Simona Zompi

Animal Models of Dengue Virus Infection

The development of animal models of dengue virus (DENV) infection and disease has been challenging, as epidemic DENV does not naturally infect non-human species. Non-human primates (NHPs) can sustain viral replication in relevant cell types and develop a robust immune response, but they do not develop overt disease. In contrast, certain immunodeficient mouse models infected with mouse-adapted DENV strains show signs of severe disease similar to the ‘vascular-leak’ syndrome seen in severe dengue in humans. Humanized mouse models can sustain DENV replication and show some signs of disease, but further development is needed to validate the immune response. Classically, immunocompetent mice infected with DENV do not manifest disease or else develop paralysis when inoculated intracranially; however, a new model using high doses of DENV has recently been shown to develop hemorrhagic signs after infection. Overall, each model has its advantages and disadvantages and is differentially suited for studies of dengue pathogenesis and immunopathogenesis and/or pre-clinical testing of antiviral drugs and vaccines.

Convergent antibody signatures in human dengue.

Dengue is the most prevalent mosquito-borne viral disease in humans, and the lack of early prognostics, vaccines, and therapeutics contributes to immense disease burden. To identify patterns that could be used for sequence-based monitoring of the antibody response to dengue, we examined antibody heavy-chain gene rearrangements in longitudinal peripheral blood samples from 60 dengue patients. Comparing signatures between acute dengue, postrecovery, and healthy samples, we found increased expansion of B cell clones in acute dengue patients, with higher overall clonality in secondary infection. Additionally, we observed consistent antibody sequence features in acute dengue in the highly variable major antigen-binding determinant, complementarity-determining region 3 (CDR3), with specific CDR3 sequences highly enriched in acute samples compared to postrecovery, healthy, or non-dengue samples. Dengue thus provides a striking example of a human viral infection where convergent immune signatures can be identified in multiple individuals. Such signatures could facilitate surveillance of immunological memory in communities.

Rituximab (anti-CD20 monoclonal antibody) for the treatment of patients with clonal lymphoproliferative disorders after orthotopic liver transplantation: a report of three cases

BACKGROUND/AIMS Post-transplant lymphoproliferative disorders (PT-LPD) are a well-known complication of organ transplantation. Their incidence after liver transplantation in adults ranges from 1.8 to 4%. Reduction of immunosuppression led to remission in a few cases. Other treatments include chemotherapy, interferon alpha therapy and/or intravenous-immunoglobulins, or antiviral drugs. However, monoclonal antibodies directed against B-cell specific antigens have rarely been used in those patients. Our aim was to study the feasibility and efficacy of Rituximab, a new, promising human chimeric antibody that recognizes the CD20 antigen, for the treatment of patients with clonal lymphoproliferative disorders after orthotopic liver transplantation. METHODS Rituximab (IDEC-C2HB8; Roche Laboratories, Neuilly-sur-Seine, France) was administered at a 375 mg/m2 dose on days 1, 8, 15, and 22, in an outpatient setting, in three patients with PT-LPD. The tumor was classified as polymorphic PT-LPD in two cases and PT-LPD with features of large cell lymphoma in one case. All the tumors expressed the CD20 antigen and were EBV-related, and the clonality was confirmed in all three cases. The 4 injections of the anti-CD20 monoclonal antibody were associated with reduced immunosuppression in the three patient. RESULTS The treatment with Rituximab was well tolerated without any side effects. The two patients with polymorphic PT-LPDs underwent rapid complete remission, whereas the treatment modalities were ineffective in the patient with the large-cell non-Hodgkin-lymphoma. CONCLUSION These results must be confirmed in a larger cohort of liver transplant recipients suffering from lymphoproliferation. However, they indicate rapid efficiency of Rituximab in association with reduced immunosuppression in these disorders.

