Your search keyword '"Rossini, Silvano"' showing total 35 results

1. Results of the RENAISSANCE Study: REsponse to BNT162b2 COVID-19 vacciNe—short- And long-term Immune reSponSe evAluatioN in health Care workErs

Author

Pani, Arianna, Cento, Valeria, Vismara, Chiara, Campisi, Daniela, Di Ruscio, Federica, Romandini, Alessandra, Senatore, Michele, Schenardi, Paolo Andrea, Gagliardi, Oscar Matteo, Giroldi, Simona, Zoppini, Laura, Moreno, Mauro, Corradin, Matteo, Epis, Oscar Massimiliano, Ughi, Nicola, Cuppari, Irene, Crocchiolo, Roberto, Merli, Marco, Bosio, Marco, Rossini, Silvano, Puoti, Massimo, and Scaglione, Francesco

Abstract

To evaluate the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) anti-spike (S) IgG antibody production after vaccination with BNT162b2 and the protection from symptomatic breakthrough infections in health care workers.

Published

2021

2. Potential selection of unrelated donor based on HLA-DPB1 T-cell epitope matching using data from a single-center analysis

Author

Crocchiolo, Roberto, Girgenti, Debora, D’Amico, Federico, Cornacchini, Giorgia, Lando, Giuliana, De Marco, Beatrice, Magliano, Gabriele, Grillo, Giovanni, and Rossini, Silvano

Published

2022

3. Clinical relevance of antiplatelet antibodies and the hepatic clearance of platelets in patients with immune thrombocytopenia

Author

Cantoni, Silvia, Carpenedo, Monica, Nichelatti, Michele, Sica, Lanfranco, Rossini, Silvano, Milella, Massimo, Popescu, Cristina, and Cairoli, Roberto

Published

2016

4. Clinical relevance of antiplatelet antibodies and the hepatic clearance of platelets in patients with immune thrombocytopenia

Author

Cantoni, Silvia, Carpenedo, Monica, Nichelatti, Michele, Sica, Lanfranco, Rossini, Silvano, Milella, Massimo, Popescu, Cristina, and Cairoli, Roberto

Published

2016

5. Temporal, quantitative, and functional characteristics of single-KIR–positive alloreactive natural killer cell recovery account for impaired graft-versus-leukemia activity after haploidentical hematopoietic stem cell transplantation

Author

Vago, Luca, Forno, Barbara, Sormani, Maria Pia, Crocchiolo, Roberto, Zino, Elisabetta, Di Terlizzi, Simona, Lupo Stanghellini, Maria Teresa, Mazzi, Benedetta, Perna, Serena K., Bondanza, Attilio, Middleton, Derek, Palini, Alessio, Bernardi, Massimo, Bacchetta, Rosa, Peccatori, Jacopo, Rossini, Silvano, Roncarolo, Maria Grazia, Bordignon, Claudio, Bonini, Chiara, Ciceri, Fabio, and Fleischhauer, Katharina

Abstract

In this study, we have characterized reconstitution of the natural killer (NK) cell repertoire after haploidentical CD34+ selected hematopoietic stem cell transplantation (HSCT) for high-risk hematologic malignancies. Analysis focused on alloreactive single-KIR+ NK cells, which reportedly are potent antileukemic effectors. One month after HSCT, CD56bright/CD56dim NK-cell subsets showed inverted ratio and phenotypic features. CD25 and CD117 down-regulation on CD56bright, and NKG2A and CD62L up-regulation on CD56dim, suggest sequential CD56bright-to-CD56dim NK-cell maturation in vivo. Consistently, the functional potential of these maturation intermediates against leukemic blasts was impaired. Mature receptor repertoire reconstitution took at least 3 months. Importantly, at this time point, supposedly alloreactive, single-KIR+ NK cells were not yet fully functional. Frequency of these cells was highly variable, independently from predicted NK alloreactivity, and below 1% of NK cells in 3 of 6 alloreactive patients studied. In line with these observations, no clinical benefit of predicted NK alloreactivity was observed in the total cohort of 56 patients. Our findings unravel the kinetics, and limits, of NK-cell differentiation from purified haploidentical hematopoietic stem cells in vivo, and suggest that NK-cell antileukemic potential could be best exploited by infusion of mature single-KIR+ NK cells selected from an alloreactive donor.

Published

2008

6. Temporal, quantitative, and functional characteristics of single-KIR–positive alloreactive natural killer cell recovery account for impaired graft-versus-leukemia activity after haploidentical hematopoietic stem cell transplantation

Author

Vago, Luca, Forno, Barbara, Sormani, Maria Pia, Crocchiolo, Roberto, Zino, Elisabetta, Di Terlizzi, Simona, Lupo Stanghellini, Maria Teresa, Mazzi, Benedetta, Perna, Serena K., Bondanza, Attilio, Middleton, Derek, Palini, Alessio, Bernardi, Massimo, Bacchetta, Rosa, Peccatori, Jacopo, Rossini, Silvano, Roncarolo, Maria Grazia, Bordignon, Claudio, Bonini, Chiara, Ciceri, Fabio, and Fleischhauer, Katharina

Abstract

In this study, we have characterized reconstitution of the natural killer (NK) cell repertoire after haploidentical CD34+selected hematopoietic stem cell transplantation (HSCT) for high-risk hematologic malignancies. Analysis focused on alloreactive single-KIR+NK cells, which reportedly are potent antileukemic effectors. One month after HSCT, CD56bright/CD56dimNK-cell subsets showed inverted ratio and phenotypic features. CD25 and CD117 down-regulation on CD56bright, and NKG2A and CD62L up-regulation on CD56dim, suggest sequential CD56bright-to-CD56dimNK-cell maturation in vivo. Consistently, the functional potential of these maturation intermediates against leukemic blasts was impaired. Mature receptor repertoire reconstitution took at least 3 months. Importantly, at this time point, supposedly alloreactive, single-KIR+NK cells were not yet fully functional. Frequency of these cells was highly variable, independently from predicted NK alloreactivity, and below 1% of NK cells in 3 of 6 alloreactive patients studied. In line with these observations, no clinical benefit of predicted NK alloreactivity was observed in the total cohort of 56 patients. Our findings unravel the kinetics, and limits, of NK-cell differentiation from purified haploidentical hematopoietic stem cells in vivo, and suggest that NK-cell antileukemic potential could be best exploited by infusion of mature single-KIR+NK cells selected from an alloreactive donor.

Published

2008

7. Antitumor effects of HSV-TK–engineered donor lymphocytes after allogeneic stem-cell transplantation

Author

Ciceri, Fabio, Bonini, Chiara, Marktel, Sarah, Zappone, Elisabetta, Servida, Paolo, Bernardi, Massimo, Pescarollo, Alessandra, Bondanza, Attilio, Peccatori, Jacopo, Rossini, Silvano, Magnani, Zulma, Salomoni, Monica, Benati, Claudia, Ponzoni, Maurilio, Callegaro, Luciano, Corradini, Paolo, Bregni, Marco, Traversari, Catia, and Bordignon, Claudio

Abstract

The extensive exploitation of the antitumor effect of donor lymphocytes infused after allogeneic hematopoietic stem-cell transplantation (allo-HSCT) is limited by the risk of graft-versus-host disease (GvHD). To overcome this limitation, we investigated the therapeutic potential of donor lymphocytes engineered with the suicide gene thymidine kinase of herpes simplex virus (TK) in 23 patients experiencing recurrence of hematologic malignancies after allo-HSCT. Long-term follow-up of infused patients included analysis of engraftment of genetically engineered lymphocytes, in vivo assessment of antitumor effect, and control of GvHD by ganciclovir. All 17 patients evaluable for engraftment and graft-versus-leukemia (GvL) had circulating TK+cells detectable beginning at a median time of 18 days. Eleven patients (65%) experienced a substantial clinical benefit resulting in 6 (35%) complete remissions and 5 (29%) partial responses. The antitumor effect tightly correlated with the in vivo expansion of TK+cells. Seven patients received ganciclovir, resulting in elimination of TK+cells and effective and selective treatment of GvHD. Immunization against HSV-TK was observed in 7 patients but did not preclude an effective GvL. These data validate the feasibility, safety, and efficacy of TK+cells in the context of allografting and represent the basis for a broader application of this technology.

