Long-term safety and efficacy of lentiviral hematopoietic stem/progenitor cell gene therapy for Wiskott-Aldrich syndrome.

Patients with Wiskott-Aldrich syndrome (WAS) lacking a human leukocyte antigen-matched donor may benefit from gene therapy through the provision of gene-corrected, autologous hematopoietic stem/progenitor cells. Here, we present comprehensive, long-term follow-up results (median follow-up, 7.6 years) (phase I/II trial no. NCT02333760 ) for eight patients with WAS having undergone phase I/II lentiviral vector-based gene therapy trials (nos. NCT01347346 and NCT01347242 ), with a focus on thrombocytopenia and autoimmunity. Primary outcomes of the long-term study were to establish clinical and biological safety, efficacy and tolerability by evaluating the incidence and type of serious adverse events and clinical status and biological parameters including lentiviral genomic integration sites in different cell subpopulations from 3 years to 15 years after gene therapy. Secondary outcomes included monitoring the need for additional treatment and T cell repertoire diversity. An interim analysis shows that the study meets the primary outcome criteria tested given that the gene-corrected cells engrafted stably, and no serious treatment-associated adverse events occurred. Overall, severe infections and eczema resolved. Autoimmune disorders and bleeding episodes were significantly less frequent, despite only partial correction of the platelet compartment. The results suggest that lentiviral gene therapy provides sustained clinical benefits for patients with WAS.

The role of FOXP3+ regulatory T cells in human autoimmune and inflammatory diseases.

CD4+ regulatory T cells (Treg ) expressing the forkhead box protein 3 (FOXP3) transcription factor (Tregs ) are instrumental for the prevention of autoimmune diseases. There is increasing evidence that the human T regulatory population is highly heterogeneous in phenotype and function. Numerous studies conducted in human autoimmune diseases have shown that Treg cells are impaired either in their suppressive function, in number, or both. However, the contribution of the FOXP3+ Treg subpopulations to the development of autoimmunity has not been delineated in detail. Rare genetic disorders that involve deficits in Treg function can be studied to develop a global idea of the impact of partial or complete deficiency in a specific molecular mechanism involved in Treg function. In patients with reduced Treg numbers (but no functional deficiency), the expansion of autologous Treg cells could be a suitable therapeutic approach: either infusion of in-vitro autologous expanded cells, infusion of interleukin (IL)-2/anti-IL-2 complex, or both. Treg biology-based therapies may not be suitable in patients with deficits of Treg function, unless their deficit can be corrected in vivo/in vitro. Finally, it is critical to consider the appropriate stage of autoimmune diseases at which administration of Treg cellular therapy can be most effective. We discuss conflicting data regarding whether Treg cells are more effectual at preventing the initiation of autoimmunity, ameliorating disease progression or curing autoimmunity itself.

Impact of graft preservation solutions for liver transplantation on early cytokine release and postoperative organ dysfunctions. A pilot study.

INTRODUCTION: During liver transplantation, graft ischemia-reperfusion injury leads to a systemic inflammatory response producing postoperative organ dysfunctions. The aim of this observational and prospective study was to compare the impact of Solution de conservation des organes et tissus (SCOT) 15 and University of Wisconsin (UW) preservation solutions on early cytokine release, postreperfusion syndrome and postoperative organ dysfunctions. METHODS: Thirty-seven liver transplantations were included: 21 in UW Group and 16 in SCOT 15 group. Five cytokines were measured in systemic blood after anesthetic induction, 30minutes after unclamping portal vein and on postoperative day 1. RESULTS: Following unclamping portal vein, cytokines were released in systemic circulation. Systemic cytokine concentrations were higher in UW than in SCOT 15 group: Interleukin-10, Interleukine-6. In SCOT 15 group, significant reduction of postreperfusion syndrome incidence and acute kidney injury were observed. Alanine and aspartate aminotransferase peak concentrations were higher in SCOT 15 group than in UW group. However, from postoperative day 1 to day 10, aminotransferase returned to normal values and did not differ between groups. CONCLUSIONS: Compared to UW, SCOT 15 decreases systemic cytokine release resulting from graft ischemia-reperfusion injury and reduces incidence of postreperfusion syndrome and postoperative renal failure.