Dominant Cross-Reactive B Cell Response during Secondary Acute Dengue Virus Infection in Humans

The four serotypes of dengue virus (DENV) cause dengue fever (DF) and dengue hemorrhagic fever/dengue shock syndrome (DHF/DSS). Severe disease has been associated with heterotypic secondary DENV infection, mediated by cross-reactive antibodies (Abs) and/or cross-reactive T cells. The role of cross-reactive immunity in mediating enhanced disease versus cross-protection against secondary heterotypic DENV infection is not well defined. A better understanding of the cross-reactive immune response in natural infections is critical for development of safe and effective tetravalent vaccines. We studied the B cell phenotype of circulating B cells in the blood of pediatric patients suspected of dengue during the 2010–2011 dengue season in Managua, Nicaragua (n = 216), which was dominated by the DENV-3 serotype. We found a markedly larger percentage of plasmablast/plasma cells (PB/PCs) circulating in DENV-positive patients as compared to patients with Other Febrile Illnesses (OFIs). The percentage of DENV-specific PB/PCs against DENV-3 represented 10% of the circulating antibody-producing cells (ASCs) in secondary DENV-3 infections. Importantly, the cross-reactive DENV-specific B cell response was higher against a heterotypic serotype, with 46% of circulating PB/PCs specific to DENV-2 and 10% specific to DENV-3 during acute infection. We also observed a higher cross-reactive DENV-specific IgG serum avidity directed against DENV-2 as compared to DENV-3 during acute infection. The neutralization capacity of the serum was broadly cross-reactive against the four DENV serotypes both during the acute phase and at 3 months post-onset of symptoms. Overall, the cross-reactive B cell immune response dominates during secondary DENV infections in humans. These results reflect our recent findings in a mouse model of DENV cross-protection. In addition, this study enabled the development of increased technical and research capacity of Nicaraguan scientists and the implementation of several new immunological assays in the field.

Protection from Secondary Dengue Virus Infection in a Mouse Model Reveals the Role of Serotype Cross-Reactive B and T Cells

The four dengue virus (DENV) serotypes cause dengue fever and dengue hemorrhagic fever/dengue shock syndrome. Although severe disease has been associated with heterotypic secondary DENV infection, most secondary DENV infections are asymptomatic or result in classic DF. The role of cross-reactive immunity in mediating cross-protection against secondary heterotypic DENV infection is not well understood. DENV infection of IFN-α/β and IFN-γ receptor-deficient (AG129) mice reproduces key features of human disease. We previously demonstrated a role in cross-protection for pre-existing cross-reactive Abs, maintained by long-lived plasma cells. In this study, we use a sequential infection model, infecting AG129 mice with DENV-1, followed by DENV-2 6–8 wk later. We find that increased DENV-specific avidity during acute secondary heterotypic infection is mediated by cross-reactive memory B cells, as evidenced by increased numbers of DENV-1–specific cells by ELISPOT and higher avidity against DENV-1 of supernatants from polyclonally stimulated splenocytes isolated from mice experiencing secondary DENV-2 infection. However, increased DENV-specific avidity is not associated with increased DENV-specific neutralization, which appears to be mediated by naive B cells. Adoptive transfer of DENV-1–immune B and T cells into naive mice prior to secondary DENV-2 infection delayed mortality. Mice depleted of T cells developed signs of disease, but recovered after secondary DENV infection. Overall, we found that protective cross-reactive Abs are secreted by both long-lived plasma cells and memory B cells and that both cross-reactive B cells and T cells provide protection against a secondary heterotypic DENV infection. Understanding the protective immunity that develops naturally against DENV infection may help design future vaccines.

A Mouse Model for Studying Dengue Virus Pathogenesis and Immune Response

A small animal model for studying dengue disease is of critical importance to furthering many areas of dengue research, including host immunity, disease pathogenesis, and drug and vaccine development. Recent characterization of the AG129 mouse model has demonstrated it to be one of the only models at this time that permits infection by all four serotypes of dengue virus (DENV), supports replication in relevant cell and tissue types comparable to human infection, and allows antibody‐mediated protection and enhancement of DENV infection. Thus, this model enables testing hypotheses arising from epidemiological observations and in vitro experiments in an in vivo system with a functional adaptive immune response. This review provides a brief overview of the development of a mouse model of DENV infection, describes the work completed to date characterizing the AG129 model, and examines several of the unanswered questions remaining in the field.

Role of Gab proteins in phosphatidylinositol 3-kinase activation by thrombopoietin (Tpo).