Published

2007

8. Antitumor effects of HSV-TK–engineered donor lymphocytes after allogeneic stem-cell transplantation

Author

Ciceri, Fabio, Bonini, Chiara, Marktel, Sarah, Zappone, Elisabetta, Servida, Paolo, Bernardi, Massimo, Pescarollo, Alessandra, Bondanza, Attilio, Peccatori, Jacopo, Rossini, Silvano, Magnani, Zulma, Salomoni, Monica, Benati, Claudia, Ponzoni, Maurilio, Callegaro, Luciano, Corradini, Paolo, Bregni, Marco, Traversari, Catia, and Bordignon, Claudio

Abstract

The extensive exploitation of the antitumor effect of donor lymphocytes infused after allogeneic hematopoietic stem-cell transplantation (allo-HSCT) is limited by the risk of graft-versus-host disease (GvHD). To overcome this limitation, we investigated the therapeutic potential of donor lymphocytes engineered with the suicide gene thymidine kinase of herpes simplex virus (TK) in 23 patients experiencing recurrence of hematologic malignancies after allo-HSCT. Long-term follow-up of infused patients included analysis of engraftment of genetically engineered lymphocytes, in vivo assessment of antitumor effect, and control of GvHD by ganciclovir. All 17 patients evaluable for engraftment and graft-versus-leukemia (GvL) had circulating TK+ cells detectable beginning at a median time of 18 days. Eleven patients (65%) experienced a substantial clinical benefit resulting in 6 (35%) complete remissions and 5 (29%) partial responses. The antitumor effect tightly correlated with the in vivo expansion of TK+ cells. Seven patients received ganciclovir, resulting in elimination of TK+ cells and effective and selective treatment of GvHD. Immunization against HSV-TK was observed in 7 patients but did not preclude an effective GvL. These data validate the feasibility, safety, and efficacy of TK+ cells in the context of allografting and represent the basis for a broader application of this technology.

Published

2007

9. A T-cell epitope encoded by a subset of HLA-DPB1 alleles determines nonpermissive mismatches for hematologic stem cell transplantation

Author

Zino, Elisabetta, Frumento, Guido, Marktel, Sarah, Sormani, Maria Pia, Ficara, Francesca, Terlizzi, Simona Di, Parodi, Anna Maria, Sergeant, Ruhena, Martinetti, Miryam, Bontadini, Andrea, Bonifazi, Francesca, Lisini, Daniela, Mazzi, Benedetta, Rossini, Silvano, Servida, Paolo, Ciceri, Fabio, Bonini, Chiara, Lanino, Edoardo, Bandini, Giuseppe, Locatelli, Franco, Apperley, Jane, Bacigalupo, Andrea, Ferrara, Giovanni Battista, Bordignon, Claudio, and Fleischhauer, Katharina

Abstract

The importance of HLA-DPB1 matching for the outcome of allogeneic hematologic stem cell (HSC) transplantation is controversial. We have previously identified HLA-DPB1*0901 as a target of cytotoxic T cells mediating in vivo rejection of an HSC allograft. Here we show that HLA-DPB1*0901 encodes a T-cell epitope shared by a subset of DPB1 alleles that determines nonpermissive mismatches for HSC transplantation. Several T-cell clones obtained from the patient at the time of rejection showed HLA-DP restricted recognition of allogeneic targets expressing HLA-DPB1*0901, *1001, *1701, *0301, *1401, and *4501, but not other alleles. Based on these findings, we developed an algorithm for prediction of nonpermissive HLA-DPB1 mismatches. Retrospective evaluation of 118 transplantations showed that the presence of nonpermissive HLA-DPB1 mismatches was correlated with significantly increased hazards of acute grade II to IV graft-versus-host disease (HR = 1.87, P = .046) and transplantation-related mortality (HR = 2.69, P = .027) but not relapse (HR = 0.98, P = .939), as compared with the permissive group. There was also a marked but statistically not significant increase in the hazards of overall mortality (HR = 1.64, P = .1). These data suggest that biologic characterization of in vivo alloreactivity can be a tool for definition of clinically relevant nonpermissive HLA mismatches for unrelated HSC transplantation.

Published

2004

10. A T-cell epitope encoded by a subset of HLA-DPB1 alleles determines nonpermissive mismatches for hematologic stem cell transplantation

Author

Zino, Elisabetta, Frumento, Guido, Marktel, Sarah, Sormani, Maria Pia, Ficara, Francesca, Terlizzi, Simona Di, Parodi, Anna Maria, Sergeant, Ruhena, Martinetti, Miryam, Bontadini, Andrea, Bonifazi, Francesca, Lisini, Daniela, Mazzi, Benedetta, Rossini, Silvano, Servida, Paolo, Ciceri, Fabio, Bonini, Chiara, Lanino, Edoardo, Bandini, Giuseppe, Locatelli, Franco, Apperley, Jane, Bacigalupo, Andrea, Ferrara, Giovanni Battista, Bordignon, Claudio, and Fleischhauer, Katharina

Abstract

The importance of HLA-DPB1 matching for the outcome of allogeneic hematologic stem cell (HSC) transplantation is controversial. We have previously identified HLA-DPB1*0901 as a target of cytotoxic T cells mediating in vivo rejection of an HSC allograft. Here we show that HLA-DPB1*0901 encodes a T-cell epitope shared by a subset of DPB1 alleles that determines nonpermissive mismatches for HSC transplantation. Several T-cell clones obtained from the patient at the time of rejection showed HLA-DP restricted recognition of allogeneic targets expressing HLA-DPB1*0901, *1001, *1701, *0301, *1401, and *4501, but not other alleles. Based on these findings, we developed an algorithm for prediction of nonpermissive HLA-DPB1 mismatches. Retrospective evaluation of 118 transplantations showed that the presence of nonpermissive HLA-DPB1 mismatches was correlated with significantly increased hazards of acute grade II to IV graft-versus-host disease (HR = 1.87, P= .046) and transplantation-related mortality (HR = 2.69, P= .027) but not relapse (HR = 0.98, P= .939), as compared with the permissive group. There was also a marked but statistically not significant increase in the hazards of overall mortality (HR = 1.64, P= .1). These data suggest that biologic characterization of in vivo alloreactivity can be a tool for definition of clinically relevant nonpermissive HLA mismatches for unrelated HSC transplantation.

Published

2004

11. Acquisition of intact allogeneic human leukocyte antigen molecules by human dendritic cells

Author

Russo, Vincenzo, Zhou, Dan, Sartirana, Claudia, Rovere, Patrizia, Villa, Antonello, Rossini, Silvano, Traversari, Catia, and Bordignon, Claudio

Abstract

In an attempt to transduce monocyte-derived dendritic cells (DCs) by a retroviral vector coding for a cell surface marker, we were confronted by the observation of high transfer of the surface molecule in the absence of vector proviral DNA in the treated cells. Indeed, DCs acquired the surface marker by a mechanism independent of the vector machinery, requiring cell-to-cell contact and involving transfer of lipids and a variety of intact membrane proteins. Most important, this property of DCs also includes acquisition of foreign human leukocyte antigen (HLA) molecules. Consequently, DCs become immunological hybrids as they display their own and foreign HLA molecules. The newly acquired HLA is fully functional because it allows recognition by allo-specific T lymphocytes and the binding and presentation of antigen peptides.

Published

2000

12. Acquisition of intact allogeneic human leukocyte antigen molecules by human dendritic cells

Author

Russo, Vincenzo, Zhou, Dan, Sartirana, Claudia, Rovere, Patrizia, Villa, Antonello, Rossini, Silvano, Traversari, Catia, and Bordignon, Claudio

Abstract

In an attempt to transduce monocyte-derived dendritic cells (DCs) by a retroviral vector coding for a cell surface marker, we were confronted by the observation of high transfer of the surface molecule in the absence of vector proviral DNA in the treated cells. Indeed, DCs acquired the surface marker by a mechanism independent of the vector machinery, requiring cell-to-cell contact and involving transfer of lipids and a variety of intact membrane proteins. Most important, this property of DCs also includes acquisition of foreign human leukocyte antigen (HLA) molecules. Consequently, DCs become immunological hybrids as they display their own and foreign HLA molecules. The newly acquired HLA is fully functional because it allows recognition by allo-specific T lymphocytes and the binding and presentation of antigen peptides.

