dynamics of hematopoietic reconstitution in humans, we collected by LAM-PCR + Illumina-Miseq sequencing 14.807.407 sequence reads corresponding to 71.981 IS tagging clones belonging to 13 different cell types purified from the bone marrow and the peripheral blood of 4 WAS patients up to 36 months after GT. We firstly identified and quantified identical IS shared among CD34+ progenitors, and mature Myeloid/Lymphoid cells as marker of the real-time clonal output of individual vector-marked HSC clones in vivo. We unraveled the timing of short, intermediate and long term HSC output showing that CD34+ clones active at 3-6 months after GT are not detectable at later follow up. By unsupervised clustering of IS similarities among lineages we unveiled diverse input of HSPC clonal differentiation towards lymphoid, myeloid and megakaryo-erythroid cells and found that NK cells have a distinct relationship with HSPC as compared to T and B cells. We also profiled the level of HSPC output overtime showing that early reconstitution is markedly skewed towards myeloid production. Importantly, clonogenic progenitors generated in vitro from ex vivo purified CD34+ patients’ cells, showed a IS profile coherent with that of freshly purified BM and PB cell types from the same time-point. We also studied population clonal entropy through 7 different diversity indexes and uncovered that progenitor output occurs in distinct waves during the first 6-9 months after transplantation reaching a “homeostatic equilibrium” only by 12 months after GT. At steady state we estimated by mark-recapture mathematical approaches that 1900-7000 transduced HSC clones were stably contributing to the progenitors repertoire for up to 3 years after infusion of gene corrected CD34+ cells. To evaluate the long-term preservation of activity by transplanted HSC we exploited data derived from the IS-based tracking of 4.845 clones in ADA-SCID patients performed for up to 6 years after GT. We showed that identical IS are consistently detected at multiple lineages level even several years after GT. Strikingly, by semi-quantitative PCRs on specific vector-genome junctions we tracked a fluctuating but consistent output of marked HSC over a period of 5 years without the manifestation of clonal quiescence phases. Additionally, since the gamma-retroviral vector used in ADA-SCID HSC-GT trial is able to transduce only actively replicating cells, we provided the first evidence that in vitro activated HSC, “awaken” from dormancy, can still, once infused, retain in vivo long-term activity in humans. We exploited IS similarities among the lineages for both WAS and ADA-SCID datasets to reconstruct the hematopoietic hierarchy by combining conditional probability distributions and static/dynamic graphical models of dependencies. Notably, preliminary data unveiled a link between myeloid progenitors and mature lymphoid cells that supports the recently suggested model of hematopoiesis based on a delayed branching of myeloid and lymphoid lineages. Further mathematical models are being applied to specifically study population dynamics and single HSPC contribution to hematopoiesis including stochastic models of neutral clonal drift. More detailed analysis are also being performed on IS collected from 7 distinct CD34+ subtypes isolated from GT patients and FACS sorted according to the most recent markers of HSPC differentiation. Overall our work constitute the first molecular tracking of individual hematopoietic clones in humans providing an unprecedented detailed analysis of HSC activity and dynamics in vivo. The information gathered will be crucial for the design of therapeutic approaches for a broad spectrum of hematological diseases and tumors. Disclosures Neduva: GSK: Employment. Dow:GSK: Employment.