Paolo Fiorina

Publications (72)422.18 Total impact

• Article: B7h (ICOS-L) Maintains Tolerance at the Fetomaternal Interface.

  Leonardo V Riella, Shirine Dada, Lola Chabtini, Brian Smith, Lei Huang, Pranal Dakle, Bechara Mfarrej, Francesca D'Addio, La-Tonya Adams, Nora Kochupurakkal, Andrea Vergani, Paolo Fiorina, Andrew L Mellor, Arlene H Sharpe, Hideo Yagita, Indira Guleria
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  ABSTRACT: In a successful pregnancy, the semiallogeneic fetus is not rejected by the maternal immune system, which implies tolerance mechanisms protecting fetal tissues from maternal immune attack. Here we report that the ICOS-B7h costimulatory pathway plays a critical role in maintaining the equilibrium at the fetomaternal interface. Blockade of this pathway increased fetal resorption and decreased fetal survival in an allogeneic pregnancy model (CBA female × B6 male). Locally in the placenta, levels of regulatory markers such as IDO and TGF-β1 were reduced after anti-B7h monoclonal antibody treatment, whereas levels of effector cytokines (eg, IFN-γ) were significantly increased. In secondary lymphoid organs, enhanced IFN-γ and granzyme B production (predominantly by CD8(+) T cells) was observed in the anti-B7h-treated group. The deleterious effect of B7h blockade in pregnancy was maintained only in CD4 knockout mice, not in CD8 knockout mice, which suggests a role for CD8(+) T cells in immune regulation by the ICOS-B7h pathway. In accord, regulatory CD8(+) T cells (in particular, CD8(+)CD103(+) cells) were significantly decreased after anti-B7h monoclonal antibody treatment, and adoptive transfer of this subset abrogated the deleterious effect of B7h blockade in fetomaternal tolerance. Taken together, these data support the hypothesis that B7h blockade abrogates tolerance at the fetomaternal interface by enhancing CD8(+) effector response and reducing local immunomodulation mediated by CD8(+) regulatory T cells.
  American Journal Of Pathology 04/2013; · 4.89 Impact Factor
• Article: Effect of the Purinergic Inhibitor Oxidized-ATP in a Model of Islet Allograft Rejection.

  Andrea Vergani, Carmen Fotino, Francesca D'Addio, Sara Tezza, Michele Podetta, Francesca Gatti, Melissa Chin, Roberto Bassi, Ruth D Molano, Domenico Corradi, Rita Gatti, Maria E Ferrero, Antonio Secchi, Fabio Grassi, Camillo Ricordi, Mohamed H Sayegh, Paola Maffi, Antonello Pileggi, Paolo Fiorina
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  ABSTRACT: The lymphocytic ionotropic purinergic P2X receptors (P2X1R-P2X7R, or P2XRs) sense ATP released during cell damage-activation, thus regulating T-cell activation. We aim to define the role of P2XRs during islet allograft rejection and to establish a novel anti-P2XRs strategy to achieve long-term islet allograft function. Our data demonstrate that P2X1R and P2X7R are induced in islet allograft-infiltrating cells, that only P2X7R is increasingly expressed during alloimmune response, and that P2X1R is augmented in both allogeneic and syngeneic transplantation. In vivo short-term P2X7R targeting (using periodate-oxidized ATP [oATP]) delays islet allograft rejection, reduces the frequency of Th1/Th17 cells, and induces hyporesponsiveness toward donor antigens. oATP-treated mice displayed preserved islet grafts with reduced Th1 transcripts. P2X7R targeting and rapamycin synergized in inducing long-term islet function in 80% of transplanted mice and resulted in reshaping of the recipient immune system. In vitro P2X7R targeting using oATP reduced T-cell activation and diminished Th1/Th17 cytokine production. Peripheral blood mononuclear cells obtained from long-term islet-transplanted patients showed an increased percentage of P2X7R(+)CD4(+) T cells compared with controls. The beneficial effects of oATP treatment revealed a role for the purinergic system in islet allograft rejection, and the targeting of P2X7R is a novel strategy to induce long-term islet allograft function.
  Diabetes 01/2013; · 8.29 Impact Factor
• Article: Prolonged, Low-Dose Anti-Thymocyte Globulin, Combined with CTLA4-Ig, Promotes Engraftment in a Stringent Transplant Model.