Published

2000

13. Transfer of the ADA Gene into Bone Marrow Cells and Peripheral Blood Lymphocytes for the Treatment of Patients Affected by ADA-Deficient SCID

Author

Bordignon, Claudio, Mavilio, Fulvio, Ferrari, Giuliana, Servida, Paolo, Ugazio, Alberto G., Notarangelo, Luigi D., Gilboa, Eli, Rossini, Silvano, O'Reilly, Richard J., Smith, Clayton A., Gillio, Alfred P., Anderson, W. French, Blaese, R. Michael, Moen, Robert C., and Eglitis, Martin A.

Abstract

SummarySevere combined immunodeficiency (SCID) caused by deficiency of the enzyme adenosine deaminase (ADA) is the first genetic disorder considered for human somatic cell gene therapy. ADA SCID patients can be cured by HLA-matched sibling donor bone marrow transplantation. Alternative transplantation strategies as well as enzyme replacement are being tested in those patients who do not have a suitable matched sibling donor. Some ADA SCID patients may not be candidates for cytoablation due to infectious damage to the lung or liver, or may have a milder phenotype that does not justify the risks associated with haploidentical bone marrow transplantation. Replacement therapy with PEG-ADA has resulted in improvement in growth, a variable increase in the number of peripheral blood lymphocytes, and a decrease in the incidence of severe infections. Another approach to the treatment of severe genetic diseases is now represented by somatic cell gene therapy.We and others have conducted experiments in vitroand in vivothat have documented that T-lymphocytes are suitable vehicles for gene transfer. Although the pluripotent stem cell remains the ideal target cell for somatic cell gene therapy of disorders of the hematopoietic system, the use of T-lymphocytes as gene therapy vehicles is specifically indicated for ADA-deficient patients where they represent the affected cells. Furthermore, the selective engraftment of T-cells only, following bone marrow transplantation, has resulted in reconstitution of cellular and humoral immunity. A model for the functional analysis in vivoof the human immune system has been utilized for the preclinical evaluation of this approach. In this model, immunodeficient mice (SCID or bg/nu/xid) were reconstituted by human peripheral blood lymphocytes obtained from a SCID patient after ADA gene transfer. We made the following preclinical observations: 1) in vivohigh levels of gene transfer and expression; 2) successful transduction of lymphopoietic progenitors capable of undergoing TCR genes rearrangement and generation of a new immune repertoire; 3) strong selective advantage of transduced cells over non-transduced cells. The observation that freshly obtained ADA deficient PBL transduced to express the hADA gene had a significant survival and functional advantage over non-transduced ADA deficient lymphocytes when transplanted into immunodeficient (but ADA-normal) BNX mice strongly suggests that intracellular ADA is more efficacious than extracellular enzyme alone.Based on these results, the clinical application of gene therapy for the treatment of ADA SCID patients who previously failed replacement treatment therapy with bovine pegilated enzyme is proposed. The aim of this study is to evaluate safety and efficacy of the procedure, and to identify the relative role of peripheral blood lymphocytes, and hematopoietic stem cells and progenitor cells in the long term reconstitution of immune functions after retroviral vector-mediated ADA gene transfer. For this purpose, two vectors will be utilized for gene transfer into peripheral blood lymphocytes (PBL) and bone marrow cells (BM), DCA1 and DCAm respectively. The two vectors are identical in the construction design, the packaging cell line utilized (AM-12), and viral titer (12 105). However, they differ for a restriction site in the viral LTR that allows one to distinguish the progeny of cells transduced with the two vectors.

Published

1993

14. Immunological and genotypic analysis of human Tγ-lymphoproliferative disorders

Author

Rambaldi, Alessandro, Allavena, Paola, Pirelli, Anna, Di Bello, Maria, Rossini, Silvano, Bassan, Renato, Barbui, Tiziano, Pelicci, Pier Giuseppe, Favera, Riccardo Dalla, and Mantovani, Alberto

Abstract

Tγ-lymphoproliferative disorders (Tγ-LPD) are rare diseases characterized by expansion of circulating elements with resemblance to large granular lymphocytes (LGL). We have studied 12 patients with Tγ-LPD.Morphologicalevaluation revealed 79.88% of LGL in non-adherent peripheral blood lymphocytes as assessed by light and electron microscopy. The most common features of the membranephenotypeincluded expression of T3, HNK-1 and AB8.28 (anti-Fcγ); other surface markers of LGL (OKM1, B73.1, N901) were variably expressed or absent. Patients’ LGL usually had little or no NK activity, with the exception of two patients who had values comparable to those of normal donors; in addition, cell preparations from all patients mediated antibody-dependent cellular cytotoxicity. The recent availability of the T cell receptor β chain probes allowed us to investigate the lineage and the clonality of Tγ-LPD. Of the 12 patients analyzed, 10 displayed clonal rearrangements of Tβ locus and expression of the T3 antigen, whereas the two remaining cases displayed a germ-line configuration of the Tβ gene and no expression of the T3 antigen. We suggest that individual Tγ-LPD cases represent the clonal expansion of cells frozen at different stages of differentiation/activation within an individual hematopoietic LGL/NK lineage. These data suggest that either a subset of LGL or a particular step of differentiation may be related to the T cell lineage.

Published

1986

15. Peripheral Blood Lymphocytes as Target Cells of Retroviral Vector-Mediated Gene Transfer

Author

Mavilio, Fulvio, Ferrari, Giuliana, Rossini, Silvano, Nobili, Nadia, Bonini, Chiara, Casorati, Giulia, Traversari, Catia, and Bordignon, Claudio

Abstract

Peripheral blood lymphocytes (PBLs) are key target cells for gene therapy of a number of inherited and acquired blood disorders. We have systematically compared four retroviral vectors, designed according to different strategies, for their efficiency in transfer and expression in human PBLs of the same reporter gene. The receptor gene used in the study codes for the human low-affinity nerve growth factor receptor (LNGFR), and is not expressed on the majority of human hematopoietic cells, thus allowing quantitative analysis of the transduced gene expression by immunofluorescence, with single cell resolution. Peripheral blood mononuclear cells (PBMCs), as well as human hematopoietic cell lines of myeloid and lymphoid origin, were transduced with the four vectors and analyzed for efficiency of gene transfer, integration and stability of vector proviruses, and LNGFR expression at both RNA and protein level. Fluorescence-activated cell sorter analysis of coexpression of LNGFR and lineage-specific cell surface markers was performed in transduced cell lines, PBLs, and T-cell clones to study gene expression on specific cell subpopulations. Although crucial differences were observed among different constructs, all retroviral vectors could transduce, under appropriate infection conditions, T-cell populations representative of the normal immune repertoire. Gene transfer and expression could be demonstrated also in circulating progenitors of mature T cells. Expression of the transduced gene was heterogeneous among cell populations infected with the different vectors, with optimal results obtained by two of the four constructs. Finally, we have devised a simple protocol based on vector-mediated gene transfer and positive immunoselection of the transduced cells that produces virtually 100% gene-modified cells. This may represent a crucial improvement in the way of designing efficacious protocols involving the use of gene-modified T lymphocytes in clinical studies.

Published

1994

16. Expression and modulation of a mononuclear phagocyte differentiation antigen (PAM-1) during in vitro maturation of peripheral blood monocytes

Author

Poli, Guido, Wang, Ji, Ruco, Luigi, Rossini, Silvano, Biondi, Andrea, Mantovani, Alberto, and Uccini, Stefania

Abstract

Summary: Human macrophages obtained by in vitro maturation of peripheral blood monocytes express a surface antigen, PAM-1, recognized by a monoclonal antibody and typical of pulmonary alveolar and tissue macrophages. PAM-1, undetectable in freshly isolated peripheral blood monocytes, was expressed in monocyte-derived macrophages after 3 days of in vitro adherent culture and was maximal after 14–15 days (50%–60% of positive cells). Similar levels of PAM-1 positivity were observed in non-adherent monocyte-derived macrophages suggesting that cell adhesion was not a critical requisite for the expression of this antigen. Bacterial lipolysaccharide and a monocyte chemotactic protein preparation respectively suppressed and upregulated PAM-1 expression in monocyte-derived macrophages. In contrast interferon-γ, although enhancing the levels of class II HLA-DR antigen in monocyte-derived macrophages, did not influence the kinetics of appearance and the levels of PAM-1 in these cells. Thus, expression of PAM-1, which is restricted to certain stages of the monocyte-macrophage differentiation pathway, is also differentially modulated by activation signals, which can be present in the microenvironment of inflammed tissues.