Regulatory T cell therapy: An option to induce operational tolerance in liver transplantation.

Regulatory T cells (Treg) may play an important role in operational (clinical) tolerance (OT), a stable graft function without immunosuppression in an otherwise immunocompetent host, that is spontaneously observed in some patients many years after transplantation. Several ongoing clinical trials are currently testing the effects of donor-specific or non-specific Treg infusion with the goal to induce this state of OT a few months after liver transplantation (LT). The preliminary results of two of these trials have been recently published, and raise a number of comments and issues: (1) These two papers demonstrate that a 100 to 1000-fold ex-vivo expansion of Treg is possible in humans after 2 weeks of culture. The optimal human Treg dose is however not clearly established, and might be higher than the dose that would be expected from translating murine data. (2) A lot of concerns are remaining regarding the Treg purity before expansion, the Treg stability during in vitro culture and the in vivo fate of infused cells. A strict monitoring of Treg should thus be done at each step. (3) Since Treg may play a detrimental role in some conditions, such as viral diseases and cancer, potential LT recipients with such diseases should probably be excluded from the initial trials of Treg infusion. (4) The follow-up of tolerant liver recipients should include repeated liver biopsies and detection of autoantibodies and humoral response, in addition to conventional liver graft assessment, in order to prevent the development of immune complications related to immunosuppression withdrawal. (5) The final issue raised by Treg therapy in LT is the choice of the immunosuppressive regimen used before tapering or withdrawal, appropriate to preserve OT establishment.

Gene transfer of two entry inhibitors protects CD4⁺ T cell from HIV-1 infection in humanized mice.

Targeting viral entry is the most likely gene therapy strategy to succeed in protecting the immune system from pathogenic HIV-1 infection. Here, we evaluated the efficacy of a gene transfer lentiviral vector expressing a combination of viral entry inhibitors, the C46 peptide (an inhibitor of viral fusion) and the P2-CCL5 intrakine (a modulator of CCR5 expression), to prevent CD4⁺ T-cell infection in vivo. For this, we used two different models of HIV-1-infected mice, one in which ex vivo genetically modified human T cells were grafted into immunodeficient NOD.SCID.γc⁻/⁻mice before infection and one in which genetically modified T cells were derived from CD34⁺ hematopoietic progenitors grafted few days after birth. Expression of the transgenes conferred a major selective advantage to genetically modified CD4⁺ T cells, the frequency of which could increase from 10 to 90% in the blood following HIV-1 infection. Moreover, these cells resisted HIV-1-induced depletion, contrary to non-modified cells that were depleted in the same mice. Finally, we report lower normalized viral loads in mice having received genetically modified progenitors. Altogether, our study documents that targeting viral entry in vivo is a promising avenue for the future of HIV-1 gene therapy in humans.

Epstein-Barr virus-driven B Cell Proliferation with CD4+ T Cell Expansion: A Lymphomatoid Granulomatosis-like Disease Related to Hyperinterleukin-10 Secretion of Remarkably Favourable Outcome with Rituximab.