In this study, we show that upon thrombopoietin (Tpo) stimulation the two adapter proteins Gab1 and Gab2 are strongly tyrosine phosphorylated and associated with Shc, SHP2, PI 3-kinase and Grb2 in mpl-expressing UT7 cells. Although Gab1 and Gab2 seem to mediate overlapping biological signals in many cells, only Gab1 is expressed and phosphorylated in response to Tpo in primary human megakaryocytic progenitors; furthermore, it associates with the same proteins. Although a low level of tyrosine phosphorylated IRS-2 protein is also detected in PI 3-kinase immunoprecipitates, Gab proteins are the essential proteins associated with PI 3-kinase after Tpo stimulation. We demonstrate that, albeit no association is detected between the Tpo receptor mpl and Gab proteins, Y112 located in the C-terminal cytoplasmic domain of mpl is required for Gab1/2 tyrosine phosphorylation. Gab proteins are not tyrosine phosphorylated after Tpo stimulation of UT-7 and Ba/F3 cells expressing a mpl mutant lacking Y112. Moreover, no activation of the PI 3-kinase/Akt pathway is observed in cells expressing this mpl mutant. Finally, we show that this mutant does not allow cell proliferation, thereby confirming that PI 3-kinase activation is required for Tpo-induced cell proliferation.

Correlation between Dengue-Specific Neutralizing Antibodies and Serum Avidity in Primary and Secondary Dengue Virus 3 Natural Infections in Humans

Although heterotypic secondary infection with dengue virus (DENV) is associated with severe disease, the majority of secondary infections are mild or asymptomatic. The mechanisms of antibody-mediated protection are poorly understood. In 2010, 108 DENV3-positive cases were enrolled in a pediatric hospital-based study in Managua, Nicaragua, with 61 primary and 47 secondary infections. We analyzed DENV-specific neutralization titers (NT50), IgM and IgG avidity, and antibody titer in serum samples collected during acute and convalescent phases and 3, 6, and 18 months post-infection. NT50 titers peaked at convalescence and decreased thereafter. IgG avidity to DENV3 significantly increased between convalescent and 3-month time-points in primary DENV infections and between the acute and convalescent phase in secondary DENV infections. While avidity to DENV2, a likely previous infecting serotype, was initially higher than avidity to DENV3 in secondary DENV infections, the opposite relation was observed 3–18 months post-infection. We found significant correlations between IgM avidity and NT50 in acute primary cases and between IgG avidity and NT50 in secondary DENV infections. In summary, our findings indicate that IgM antibodies likely play a role in early control of DENV infections. IgG serum avidity to DENV, analyzed for the first time in longitudinal samples, switches from targeting mainly cross-reactive serotype(s) to the current infecting serotype over time. Finally, serum avidity correlates with neutralization capacity.

Therapy-related acute myeloid leukemia and myelodysplasia after successful treatment of acute promyelocytic leukemia.

The incidence of therapy-related myelodysplasia (t-MDS) and therapy-related acute myeloid leukemia (t-AML), following a high-dose chemotherapy for a prior cancer, is progressively increasing. Here we review patients treated by conventional therapy for acute promyelocytic leukemia (APL) who developed a t-MDS or t-AML in the course of their disease. This risk appears to be low, as only 12 unquestionable cases have been reported so far in the literature. Alkylating agents and etoposide are two major agents able to induce t-MDS or t-AML. However, some cases ask the question of the leukemic potential of other drugs, especially anthracyclines. The median latent period from achievement of complete remission (CR) of APL to diagnosis of t-MDS or t-AML was 34 (25-40) months. All patients presented chromosome abnormalities, mostly deletions or loss of the long arm of chromosome 5 and/or 7, or balanced translocations involving the 21q22 band. Prognosis is poor with a median of survival of 10 (7-22) months.

Original antigenic sin in dengue revisited.

The four dengue virus serotypes (DENV-1 to -4) cause the most important arthropod-borne viral disease of humans, with ∼100 million cases each year and over 3 billion people at risk for infection (1). The immune response to DENV infection is complex, because it can be either protective or pathogenic. The “original antigenic sin” in secondary (2°) DENV infections is defined as the dominance of cross-reactive antibodies or T-cell responses to a first infecting DENV serotype (the “original antigen”) over the current infecting serotype. In acute DENV infections, cross-reactive T-cell responses have been associated with more severe disease, consigning cross-reactive T-cell responses to a pathogenic role (2, 3). In this issue of PNAS, Weiskopf et al. (4) challenge the idea that cross-reactive T-cell responses are only associated with pathogenesis by demonstrating that although CD8+ T-cell responses were indeed skewed toward the first DENV infection, this did not result in impaired responses, either qualitatively or quantitatively. Furthermore, they found that higher magnitude T-cell responses were associated with HLA alleles that have been linked to reduced susceptibility to severe dengue. Thus, these results suggest that human cross-reactive T-cell responses can be associated with a robust and multifunctional response that can induce protection, as has been shown in dengue mouse models (5⇓–7).