Published

1993

17. Transfer of the HSV-tk Gene into Donor Peripheral Blood Lymphocytes for In Vivo Modulation of Donor Anti-Tumor Immunity after Allogeneic Bone Marrow Transplantation. The San Raffaele Hospital, Milan, Italy

Author

Bordignon, Claudio, Bonini, Chiara, Verzeletti, Simona, Nobili, Nadia, Maggioni, Daniela, Traversari, Catia, Giavazzi, Raffaella, Servida, Paolo, Zappone, Elisabetta, Benazzi, Elena, Bernardi, Massimo, Porta, Fulvio, Ferrari, Giuliana, Mavilio, Fulvio, Rossini, Silvano, Blaese, R. Michael, and Candotti, Fabio

Abstract

SummaryThe infusion of donor lymphocytes after allogeneic bone marrow transplantation is a promising therapeutic tool for achieving a graft versus leukemia (GvL) effect in case of leukemic relapse (17), and for the treatment of other complications related to the severe immunosuppressive status of transplanted patients, such as Epstein Barr virus-induced lymphoproliferative disorders (EBV-BLPD) (8) or reactivation of CMV infection (9). Although the delay in the administration of T lymphocytes is expected to reduce the risk of severe GvHD, this risk is still present at higher doses of donor T-cells. The transfer of a suicide gene into donor lymphocytes could allow the in vivo selective elimination of cells responsible for severe GvHD. Additionally, under appropriate conditions, it may allow in vivo modulation of donor anti-tumor responses, and to separate GvL from GvHD. Finally, crucial questions concerning survival and function of donor lymphocytes could be answered by their gene marking.Previous studies documented that T lymphocytes are suitable targets for gene transfer through retroviral vectors (10,11). This protocol has been designed to evaluate in the contest of allogeneic BMT: 1the safety of increasing doses of donor lymphocytes transduced with a suicide retroviral vector; 2the efficacy in terms of survival and immunologic potential of donor lymphocytes after in vitro activation, gene transduction, and immunoselection; 3the possibility of in vivo down regulation of GvHD by the administration of ganciclovir to patients treated by tk-transduced donor lymphocytes.Patients will be enrolled in three groups: Apatients in complete remission after a T depleted allo-BMT, in order to prevent disease relapse; Bpatients with relapse of hematologic malignancies after allo-BMT, in order to achieve a GvL effect; Cpatients with an EBV-BLPD after allo-BMT, in order to provide donor EBV-specific T-cells. For this purpose, donor peripheral blood lymphocytes (PBL), will be transduced with a suicide retroviral vector containing two genes: the first coding for the thymidine kinase of the herpes simplex virus (HSV-tk) and the second coding for the low affinity receptor for NGF (12) truncated of its intracellular domain (NGFR). The HSV-tk confers ganciclovir sensitivity (13), thus allowing in vivo selective downregulation of all transduced allogeneic cells in case of severe GvHD. The NGFR will be used as a cell surface marker allowing rapid in vitro immunoselection of transduced cells, and ex vivo detection and characterization of the transduced cells after infusion.

Published

1995

18. Transfer of the ADA Gene Into Human ADA-Deficient T Lymphocytes Reconstitutes Specific Immune Functions

Author

Ferrari, Giuliana, Rossini, Silvano, Nobili, Nadia, Maggioni, Daniela, Garofalo, Angela, Giavazzi, Raffaella, Mavilio, Fulvio, and Bordignon, Claudio

Abstract

Peripheral blood lymphocytes obtained from a patient affected by adenosine deaminase (ADA) deficiency and severe combined immunodeficiency were infected with a retroviral vector containing two copies of a human ADA minigene, and injected into bg/nu/xid(BNX) immunodeficient mice. Six to 10 weeks after injection, human T cells were cloned from the spleens of recipient animals and analyzed for proliferative potential, T-cell surface markers, expression of ADA activity, integration of retroviral sequences, T-cell receptor (TCR)β gene rearrangement, and specificity of antigen recognition. Efficient gene transfer and expression restored proliferative potential in vitro and long-term survival in vivo. All clonable human T lymphocytes obtained from the spleen of recipient animals had high levels of vector-derived ADA enzyme activity and showed predominantly the CD4+phenotype. Retroviral integrations and TCR-β gene rearrangements demonstrated the presence of a variety of different clones in the

Published

1992

19. A Case of Blastic Plasmacytoid Dendritic Cell Neoplasm Extensively Studied by Flow Cytometry and Immunohistochemistry

Author

Pennisi, Martina, Cesana, Clara, Giulia Cittone, Micol, Bandiera, Laura, Scarpati, Barbara, Mancini, Valentina, Soriani, Silvia, Veronese, Silvio, Truini, Mauro, Rossini, Silvano, and Cairoli, Roberto

Abstract

Blastic plasmacytoid dendritic cell neoplasm (BPDCN) is a rare hematologic malignancy with aggressive clinical course and poor prognosis. Diagnosis is based on detection of CD4+ CD56+, CD123high, TCL-1+, and blood dendritic cell antigen-2/CD303+ blasts, together with the absence of lineage specific antigens on tumour cells. In this report we present a case of BPDCN presenting with extramedullary and bone marrow involvement, extensively studied by flow cytometry and immunohistochemistry, who achieved complete remission after acute lymphoblastic leukemia like chemotherapy and allogeneic hematopoietic stem cell transplantation.

Published

2017

20. The Challenge Of HSCs Procurement For Gene Therapy: Exploring Plerixafor As Mobilization Agent

Author

Lidonnici, Maria Rosa, Aprile, Annamaria, Frittoli, Marta Claudia, Mandelli, Giacomo, Gentner, Bernhard, Bellio, Laura, Cassinerio, Elena, Zanaboni, Laura, Cappellini, Maria Domenica, Rossini, Silvano, Ciceri, Fabio, Marktel, Sarah, and Ferrari, Giuliana

Abstract

No relevant conflicts of interest to declare.

Published

2013

21. The Challenge Of HSCs Procurement For Gene Therapy: Exploring Plerixafor As Mobilization Agent

Author

Lidonnici, Maria Rosa, Aprile, Annamaria, Frittoli, Marta Claudia, Mandelli, Giacomo, Gentner, Bernhard, Bellio, Laura, Cassinerio, Elena, Zanaboni, Laura, Cappellini, Maria Domenica, Rossini, Silvano, Ciceri, Fabio, Marktel, Sarah, and Ferrari, Giuliana

Abstract

Successful gene therapy of inherited blood diseases relies on transplantation and engraftment of autologous genetically engineered hematopoietic stem/progenitor cells (HSPCs) in myeloablated patients. Hematopoietic reconstitution and clinical benefit are related to cell dose, although single disease features might play a role favoring selection of relevant progenitor populations. Gene therapy trials in young pediatric patients are performed isolating CD34+ cells from bone marrow (BM), while in adults mobilized peripheral blood stem cells (PBSC) should represent the favorite target. In the context of gene therapy for thalassemia, the choice of HSPC source is crucial since intrinsic characteristics of patients (splenomegaly and thrombophilia) dictate caution in the use of G-CSF as mobilization agent and prompt investigation of new agents. Moreover, adult thalassemic patients may possibly have a decreased BM stem cell reservoir, due to the BM suppression in response to multiple transfusions.

Published

2013

22. Plerixafor Single Agent for Autologous Stem Cells Mobilization and Collection in Adult Thalassemic Patients: Towards the Assessment of the Suitable Hematopoietic Stem Cell Source for Gene Therapy of Beta-Thalassemia.

Author

Frittoli, Marta Claudia, Gentner, Bernhard, Lidonnici, Maria Rosa, Aprile, Annamaria, Bellio, Laura, Gattillo, Salvatore, Zambelli, Matilde, Milani, Raffaella, Cassinerio, Elena, Zanaboni, Laura, Rossini, Silvano, Cappellini, Maria Domenica, Ciceri, Fabio, Ferrari, Giuliana, and Marktel, Sarah

Abstract

No relevant conflicts of interest to declare.

Published

2012

23. Plerixafor Single Agent for Autologous Stem Cells Mobilization and Collection in Adult Thalassemic Patients: Towards the Assessment of the Suitable Hematopoietic Stem Cell Source for Gene Therapy of Beta-Thalassemia.