  Francesca D'Addio, Olaf Boenisch, Ciara N Magee, Melissa Y Yeung, Xueli Yuan, Bechara Mfarrej, Andrea Vergani, Mohammed Javeed Ansari, Paolo Fiorina, Nader Najafian
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  ABSTRACT: Despite significant nephrotoxicity, calcineurin inhibitors (CNIs) remain the cornerstone of immunosuppression in solid organ transplantation. We, along with others, have reported tolerogenic properties of anti-thymocyte globulin (ATG, Thymoglobulin®), evinced by its ability both to spare Tregs from depletion in vivo and, when administered at low, non-depleting doses, to expand Tregs ex vivo. Clinical trials investigating B7/CD28 blockade (LEA29Y, Belatacept) in kidney transplant recipients have proven that the replacement of toxic CNI use is feasible in selected populations. Rabbit polyclonal anti-murine thymocyte globulin (mATG) was administered as induction and/or prolonged, low-dose therapy, in combination with CTLA4-Ig, in a stringent, fully MHC-mismatched murine skin transplant model to assess graft survival and mechanisms of action. Prolonged, low-dose mATG, combined with CTLA4-Ig, effectively promotes engraftment in a stringent transplant model. Our data demonstrate that mATG achieves graft acceptance primarily by promoting Tregs, while CTLA4-Ig enhances mATG function by limiting activation of the effector T cell pool in the early stages of treatment, and by inhibiting production of anti-rabbit antibodies in the maintenance phase, thereby promoting regulation of alloreactivity. These data provide the rationale for development of novel, CNI-free clinical protocols in human transplant recipients.
  PLoS ONE 01/2013; 8(1):e53797. · 4.09 Impact Factor
• Article: CD160Ig Fusion Protein Targets a Novel Costimulatory Pathway and Prolongs Allograft Survival.

  Francesca D'Addio, Takuya Ueno, Michael Clarkson, Baogong Zhu, Andrea Vergani, Gordon J Freeman, Mohamed H Sayegh, Mohammed Javeed I Ansari, Paolo Fiorina, Antje Habicht
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  ABSTRACT: CD160 is a cell surface molecule expressed by most NK cells and approximately 50% of CD8(+) cytotoxic T lymphocytes. Engagement of CD160 by MHC class-I directly triggers a costimulatory signal to TCR-induced proliferation, cytokine production and cytotoxic effector functions. The role of CD160 in alloimmunity is unknown. Using a newly generated CD160 fusion protein (CD160Ig) we examined the role of the novel costimulatory molecule CD160 in mediating CD4(+) or CD8(+) T cell driven allograft rejection. CD160Ig inhibits alloreactive CD8(+) T cell proliferation and IFN-γ production in vitro, in particular in the absence of CD28 costimulation. Consequently CD160Ig prolongs fully mismatched cardiac allograft survival in CD4(-/-), CD28(-/-) knockout and CTLA4Ig treated WT recipients, but not in WT or CD8(-/-) knockout recipients. The prolonged cardiac allograft survival is associated with reduced alloreactive CD8(+) T cell proliferation, effector/memory responses and alloreactive IFN-γ production. Thus, CD160 signaling is particularly important in CD28-independent effector/memory CD8(+) alloreactive T cell activation in vivo and therefore may serve as a novel target for prevention of allograft rejection.
  PLoS ONE 01/2013; 8(4):e60391. · 4.09 Impact Factor
• Article: Long-Term Heart Transplant Survival by Targeting the Ionotropic Purinergic Receptor P2X7.