Granulomatous lymphomatosis is an Epstein-Barr virus (EBV)-driven B cell proliferation associated with an exuberant CD4(+) T cell reaction with usually histopathological pictures of angiocentrism. So far, the characteristics of CD4(+) T cells in granulomatous lymphomatosis and the mechanism leading to their expansion remain poorly explored. We report a 56-year-old female with a past history of cold agglutinin disease, which was successfully treated with 4 weekly infusions of rituximab. She presented one year later with features of granulomatous lymphomatosis that resulted in severe lung and bone marrow infiltration. We provide evidence that CD4(+) T cell expansion was oligoclonal, involved anergic cells and did not result from an EBV-driven stimulation. Rather, it resulted possibly from a high production of interleukin-10 by immunoblastic EBV-positive B cells. The outcome was remarkably favourable with rituximab and steroids. Our results suggest that an EBV-driven B cell proliferation should be investigated in patients presenting with a CD4(+) T cells alveolitis or other systemic manifestations resulting from a CD4(+) T cell expansion. These features should prompt to introduce an immunosuppressive therapy including steroids and rituximab. Our results deserve further investigations to confirm our pathophysiological hypotheses in CD4(+) T cell expansions associated with EBV-driven B cell proliferations and to assess whether granulomatous lymphomatosis could result from comparable mechanisms.

[Erdheim-Chester disease]. / Maladie d'Erdheim-Chester.

Erdheim-Chester disease is a rare and orphan disease. Despite having been overlooked previously, numerous new cases have been diagnosed more recently. The number of Erdheim-Chester disease cases reported has increased substantially: more than 300 new cases have been published in the past 10 years. This situation is mainly a result of the generally better awareness among pathologists, radiologists, and clinicians of various aspects of this rare disease. The field has been particularly active in the last few years, with evidence of the efficacy of interferon-α, the description of a systemic pro-inflammatory cytokine signature, and most recently, reports of the dramatic efficacy of BRAF inhibition in severe, BRAF(V600E) mutation-associated cases of Erdheim-Chester disease. Also, BRAF mutations have been found in more than half of the patients with Erdheim-Chester disease who were tested. Detailed elucidation of the pathogenesis of the disease is likely to lead to the development of better targeted and more effective therapies.

[Atypical progressive multifocal leukoencephalopathy (PML) in a patient with pulmonary sarcoidosis]. / Leucoencéphalopathie multifocale progressive atypique chez un patient atteint de sarcoïdose médiastinopulmonaire.

INTRODUCTION: Progressive multifocal leukoencephalopathy (PML) is a demyelinating disease of central nervous system due to the JC virus. PML generally occurs in immunocompromised hosts and has a fatal outcome. OBSERVATION: We report a case of an atypical PML in a patient with pulmonary sarcoidosis: MRI showed multifocal and punctate contrast enhancements. The diagnostic was made by brain biopsy. CONCLUSION: The pathophysiology of this association is probably related to the immunodepression induced by sarcoidosis.

[Systemic lupus erythematosus and regulatory T cells]. / Cellules T régulatrices et lupus érythémateux systémique.

A global depletion of FoxP3+ CD25(bright) CD4+ regulatory T cell is observed during lupus flares. This phenomenon is not the consequence of the relocalization of Tregs in diseased organs but could be related to their specific sensitivity to Fas mediated apoptosis. Several therapeutic perspectives can be drawn taking into account these pathophysiological insights.

Down-regulation of CD8+ T-cell expansions in patients with human immunodeficiency virus infection receiving highly active combination therapy.

Analysis of T-cell receptor (TCR) repertoire usage made by peripheral T lymphocytes during the chronic phase of HIV-1 infection has revealed the presence of clonal expansions of CD8 T cells that are also shown to be largely HIV-specific. Yet, it remains unclear whether the global repertoire perturbation observed during the chronic phase of the infection is also HIV-related and reversible in the long term with the application of highly active antiretroviral therapy. Furthermore, the diversity and the stability of repertoire usage after a relapse of viral replication were never examined. Eight patients were observed longitudinally up to 31 months under triple-association therapy. When viral replication was steadily suppressed, CD8 repertoires were significantly stabilized. Conversely, in situations of incomplete or only transient viral suppression, persistence or rebound in repertoire perturbation was observed. Finally, a T-cell response remarkably different from baseline, as reflected by a repertoire switch, was generated after the discontinuation of highly active therapy. In conclusion, a sustained control of HIV replication correlated with profound modifications of the CD8 repertoire usage. These data also suggested that autovaccination by the withdrawal of antiviral drugs would result in the selection and expansion of T-cell clones that were not necessarily dominant before the onset of treatment.