Author

Frittoli, Marta Claudia, Gentner, Bernhard, Lidonnici, Maria Rosa, Aprile, Annamaria, Bellio, Laura, Gattillo, Salvatore, Zambelli, Matilde, Milani, Raffaella, Cassinerio, Elena, Zanaboni, Laura, Rossini, Silvano, Cappellini, Maria Domenica, Ciceri, Fabio, Ferrari, Giuliana, and Marktel, Sarah

Abstract

Abstract 586

Published

2012

24. Rapamycin-Based GvHD Prophylaxis Is Effective in T-Cell Replete Unmanipulated Haploidentical Peripheral Stem Cell Transplantation for Advanced Haematological Malignancies: Results in 46 Patients.

Author

Peccatori, Jacopo, Clerici, Daniela, Messina, Carlo, Forcina, Alessandra, Bondanza, Attilio, Crocchiolo, Roberto, Stanghellini, Maria Teresa Lupo, Assanelli, Andrea, Marcatti, Magda, Giglio, Fabio, Claudiani, Simone, Mastaglio, Sara, Malato, Simona, Crotta, Alessandro, Battaglia, Manuela, Ronchi, Paola, Gattillo, Salvatore, Rossini, Silvano, Corti, Consuelo, Bernardi, Massimo, Marktel, Sarah, Bernardo, Maria Ester, Bonini, Chiara, Roncarolo, Maria Grazia, Locatelli, Franco, and Ciceri, Fabio

Abstract

Results of haploidentical stem cell transplantation (SCT) after standard extensive T-cell depletion for advanced leukemias are poor (Ciceri et al, 2008). In contrast, significant leukemia-free-survivals are produced after T-cell replete SCT from matched related, unrelated and cord-blood donors, even in advanced phases of disease (Kolb HJ, 2009). New protocols based on T-cell repletion are warrented in patients receiving haplo-SCT, in order to offer to all candidates patients with advanced leukemia the potential of cure of allogeneic SCT.Rapamycin is an immunosuppressive drug that arrests cell cycle in G1 phase through the inhibition of DNA transcription, RNA translation and protein synthesis. Morover, in contrast to calcineurin inhibitors, it promotes the generation and expansion of T regulatory cells (Tregs).We investigated the safety of infusion of T-cell replete unmanipulated peripheral blood stem cells (PBSC) from family haploidentical donor with a combination Rapamycin, Mycophenolate and ATG as GvHD prophylaxis, to preserve early Treg function (TrRaMM study, Eudract 2007-5477-54).Since 2007, forty-six patients underwent allogeneic transplantation for AML (25 pts), ALL (7 pts), sAML (6 pts), MDS (3 pts), CML-BC (2 pts), NHL (2 pts) or HD (1 pt). The median age was 50 years (range 14-69). At time of transplantation 5 pts were in early phase, and 41 were in advanced phase. Median time from diagnosis to transplantation was 351 days (range 81-1387); 8 patients were enrolled for relapse after allogeneic SCT from MRD or MUD. Median comorbodity index score was 1 (0-5). The conditioning regimen included Treosulfan (14 g/m2 for 3 days), Fludarabine (30 mg/m2 for 5 days) and an in vivo T and B-cell depletion, by ATG-Fresenius (10 mg/kg for 3 times) and Rituximab (a single 500 mg dose). All pts received allogeneic peripheral blood cells from an HLA-haploidentical related donor without any in vitro positive selection of CD34+ cells. GvHD prophylaxis consisted of Rapamycin (target level 8-15 ng/ml, till day +60) and MMF (15 mg/kg tid till day +30).All patients engrafted, and all but eight were in disease remission at first marrow evaluation on day +30. Cumulative incidence of grade 2-4 aGvHD was 33% (95% CI: 18-48); cumulative incidence of grade 3-4 aGvHD was 12% (95% CI: 2-22). Interestingly, half of patients with GvHD developed it at immunosuppressive prophylaxis withdrawal for disease relapse. Only six patients developed cGvHD. Cumulative incidence of TRM and relapse incidence were 26% (95% CI: 11-41) and 53% (95% CI: 35-71) respectively. None developed EBV reactivation. Patients experienced an early and sustained immunoreconstitution with a median 221 circulating CD3+cells/μL (range 43-1690) from day 30. The immune-reconstitution was polarized towards central memory cells (CD45RA-CD62L+ cells 32.7% ± 4.8) that produced IL-2 (IL-2+ cells 26.2% ± 5.3). Of interest, at day +90 from transplant, Tregs were significantly expanded (CD4+CD25+CD127-Foxp3+ cells 15.6% ± 4.8 on total CD3+ cells, P<0,05 vs donor controls). After a median follow-up of 6 months, overall survival is 64% (95% CI: 50-78), and projected OS at 1 year is 46% (95% CI: 31-61).Rapamycin-Mycophenolate-ATG are effective to prevent GvHD in T-cell replete unmanipulated haploidentical peripheral stem cell transplantation for advanced haematological malignancies. This associates with an early T-cell immunoreconstitution characterized by the in vivo expansion of early-differentiated T cells and Tregs, and translates in promising leukemia-free survival in patients with advanced resistant leukemia. Further studies are warranted to gain insight on the role of rapamycin as platform for exploitation of Tregs in allogeneic HSCT from mismatched donor.No relevant conflicts of interest to declare.

Published

2009

25. Loss of Mismatched HLA as a Mechanism of Leukemia Immune Escape in Family Haploidentical and Unrelated HSCT: Analysis of 103 Transplants From Alternative Donors.

Author

Vago, Luca, Stanghellini, Maria Teresa Lupo, Clerici, Daniela, Crotta, Alessandro, Messina, Carlo, Forno, Barbara, Mazzi, Benedetta, Zanussi, Monica, Assanelli, Andrea, Marktel, Sarah, Marcatti, Magda, Corti, Consuelo, Bernardi, Massimo, Peccatori, Jacopo, Rossini, Silvano, Ferrari, Maurizio, Bordignon, Claudio, Bonini, Chiara, Fleischhauer, Katharina, and Ciceri, Fabio

Abstract

Occurrence of a robust Graft versus Leukemia (GvL) effect is at the basis of the curative efficacy of Hematopoietic Stem Cell Transplantation (HSCT). Although leukemia-specific antigens have been characterized, most of the antileukemic potential of transplantation resides in alloreactivity towards patient-specific antigens, such as minor and major histocompatibility antigens. This is particularly relevant in the context of transplantation from related haploidentical and matched unrelated donors (MUD), in which mismatched HLA molecules are potent targets for alloreactive donor T cells. Still, upon in vivo selective pressure by donor T cells, acute myeloid leukemia can undergo genomic rearrangements which result in loss of the patient-specific HLA haplotype, a mechanism which our group recently demonstrated to be frequently responsible for leukemia relapse after haploidentical HSCT (Vago et al. NEJM, 2009).103 patients who underwent a partially HLA-matched transplantation for Acute Myeloid Leukemia (AML), MyeloDysplastic Syndrome (MDS), or Chronic Myelomonocytic Leukemia (CMML) at the San Raffaele Hospital from 2002 to present, were included in our analysis. For 67 patients, 26 of whom transplanted in complete remission, the stem cell donor was related haploidentical. For the remaining 35 patients, 23 of whom transplanted in complete remission, the donor was unrelated and mismatched for an average of 2/12 HLA alleles. All patients received donor T cells as part of the transplantation protocol. Post-transplantation follow-up comprised monthly bone marrow examination, with Short Tandem Repeat (STR) chimerism analysis and HLA typing performed in parallel on the marrow aspirate samples. The same analyses were performed also for an additional patient, referred to our attention for relapse of AML after two MUD transplantations performed in another center, both from HLA-C and DPB1-mismatched donors, and several donor lymphocyte add-backs. In cases of relapse with suspected loss of the mismatched HLA alleles, STR chimerism and HLA typing were performed also on purified leukemic blasts.Disease relapse occurred in 28/67 and 8/35 patients after haploidentical or MUD transplantation performed at our center, respectively. After haploidentical transplantation, 10/28 relapses (35.7%) were due to mutated leukemic blasts which had lost the patient-specific HLA haplotype. Median time to relapse in these patients was 281 days after HSCT (range 67–390), and all patients had received a high dose of donor T cells (median 289×106 CD3+ cells/kg, range 90–583). Upon detection of the mutated leukemic blasts, five of these ten patients were enrolled to receive a subsequent transplantation from a different stem cell donor, mismatched for the remaining HLA haplotype. None of the 8 relapses after MUD transplantations performed at our center displayed loss of the mismatched HLA. However, in the additional patient referred to our attention after two transplantations from partially HLA-mismatched unrelated donors, we documented loss of the HLA haplotype carrying mismatched alleles in the leukemic blasts responsible for leukemia relapse.With respect to our original series of five relapses with leukemic loss of the mismatched HLA haplotype, we describe here five additional cases based on the same mechanism, further consolidating the utmost clinical relevance of this escape mechanism from the GvL effect mediated by haploidentical donor T cells. Prompt detection of the mutant leukemic blasts allowed us to avoid infusion into the patients of donor T cell add-backs, predictably inefficacious in controlling these relapses, and to quickly enroll these patients into a salvage transplant from a different donor, mismatched for the remaining HLA haplotype. Moreover, we demonstrate that even in the case of fewer HLA mismatches, such as in MUD transplants, the genomic rearrangement we described can lead to clinical relapse. Given the constant increase in the number of transplants performed from partially HLA-mismatched donors worldwide, we recommend that post-transplantation HLA typing of bone marrow samples should be routinely performed at disease relapse to detect mutant leukemic blasts, and to guide therapeutic strategies targeted against them.Bonini: MolMed S.p.A.: Consultancy.