  Andrea Vergani, Sara Tezza, Francesca D'Addio, Carmen Fotino, Kaifeng Liu, Monika Niewczas, Roberto Bassi, R Damaris Molano, Sonja Kleffel, Alessandra Petrelli, [......], Maria Frigerio, Gary Visner, Fabio Grassi, Maria E Ferrero, Domenico Corradi, Reza Abdi, Camillo Ricordi, Mohamed H Sayegh, Antonello Pileggi, Paolo Fiorina
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  ABSTRACT: BACKGROUND: Heart transplantation is a lifesaving procedure for patients with end-stage heart failure. Despite much effort and advances in the field, current immunosuppressive regimens are still associated with poor long-term cardiac allograft outcomes as well as with the development of complications including infections and malignancies. The development of a novel, short-term and effective immunomodulatory protocol will thus be an important achievement. The purine adenosine 5'-triphosphate (ATP), released during cell damage/activation, is sensed by the ionotropic purinergic receptor P2X7 (P2X7R) on lymphocytes and regulates T cell activation. Novel clinical-grade P2X7R inhibitors are available, rendering the targeting of P2X7R a potential therapy in cardiac transplantation. METHODS AND RESULTS: We analyzed P2X7R expression in patients and mice and P2X7R targeting in murine recipients in the context of cardiac transplantation. Our data demonstrate that P2X7R is specifically upregulated in graft-infiltrating lymphocytes in cardiac-transplanted humans and mice. Short-term P2X7R targeting with periodate-oxidized ATP (oATP) promotes long-term cardiac transplant survival in 80% of murine recipients of a fully mismatched allograft. Long-term survival of cardiac transplants was associated with reduced T cell activation, Th1/Th17 differentiation and inhibition of STAT3 phosphorylation in T cells, thus leading to a reduced transplant infiltrate and coronaropathy. In vitro genetic upregulation of the P2X7R pathway was also shown to stimulate Th1/Th17 cell generation. Finally, P2X7R targeting halted the progression of coronaropathy in a murine model of chronic rejection as well. CONCLUSIONS: P2X7R targeting is a novel clinically relevant strategy to prolong cardiac transplant survival.
  Circulation 12/2012; · 14.74 Impact Factor
• Article: B cell depletion improves islet allograft survival with anti-CD45RB.

  Kang Mi Lee, Heidi Yeh, Gaoping Zhao, Lingling Wei, Matthew O'Connor, Ryan T Stott, Julie Soohoo, Kyri Dunussi, Paolo Fiorina, Shaoping Deng, James F Markmann, James I Kim
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  ABSTRACT: A short course of anti-CD45RB leads to long-term islet allograft survival and donor-specific tolerance in approximately half of immunocompetent mice. We have previously demonstrated that anti-CD45RB antibody-mediated tolerance requires B cells for cardiac allograft survival. We therefore asked whether B cells were also required for anti-CD45RB antibody-mediated survival of islets. Unexpectedly, we found that nearly 100% of islet allografts survive longterm in B cell-deficient mice. Similarly, B cell depletion by anti-CD22/cal augmented anti-CD45RB mediated tolerance when administered pre-transplant, although it had no effect on tolerance induction when administered post-transplant. Our results demonstrate that the role of B cells in promoting tolerance with anti-CD45RB is graft-specific, promoting tolerance in cardiac grafts but resisting tolerance in islet transplantation. These findings may help elucidate the varied action of B cells in promoting tolerance versus rejection.
  Cell Transplantation 11/2012; · 5.13 Impact Factor
• Article: The novel therapeutic effect of phosphoinositide 3-kinase-γ inhibitor AS605240 in autoimmune diabetes.