Phage display of peptide/major histocompatibility complex.

To date, there is no direct way to determine the antigenic specificity of T-cells. While B-cell epitopes can be selected from phage-displayed libraries of peptides, the corresponding molecular tool for identifying T-cell epitopes does not yet exist. The natural ligands of the T-cell antigen-receptor (TCR) are essentially antigenic peptides (P) associated with the products of the major histocompatibility complex (MHC). Here, we report phages displaying P-MHC complexes. Single-chain P-MHC class I molecules, produced in E. coli periplasm, stimulate T-cells in a peptide-specific fashion. The same P-MHC, fused at the tip of filamentous phage, directed their binding to a recombinant TCR restricted to the displayed MHC haplotype (H-2K(d)). Importantly, the binding of P-K(d)-fd to a K(d)-restricted TCR, and also to K(d)-restricted T-cell hybridomas, was modulated by the displayed peptide. Therefore, we suggest phage display of P-MHC as a direct molecular tool for probing T-cell specificity, and for selecting TCR ligands from genetic libraries encoding randomized or natural peptides.

Gene therapy approaches to HIV-infection: immunological strategies: use of T bodies and universal receptors to redirect cytolytic T-cells.

Combined regimens of classical antiviral treatments have not, until now, lead to the eradication of HIV-1. A specific anti-HIV immune response may have to be boosted or transferred to patients after suppression of viral replication, in order to eradicate residual infected cells from their sanctuaries. Cytotoxic T cells engineered to express recombinant chimeric receptors can be redirected against HIV-infected cells and could represent the basis of a new type of immunotherapy. Several HIV epitopes have been targeted successfully in vitro. Two types of binding domains (antibody fragments, CD4) fused with various signal transducing units (zeta chain of the CD3 complex, Fc epsilon RI gamma chain) have been tested for their ability to redirect effector cells to HIV infected lymphocytes. CD4-zeta-expressing myeloid and natural killer cells conferred SCID mice protection against challenge with tumor cells expressing HIV-env. Finally, the safety of the adoptive transfer of syngeneic CD4-zeta -modified T cells in HIV-infected individuals is currently under evaluation.

Restoration of the immune system with anti-retroviral therapy.

Clinical benefits of highly active anti-retroviral treatments (HAART) are increasingly evidenced by resolving opportunistic infections and malignancies, as well as declining hospitalization and mortality rates [1]. This suggests that potent and sustained suppression of viral replication, at least to some extent, is associated with reconstitution of the immune system even in adult patients treated at advanced stages of the disease. Increased susceptibility to opportunistic infections and tumors mainly results from the loss of memory CD4+ T cell reactivity against recall antigens which is an early event in HIV disease progression. Primary responses of naive CD4+ T cells against new pathogens are suppressed even earlier in the course of HIV disease, and the progressive depletion in naive CD4+ T cells reflects profound alterations in T cell regeneration capacities. Previous studies revealed that monotherapy with ritonavir, a protease inhibitor, resulted in a slight improvement in memory CD4+ T cell responses to recall Ags only when detectable prior to onset of therapy, suggesting that the loss of CD4+ T cell reactivity might be irreversible at advanced stages of the disease [2]. In contrast our group demonstrated more recently that restoration in CD4+ T cell reactivity to specific antigens was feasible when HAART was administered in progressors [3]. Here we address some of the questions raised by immune restoration with HAART when administered at advanced stages of the disease.

Characterization of T cell-expressed chimeric receptors with antibody-type specificity for the CD4 binding site of HIV-1 gp120.