Published

2009

26. Loss of Mismatched HLA as a Mechanism of Leukemia Immune Escape in Family Haploidentical and Unrelated HSCT: Analysis of 103 Transplants From Alternative Donors.

Author

Vago, Luca, Stanghellini, Maria Teresa Lupo, Clerici, Daniela, Crotta, Alessandro, Messina, Carlo, Forno, Barbara, Mazzi, Benedetta, Zanussi, Monica, Assanelli, Andrea, Marktel, Sarah, Marcatti, Magda, Corti, Consuelo, Bernardi, Massimo, Peccatori, Jacopo, Rossini, Silvano, Ferrari, Maurizio, Bordignon, Claudio, Bonini, Chiara, Fleischhauer, Katharina, and Ciceri, Fabio

Abstract

Abstract 203

Published

2009

27. Rapamycin-Based GvHD Prophylaxis Is Effective in T-Cell Replete Unmanipulated Haploidentical Peripheral Stem Cell Transplantation for Advanced Haematological Malignancies: Results in 46 Patients.

Author

Peccatori, Jacopo, Clerici, Daniela, Messina, Carlo, Forcina, Alessandra, Bondanza, Attilio, Crocchiolo, Roberto, Stanghellini, Maria Teresa Lupo, Assanelli, Andrea, Marcatti, Magda, Giglio, Fabio, Claudiani, Simone, Mastaglio, Sara, Malato, Simona, Crotta, Alessandro, Battaglia, Manuela, Ronchi, Paola, Gattillo, Salvatore, Rossini, Silvano, Corti, Consuelo, Bernardi, Massimo, Marktel, Sarah, Bernardo, Maria Ester, Bonini, Chiara, Roncarolo, Maria Grazia, Locatelli, Franco, and Ciceri, Fabio

Abstract

Abstract 666

Published

2009

28. Genomic Loss of the Mismatched HLA Locus in Leukemia Is a Major Mechanism of in Vivo Escape from T Cell Immunosurveillance Following Haploidentical HSCT

Author

Vago, Luca, Perna, Serena Kimi, Zanussi, Monica, Mazzi, Benedetta, Stanghellini, Maria Teresa Lupo, Perrelli, Nicola Flavio, Forno, Barbara, Corti, Consuelo, Bernardi, Massimo, Peccatori, Jacopo, Ferrari, Maurizio, Rossini, Silvano, Roncarolo, Maria Grazia, Bordignon, Claudio, Bonini, Chiara, Ciceri, Fabio, and Fleischhauer, Katharina

Abstract

Hematopoietic Stem Cell Transplantation (HSCT) from haploidentical family donors is a promising therapeutic option for nearly all patients suffering from high-risk leukemia. Until now, its application has been limited by the prolonged immunodeficiency that patients suffer as a consequence of graft T cell depletion, used to prevent severe Graft versus Host Disease (GvHD). When efficient strategies to control GvHD are applied, adoptive immunotherapy with donor T cells grants a significant advantage for immune reconstitution. However, direct evidence for the role of haploidentical donor T cells in controlling leukemia relapse is still missing. Here we report on the in vivo selection of de novo mutant variants of acute myeloid leukemia (AML), accounting for relapse after haploidentical HSCT and adoptive transfer of donor T cells. These novel variants of AML were observed in 5 out of 17 (29%) patients suffering from disease relapse in a series of 43 patients transplanted at the San Raffaele Hospital in Milan from 2002 to 2008. All patients received a myeloablative conditioning regimen and high doses of haploidentical donor stem cells (median 10.2×106 CD34+ cells/kg, range 4.6–15.5). Donor T lymphocytes were infused as part of the graft (n=21, median 438×106 CD3+ cell/kg, range 179–796) or as post-transplant add-backs (n=22, median 111×105 CD3+ cell/kg, range 1–900). Human Leukocyte Antigen (HLA) genomic typing was routinely used for post-transplant donor-recipient chimerism assessment. The five patients with de novo mutant variants of the original leukemia came to our attention because patient-specific HLA alleles could not be detected in bone marrow samples harvested at disease relapse, nor in subsequently sorted AML blasts. A Loss of Heterozygosity (LOH) study was performed on purified blasts from these patients, and demonstrated that patient-specific HLA alleles were lost due to extensive events of homologous recombination, encompassing a region of chromosome 6 comprising the entire HLA locus. We show that donor T cells capable of recognizing the original, HLA-heterozygous, leukemia were efficiently transferred from the haploidentical donor to the patient, granting an in vivo cytotoxic, cytokine and proliferative anti-tumor response by specific recognition of the mismatched HLA molecules. However, consistent with genomic loss of the patientspecific HLA locus in disease recurrence, the same alloreactive T cells were unable to recognize the mutant variant of the leukemia, harvested at the time of relapse. This observation strongly suggests that the genomic rearrangements we identified granted the disease an in vivo selective advantage in escaping from an established donor T cell response. Taken together, our data show that adoptive transfer of alloreactive donor T cells in haploidentical HSCT is efficient in providing a patient-specific antileukemic effect, and that the loss of this effect is an important mechanism underlying the outgrowth of relapsing disease. The frequency we documented for this phenomenon calls for routine assessment of the leukemia HLA genotype in the post-transplant follow-up and for careful consideration in the choice of a putative second haploidentical donor in case of leukemia relapse. Ultimately, our data provide the first direct evidence for the role of donor T cell alloreactivity in controlling minimal residual disease after haploidentical HSCT, favoring the use of donor T cell-based immunotherapeutic strategies to exploit alloreactivity for the cure of high-risk leukemia.

Published

2008

29. Genomic Loss of the Mismatched HLA Locus in Leukemia Is a Major Mechanism of in VivoEscape from T Cell Immunosurveillance Following Haploidentical HSCT

Author

Vago, Luca, Perna, Serena Kimi, Zanussi, Monica, Mazzi, Benedetta, Stanghellini, Maria Teresa Lupo, Perrelli, Nicola Flavio, Forno, Barbara, Corti, Consuelo, Bernardi, Massimo, Peccatori, Jacopo, Ferrari, Maurizio, Rossini, Silvano, Roncarolo, Maria Grazia, Bordignon, Claudio, Bonini, Chiara, Ciceri, Fabio, and Fleischhauer, Katharina