  Jamil Azzi, Robert F Moore, Wassim Elyaman, Marwan Mounayar, Najib El Haddad, Sunmi Yang, Mollie Jurewicz, Ayumi Takakura, Alessandra Petrelli, Paolo Fiorina, Thomas Ruckle, Reza Abdi
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  ABSTRACT: Type 1 diabetes (T1D) remains a major health problem worldwide, with a steadily rising incidence yet no cure. Phosphoinositide 3-kinase-γ (PI3Kγ), a member of a family of lipid kinases expressed primarily in leukocytes, has been the subject of substantial research for its role in inflammatory diseases. However, the role of PI3Kγ inhibition in suppressing autoimmune T1D remains to be explored. We tested the role of the PI3Kγ inhibitor AS605240 in preventing and reversing diabetes in NOD mice and assessed the mechanisms by which this inhibition abrogates T1D. Our data indicate that the PI3Kγ pathway is highly activated in T1D. In NOD mice, we found upregulated expression of phosphorylated Akt (PAkt) in splenocytes. Notably, T regulatory cells (Tregs) showed significantly lower expression of PAkt compared with effector T cells. Inhibition of the PI3Kγ pathway by AS605240 efficiently suppressed effector T cells and induced Treg expansion through the cAMP response element-binding pathway. AS605240 effectively prevented and reversed autoimmune diabetes in NOD mice and suppressed T-cell activation and the production of inflammatory cytokines by autoreactive T cells in vitro and in vivo. These studies demonstrate the key role of the PI3Kγ pathway in determining the balance of Tregs and autoreactive cells regulating autoimmune diabetes.
  Diabetes 03/2012; 61(6):1509-18. · 8.29 Impact Factor
• Article: (31)P-magnetic resonance spectroscopy ((31)P-MRS) detects early changes in kidney high-energy phosphate metabolism during a 6-month Valsartan treatment in diabetic and non-diabetic kidney-transplanted patients.

  Paolo Fiorina, Roberto Bassi, Chiara Gremizzi, Andrea Vergani, Rossana Caldara, Alessandra Mello, Alessandro Del Maschio, Francesco De Cobelli, Gianluca Perseghin, Antonio Secchi
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  ABSTRACT: (31)P-magnetic resonance spectroscopy ((31)P-MRS) is a non-invasive tool to study high-energy phosphate (HEP) metabolism. We evaluate whether (31)P-MRS can detect early changes in kidney HEP metabolism during a 6-month trial with Valsartan. Twenty consecutive stable and normotensive kidney-transplanted patients were enrolled. Nine of them received short-term low-dose Valsartan treatment (80 mg/day) for 6 months, while 11 controls received no medication. Kidney HEP metabolism was evaluated both at baseline and after treatment by (31)P-MRS with a 1.5 T system (Gyroscan Intera Master 1.5 MR System; Philips Medical Systems, Best, The Netherlands). Valsartan-treated patients (n = 9) showed a significant increase in β-ATP/Pi ratio, a marker of kidney HEP metabolism (baseline = 1.03 ± 0.08 vs. 6 months = 1.26 ± 0.07, p = 0.03). In contrast, the β-ATP/Pi ratio in the control group (n = 11) did not change (baseline = 0.85 ± 0.10 vs. 6 months = 0.89 ± 0.08, ns). The improvement in the β-ATP/Pi ratio was not associated with a reduction in arterial blood pressure or in urinary albumin excretion. Kidney-localized (31)P-MRS can detect early changes in kidney HEP metabolism during a short-term low-dose Valsartan treatment in stable normotensive kidney-transplanted patients.
  Acta Diabetologica 02/2012; · 2.78 Impact Factor
• Source

  Available from: PubMed Central

  Article: Regenerative therapies for diabetic microangiopathy.