Chimeric T cell receptors (cTCR) with an antibody specificity have been proposed in several models as a combination of antibody and cellular immunotherapy without MHC restriction. Such a tool could be of a limited use in HIV infection because of the great variability of the virus. The human single-chain antibody (ScFv-b12) derives from the b12 antibody directed to the CD4 binding site of gp120, a potent neutralizer of different HIV-1 strains, including a large panel of primary isolates. A single-chain fragment variable (ScFv) bearing the VH Pro-->Glu mutation that improves b12 affinity 54-fold, called ScFv-b12E, was also constructed. The ScFv were linked to the signal-transducing y chain of the Fc(gamma)RIII, with or without spacer region, and expressed in the murine MD45 T cell line. The different cTCR formats behave similarly in terms of ScFv surface expression, but differ according to their activation threshold. T cell transfectants can be stimulated with immobilized gp120 derived from all HIV strains tested. BHK cells infected with Semliki forest virus (SFV) carrying an HIV-1 envelope gene (SFV-env) derived from either HIV-1 laboratory strains (LAI, MN12, HXB2) or field isolates (BX08, CHAR or 133) were used as targets for the transfectants. All gp120-expressing cells induced cTCR-specific activation. The latter result is contrasting with the lack of specific recognition of SFV-CHAR- or 133-infected cells by the native b12 antibody, as measured by cytofluorometric analysis. Finally, HeLa cells (which constitutively express the coreceptor CXCR4) are able to bind HIV-1 gp160 when transfected with the chimeric receptor ScFv-b12-gamma, but, importantly, do not become infected by the virus. Our results therefore suggest that cTCR with b12 specificity can confer to T cells broad anti-HIV reactivity without making them susceptible to HIV infection.

Apoptosis and expression of soluble Fas mRNA in systemic lupus erythematosus.

Our objective was to measure the relative proportions of messenger RNAs coding for soluble and membrane-bound Fas in peripheral blood mononuclear cells (PBMCs) and to quantify lymphocyte apoptosis in vitro in systemic lupus erythematosus (SLE). A RT-PCR (soluble/membrane Fas mRNA) ratio was calculated in 16 SLE, 11 RA and 16 healthy subjects' PBMCs. Apoptosis was quantitated in vitro using nick-end labeling and flow-cytometry analysis immediately and after overnight T cell activation. The mean soluble/membrane Fas ratio was 1.219+/-0.424 in the SLE group, significantly higher than in healthy subjects, 0.516+/-0.180 (P = 0.0001). There was no significant difference between inactive and active SLE groups whereas Fas ratio was higher in SLE patients with nephritis (1.460+/-0.365) compared to those without nephritis (1.031+/-0.380) (P=0.039). Mean soluble/ membrane Fas ratio in RA patients (0.975 +/- 0.37) was higher than in healthy subjects (P = 0.0003) and lower than lupus nephritis patients (P=0.015). A significantly higher proportion of mononuclear cells engaged apoptosis after T cell activation in active lupus patients, compared to control subjects. In comparison with healthy subjects, Fas alternative splicing was skewed toward the soluble form of Fas in SLE and RA. Apoptosis after T cell activation in vitro was increased in active SLE patients.

Epidermodysplasia verruciformis-like eruption complicating human immunodeficiency virus infection.

Three human immunodeficiency virus (HIV)-infected patients presented with disseminated pityriasis versicolor-like skin lesions. Histological examination showed features characteristic of epidermodysplasia verruciformis (EV). Hybridization studies demonstrated the presence of human papillomavirus (HPV) type 5 (HPV5) DNA in two patients and HPV20 in one. A relative increase in CD8+, CD57+ cells, which are known to inhibit cell-mediated cytolysis, was observed in all patients. HLA-DQB 0301 haplotype, which has been associated with EV, was detected in two patients. The findings suggest that infection with EV-associated HPV types can complicate HIV infection. Both cellular immune defects and a hitherto unknown genetic background might explain the occurrence of EV in HIV-infected patients.