Abstract

Hematopoietic Stem Cell Transplantation (HSCT) from haploidentical family donors is a promising therapeutic option for nearly all patients suffering from high-risk leukemia. Until now, its application has been limited by the prolonged immunodeficiency that patients suffer as a consequence of graft T cell depletion, used to prevent severe Graft versus Host Disease (GvHD). When efficient strategies to control GvHD are applied, adoptive immunotherapy with donor T cells grants a significant advantage for immune reconstitution. However, direct evidence for the role of haploidentical donor T cells in controlling leukemia relapse is still missing. Here we report on the in vivoselection of de novo mutant variants of acute myeloid leukemia (AML), accounting for relapse after haploidentical HSCT and adoptive transfer of donor T cells. These novel variants of AML were observed in 5 out of 17 (29%) patients suffering from disease relapse in a series of 43 patients transplanted at the San Raffaele Hospital in Milan from 2002 to 2008. All patients received a myeloablative conditioning regimen and high doses of haploidentical donor stem cells (median 10.2×106CD34+cells/kg, range 4.6–15.5). Donor T lymphocytes were infused as part of the graft (n=21, median 438×106CD3+cell/kg, range 179–796) or as post-transplant add-backs (n=22, median 111×105CD3+cell/kg, range 1–900). Human Leukocyte Antigen (HLA) genomic typing was routinely used for post-transplant donor-recipient chimerism assessment. The five patients with de novo mutant variants of the original leukemia came to our attention because patient-specific HLA alleles could not be detected in bone marrow samples harvested at disease relapse, nor in subsequently sorted AML blasts. A Loss of Heterozygosity (LOH) study was performed on purified blasts from these patients, and demonstrated that patient-specific HLA alleles were lost due to extensive events of homologous recombination, encompassing a region of chromosome 6 comprising the entire HLA locus. We show that donor T cells capable of recognizing the original, HLA-heterozygous, leukemia were efficiently transferred from the haploidentical donor to the patient, granting an in vivocytotoxic, cytokine and proliferative anti-tumor response by specific recognition of the mismatched HLA molecules. However, consistent with genomic loss of the patientspecific HLA locus in disease recurrence, the same alloreactive T cells were unable to recognize the mutant variant of the leukemia, harvested at the time of relapse. This observation strongly suggests that the genomic rearrangements we identified granted the disease an in vivoselective advantage in escaping from an established donor T cell response. Taken together, our data show that adoptive transfer of alloreactive donor T cells in haploidentical HSCT is efficient in providing a patient-specific antileukemic effect, and that the loss of this effect is an important mechanism underlying the outgrowth of relapsing disease. The frequency we documented for this phenomenon calls for routine assessment of the leukemia HLA genotype in the post-transplant follow-up and for careful consideration in the choice of a putative second haploidentical donor in case of leukemia relapse. Ultimately, our data provide the first direct evidence for the role of donor T cell alloreactivity in controlling minimal residual disease after haploidentical HSCT, favoring the use of donor T cell-based immunotherapeutic strategies to exploit alloreactivity for the cure of high-risk leukemia.

Published

2008

30. Impaired GvL Potential of Natural Killer Cells Early Reconstituting Following Haploidentical HSCT.

Author

Vago, Luca, Zino, Elisabetta, Di Terlizzi, Simona, Forno, Barbara, Stanghellini, Maria T. Lupo, Perna, Serena K., Mazzi, Benedetta, Peccatori, Jacopo, Rossini, Silvano, Roncarolo, Maria G., Bonini, Chiara, Ciceri, Fabio, Bordignon, Claudio, and Fleischhauer, Katharina

Abstract

Alloreactive NK cells have been suggested to be important functional players in GvL activity after haploidentical HSCT for high risk leukemia. In this study we have characterized NK cells differentiating from purified haploidentical CD34+ cells after transplantation into 16 patients who did (n=8) or did not (n=8) suffer acute leukemia relapse in a long term follow-up (median 208 days). The incidence of relapse in these patients was not correlated with the presence (n=9) or absence (n=7) of predicted donor NK alloreactivity (p=0.94). NK cells in the first month after transplantation were, regardless of the occurence of relapse, NKG2A+ (>95%) and KIR− (13%), thus resembling CD56bright NK cells from healthy donors. However, in contrast to mature CD56bright cells, the patients’ NK cells expressed heterogeneous intensities of CD56, were only partly positive for the lymph node homing markers CD62L and CCR7, and expressed a higher amount of Fcγ receptor III (CD16). Importantly, in contrast to mature CD56bright cells, which constitrutively express the high affinity αβγ IL-2 receptor, thus releasing γ-IFN in response to low dose IL2, the patients’ NK cells lacked IL-R α (CD25) and did not release cytokines in response to low-dose IL2, nor, most importantly, when challenged with leukemic blasts. γ-IFN release induced by leukemic blasts could be restored by inhibition of NKG2A while cytotoxicity, which was consistently lower as compared to that of mature CD56+ cells, could not. Our data suggest that NK cells differentiating in patients from CD34+ progenitors after haploidentical HSCT have important phenotipical and functional differences from both subsets of mature NK cells, accounting for an impaired in vivo GvL potential.

Published

2006

31. Epitope-Specific Typing (EST) for HLA-DPB1 Matching: Proof of Principle for an Innovative Approach to Unrelated Hematopoietic Stem Cell Donor Selection.

Author

Zino, Elisabetta, Vago, Luca, Di Terlizzi, Simona, Mazzi, Benedetta, Amato, Luigi D’, Rossini, Silvano, Ciceri, Fabio, Roncarolo, Maria G., Bordignon, Claudio, and Fleischhauer, Katharina

Abstract

Background. Conventional matching of patients and their unrelated donor (UD) hematopoietic stem cells (HSC) by 4-digit molecular HLA typing is associated with lengthy donor searches and elevated social costs. 80% of UD transplants are performed across DPB1 mismatches which, if involving disparity in host versus graft (HvG) direction for an immunogenic T cell epitope, have been shown to be associated with poor clinical outcome of transplantation for hematopoietic malignancies and beta-thalassemia. In this study we have developed an innovative approach of DPB1 epitope- rather than allele-specific matching, by only two PCR reactions (epitope-specific typing; EST). Moreover, we have determined allelic DPB1 frequencies in Italy, confronted them with the ones previously reported for other ethnic groups, and calculated the probability of finding non-permissive DPB1 mismatches in unrelated HSC donor searches. Methods. High resolution genomic DPB1 typing and EST were performed in parallel on blood samples taken from 112 healthy unrelated Italian blood donors. Results. EST of DPB1 alleles encoding the immunogenic T cell epitope yielded 100% concordant results with high resolution DPB1 typing in all 112 samples studied, and is therefore suitable to univocally determine the presence or absence of non-permissive DPB1 disparities. The overall frequency of DPB1 alleles encoding the shared T cell epitope in the Italian population was 23.15%. Importantly, we show that based on DPB1 allelic polymorphism in the four ethnic groups representative of the world-wide UD registries, over 75% of UD matched for the other HLA loci will not present a DPB1 epitope disparity in HvG direction, demonstrating that prospective UD-recipient DPB1 matching by EST does not significantly limit the number of suitable donors, and has a negligible impact on the time and cost of the search. Conclusions. EST is a challenging alternative to conventional tissue typing which, if applied more broadly to HLA loci other than DPB1, could fundamentally change current approaches to UD searches.

Published

2006

32. Impaired GvL Potential of Natural Killer Cells Early Reconstituting Following Haploidentical HSCT.

Author

Vago, Luca, Zino, Elisabetta, Di Terlizzi, Simona, Forno, Barbara, Stanghellini, Maria T. Lupo, Perna, Serena K., Mazzi, Benedetta, Peccatori, Jacopo, Rossini, Silvano, Roncarolo, Maria G., Bonini, Chiara, Ciceri, Fabio, Bordignon, Claudio, and Fleischhauer, Katharina

Abstract

Alloreactive NK cells have been suggested to be important functional players in GvL activity after haploidentical HSCT for high risk leukemia. In this study we have characterized NK cells differentiating from purified haploidentical CD34+cells after transplantation into 16 patients who did (n=8) or did not (n=8) suffer acute leukemia relapse in a long term follow-up (median 208 days). The incidence of relapse in these patients was not correlated with the presence (n=9) or absence (n=7) of predicted donor NK alloreactivity (p=0.94). NK cells in the first month after transplantation were, regardless of the occurence of relapse, NKG2A+(>95%) and KIR−(13%), thus resembling CD56brightNK cells from healthy donors. However, in contrast to mature CD56brightcells, the patients' NK cells expressed heterogeneous intensities of CD56, were only partly positive for the lymph node homing markers CD62L and CCR7, and expressed a higher amount of Fcγ receptor III (CD16). Importantly, in contrast to mature CD56brightcells, which constitrutively express the high affinity αβγ IL-2 receptor, thus releasing γ-IFN in response to low dose IL2, the patients' NK cells lacked IL-R α (CD25) and did not release cytokines in response to low-dose IL2, nor, most importantly, when challenged with leukemic blasts. γ-IFN release induced by leukemic blasts could be restored by inhibition of NKG2A while cytotoxicity, which was consistently lower as compared to that of mature CD56+cells, could not. Our data suggest that NK cells differentiating in patients from CD34+progenitors after haploidentical HSCT have important phenotipical and functional differences from both subsets of mature NK cells, accounting for an impaired in vivoGvL potential.