  Roberto Bassi, Alessio Trevisani, Sara Tezza, Moufida Ben Nasr, Francesca Gatti, Andrea Vergani, Antonio Farina, Paolo Fiorina
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  ABSTRACT: Hyperglycaemia occurring in diabetes is responsible for accelerated arterial remodeling and atherosclerosis, affecting the macro- and the microcirculatory system. Vessel injury is mainly related to deregulation of glucose homeostasis and insulin/insulin-precursors production, generation of advanced glycation end-products, reduction in nitric oxide synthesis, and oxidative and reductive stress. It occurs both at extracellular level with increased calcium and matrix proteins deposition and at intracellular level, with abnormalities of intracellular pathways and increased cell death. Peripheral arterial disease, coronary heart disease, and ischemic stroke are the main causes of morbidity/mortality in diabetic patients representing a major clinical and economic issue. Pharmacological therapies, administration of growth factors, and stem cellular strategies are the most effective approaches and will be discussed in depth in this comprehensive review covering the regenerative therapies of diabetic microangiopathy.
  Experimental Diabetes Research 01/2012; 2012:916560. · 1.20 Impact Factor
• Source

  Available from: PubMed Central

  Article: Strategies to reverse endothelial progenitor cell dysfunction in diabetes.

  Alessandra Petrelli, Raffaele Di Fenza, Michele Carvello, Francesca Gatti, Antonio Secchi, Paolo Fiorina
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  ABSTRACT: Bone-marrow-derived cells-mediated postnatal vasculogenesis has been reported as the main responsible for the regulation of vascular homeostasis in adults. Since their discovery, endothelial progenitor cells have been depicted as mediators of postnatal vasculogenesis for their peculiar phenotype (partially staminal and partially endothelial), their ability to differentiate in endothelial cell line and to be incorporated into the vessels wall during ischemia/damage. Diabetes mellitus, a condition characterized by cardiovascular disease, nephropathy, and micro- and macroangiopathy, showed a dysfunction of endothelial progenitor cells. Herein, we review the mechanisms involved in diabetes-related dysfunction of endothelial progenitor cells, highlighting how hyperglycemia affects the different steps of endothelial progenitor cells lifetime (i.e., bone marrow mobilization, trafficking into the bloodstream, differentiation in endothelial cells, and homing in damaged tissues/organs). Finally, we review preclinical and clinical strategies that aim to revert diabetes-induced dysfunction of endothelial progenitor cells as a means of finding new strategies to prevent diabetic complications.
  Experimental Diabetes Research 01/2012; 2012:471823. · 1.20 Impact Factor
• Article: Modified CD4(+) T-cell response in recipients of old cardiac allografts.

  Christian Denecke, Xupeng Ge, Anke Jurisch, Sonja Kleffel, Irene K Kim, Robert F Padera, Anne Weiland, Paolo Fiorina, Johann Pratschke, Stefan G Tullius
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  ABSTRACT: With an increasing demand, organs from elderly donors are more frequently utilized for transplantation. Herein, we analyzed the impact of donor age on CD4(+) T-cell responses with regard to regulatory and effector mechanisms. Young (3months) BM12 recipients were engrafted with young or old (18months) B6 cardiac allografts. Systemic CD4(+) T-cell responses and intragraft changes were monitored and compared to age-matched syngenic transplant controls. While elderly, nonmanipulated hearts contained significantly elevated frequencies of donor-derived leukocytes prior to transplantation, allograft survival was age-independent. T-cell activation, however, was delayed and associated with a compromised immune response in mixed lymphocyte cultures (MLR; P=0.0002) early after transplantation (day 14). During the time course after transplantation, recipients of old grafts demonstrated an augmented immune response as shown by significantly higher frequencies of activated CD4(+) T-cells and a stronger in vitro alloreactivity (MLR; ELISPOT; P<0.01). In parallel, frequencies of regulatory T-cells had increased systemically and overall fewer CD4(+) T-cells were detected intragraft. Interestingly, changes in the CD4(+) T-cell response were not reflected by graft morphology. Of note, transplantation of young and old syngenic hearts did not show age-related differences of the CD4(+) T-cells response suggesting that old grafts can recover from a period of short cold ischemia time. Our data suggest that donor age is associated with an augmented CD4(+) T-cells response which did not affect graft survival in our model. These findings contribute to a better understanding of the immune response following the engraftment of older donor organs.
  Transplant International 12/2011; 25(3):328-36. · 2.92 Impact Factor
• Article: Near normalization of metabolic and functional features of the central nervous system in type 1 diabetic patients with end-stage renal disease after kidney-pancreas transplantation.