Published

2006

33. Epitope-Specific Typing (EST) for HLA-DPB1 Matching: Proof of Principle for an Innovative Approach to Unrelated Hematopoietic Stem Cell Donor Selection.

Author

Zino, Elisabetta, Vago, Luca, Di Terlizzi, Simona, Mazzi, Benedetta, Amato, Luigi D', Rossini, Silvano, Ciceri, Fabio, Roncarolo, Maria G., Bordignon, Claudio, and Fleischhauer, Katharina

Abstract

Background. Conventional matching of patients and their unrelated donor (UD) hematopoietic stem cells (HSC) by 4-digit molecular HLA typing is associated with lengthy donor searches and elevated social costs. 80% of UD transplants are performed across DPB1 mismatches which, if involving disparity in host versus graft (HvG) direction for an immunogenic T cell epitope, have been shown to be associated with poor clinical outcome of transplantation for hematopoietic malignancies and beta-thalassemia. In this study we have developed an innovative approach of DPB1 epitope- rather than allele-specific matching, by only two PCR reactions (epitope-specific typing; EST). Moreover, we have determined allelic DPB1 frequencies in Italy, confronted them with the ones previously reported for other ethnic groups, and calculated the probability of finding non-permissive DPB1 mismatches in unrelated HSC donor searches.

Published

2006

34. Receptor Repertoire Reconstitution Suggests Acquisition of Patient-Specific Tolerance by Natural Killer Cells Arising from Hematopoietic Progenitor Stem Cells after Haploidentical Transplantation.

Author

Vago, Luca, Di Terlizzi, Simona, Zino, Elisabetta, Magnani, Chiara F., Stanghellini, Maria T. Lupo, Magnani, Zulma, Mazzi, Benedetta, Clerici, Daniela, Bondanza, Attilio, Bregni, Marco, Rossini, Silvano, Peccatori, Jacopo, Bonini, Chiara, Ciceri, Fabio, Bordignon, Claudio, and Fleischhauer, Katharina

Abstract

Donor-recipient incompatibility for human leukocyte antigen (HLA) ligands of killer cell immunoglobulin-like receptors (KIRs) in haploidentical hematopoietic stem cell transplantation (HSCT), has been associated with a selective graft versus leukemia (GvL) effect mediated by donor-derived alloreactive natural killer (NK) cells expressing KIRs whose ligands are missing in the recipient. In this study, we show that NK cells arising from hematopoietic stem cell progenitors after transplantation into haploidentical recipients, acquire a receptor repertoire that is compatible with patient-specific tolerance due to engagement of patient HLA ligands by inhibitory NK receptors. Using four-color immunofluorescence with monoclonal antibodies (mAbs) specific for the receptors CD94/NKG2A, KIR2DL1/2DS1, KIR2DL2/2DL3/2DS2 and KIR3DL1, we have analyzed NK receptor reconstitution kinetics in eleven adult patients affected by acute myeloid (n=9) or lymphoblastic (n=2) leukemia, who underwent HSCT from a KIR ligand matched (n=5) or mismatched (n=6) haploidentical family donor, using high doses (median 12.5x106/kg) of purified CD34+ progenitors. Nine patients achieved long-term (>150 days) complete remission of disease, independently from disease status at time of transplantation, and, importantly, from the presence (n=5) or absence (n=4) of donor NK alloreactivity. Within the first two months after transplantation, the vast majority (96% at 30 days, 86% at 60 days; SD 2% and 11%, respectively) of NK cells arising in the patients expressed the inhibitory receptor CD94/NKG2A, whose ligand HLA-E is ubiquitously expressed by cells positive for classical HLA class I molecules including leukemic blasts. As shown by mAb inhibition studies, lysis of patient-derived phytohemagglutinin-activated T cell blasts by these early arising NK cells was specifically inhibited by engagement of CD94/NKG2A. KIR expression was restored with variable kinetics in the later post-transplantation phase (3–9 months). Interestingly, however, during this period, NK cells devoid of CD94/NKG2A were found to express at least one KIR specific for an HLA ligand present in the patient, suggesting functional silencing of NK cells arising in the later phases after transplantation by acquisition of specific KIRs. Taken together, these data challenge current broad view on putative antileukemic effect of alloreactive NK cells reconstituting from haploidentical donor CD34+ cells and suggest that optimal exploitation of NK alloreactivity for GvL requires the presence of NK cells matured in the context of the donor’s rather than the recipient’s HLA repertoire. Ultimately, these findings provide a rationale for emerging clinical evidence in favor of efficacy of NK-based immunotherapy with mature donor NK cells.

Published

2005

35. Receptor Repertoire Reconstitution Suggests Acquisition of Patient-Specific Tolerance by Natural Killer Cells Arising from Hematopoietic Progenitor Stem Cells after Haploidentical Transplantation.

Author

Vago, Luca, Di Terlizzi, Simona, Zino, Elisabetta, Magnani, Chiara F., Stanghellini, Maria T. Lupo, Magnani, Zulma, Mazzi, Benedetta, Clerici, Daniela, Bondanza, Attilio, Bregni, Marco, Rossini, Silvano, Peccatori, Jacopo, Bonini, Chiara, Ciceri, Fabio, Bordignon, Claudio, and Fleischhauer, Katharina

Abstract

Donor-recipient incompatibility for human leukocyte antigen (HLA) ligands of killer cell immunoglobulin-like receptors (KIRs) in haploidentical hematopoietic stem cell transplantation (HSCT), has been associated with a selective graft versus leukemia (GvL) effect mediated by donor-derived alloreactive natural killer (NK) cells expressing KIRs whose ligands are missing in the recipient. In this study, we show that NK cells arising from hematopoietic stem cell progenitors after transplantation into haploidentical recipients, acquire a receptor repertoire that is compatible with patient-specific tolerance due to engagement of patient HLA ligands by inhibitory NK receptors. Using four-color immunofluorescence with monoclonal antibodies (mAbs) specific for the receptors CD94/NKG2A, KIR2DL1/2DS1, KIR2DL2/2DL3/2DS2 and KIR3DL1, we have analyzed NK receptor reconstitution kinetics in eleven adult patients affected by acute myeloid (n=9) or lymphoblastic (n=2) leukemia, who underwent HSCT from a KIR ligand matched (n=5) or mismatched (n=6) haploidentical family donor, using high doses (median 12.5x106/kg) of purified CD34+ progenitors. Nine patients achieved long-term (>150 days) complete remission of disease, independently from disease status at time of transplantation, and, importantly, from the presence (n=5) or absence (n=4) of donor NK alloreactivity. Within the first two months after transplantation, the vast majority (96% at 30 days, 86% at 60 days; SD 2% and 11%, respectively) of NK cells arising in the patients expressed the inhibitory receptor CD94/NKG2A, whose ligand HLA-E is ubiquitously expressed by cells positive for classical HLA class I molecules including leukemic blasts. As shown by mAb inhibition studies, lysis of patient-derived phytohemagglutinin-activated T cell blasts by these early arising NK cells was specifically inhibited by engagement of CD94/NKG2A. KIR expression was restored with variable kinetics in the later post-transplantation phase (3–9 months). Interestingly, however, during this period, NK cells devoid of CD94/NKG2A were found to express at least one KIR specific for an HLA ligand present in the patient, suggesting functional silencing of NK cells arising in the later phases after transplantation by acquisition of specific KIRs. Taken together, these data challenge current broad view on putative antileukemic effect of alloreactive NK cells reconstituting from haploidentical donor CD34+ cells and suggest that optimal exploitation of NK alloreactivity for GvL requires the presence of NK cells matured in the context of the donor's rather than the recipient's HLA repertoire. Ultimately, these findings provide a rationale for emerging clinical evidence in favor of efficacy of NK-based immunotherapy with mature donor NK cells.

Published

2005