  Paolo Fiorina, Paolo Vezzulli, Roberto Bassi, Chiara Gremizzi, Monica Falautano, Francesca D'Addio, Andrea Vergani, Lola Chabtini, Erica Altamura, Alessandra Mello, Rossana Caldara, Marina Scavini, Giuseppe Magnani, Andrea Falini, Antonio Secchi
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  ABSTRACT: The pathogenesis of brain disorders in type 1 diabetes (T1D) is multifactorial and involves the adverse effects of chronic hyperglycemia and of recurrent hypoglycemia. Kidney-pancreas (KP), but not kidney alone (KD), transplantation is associated with sustained normoglycemia, improvement in quality of life, and reduction of morbidity/mortality in diabetic patients with end-stage renal disease (ESRD). The aim of our study was to evaluate with magnetic resonance imaging and nuclear magnetic resonance spectroscopy ((1)H MRS) the cerebral morphology and metabolism of 15 ESRD plus T1D patients, 23 patients with ESRD plus T1D after KD (n = 9) and KP (n = 14) transplantation, and 8 age-matched control subjects. Magnetic resonance imaging showed a higher prevalence of cerebrovascular disease in ESRD plus T1D patients (53% [95% CI 36-69]) compared with healthy subjects (25% [3-6], P = 0.04). Brain (1)H MRS showed lower levels of N-acetyl aspartate (NAA)-to-choline ratio in ESRD plus T1D, KD, and KP patients compared with control subjects (control subjects vs. all, P < 0.05) and of NAA-to-creatine ratio in ESRD plus T1D compared with KP and control subjects (ESRD plus T1D vs. control and KP subjects, P ≤ 0.01). The evaluation of the most common scores of psychological and neuropsychological function showed a generally better intellectual profile in control and KP subjects compared with ESRD plus T1D and KD patients. Diabetes and ESRD are associated with a precocious form of brain impairment, chronic cerebrovascular disease, and cognitive decline. In KP-transplanted patients, most of these features appeared to be near normalized after a 5-year follow-up period of sustained normoglycemia.
  Diabetes care 12/2011; 35(2):367-74. · 8.09 Impact Factor
• Article: IL-21 is an antitolerogenic cytokine of the late-phase alloimmune response.

  Alessandra Petrelli, Michele Carvello, Andrea Vergani, Kang Mi Lee, Sara Tezza, Ming Du, Sonja Kleffel, Liu Chengwen, Bechara G Mfarrej, Patrick Hwu, Antonio Secchi, Warren J Leonard, Deborah Young, Mohamed H Sayegh, James F Markmann, Allan J Zajac, Paolo Fiorina
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  ABSTRACT: Interleukin-21 (IL-21) is a proinflammatory cytokine that has been shown to affect Treg/Teff balance. However, the mechanism by which IL-21 orchestrates alloimmune response and interplays with Tregs is still unclear. The interplay between IL-21/IL-21R signaling, FoxP3 expression, and Treg survival and function was evaluated in vitro in immunologically relevant assays and in vivo in allogenic and autoimmune models of islet transplantation. IL-21R expression decreases on T cells and B cells in vitro and increases in the graft in vivo, while IL-21 levels increase in vitro and in vivo during anti-CD3/anti-CD28 stimulation/allostimulation in the late phase of the alloimmune response. In vitro, IL-21/IL-21R signaling (by using rmIL-21 or genetically modified CD4(+) T cells [IL-21 pOrf plasmid-treated or hIL-21-Tg mice]) enhances the T-cell response during anti-CD3/anti-CD28 stimulation/allostimulation, prevents Treg generation, inhibits Treg function, induces Treg apoptosis, and reduces FoxP3 and FoxP3-dependent gene transcripts without affecting FoxP3 methylation status. In vivo targeting of IL-21/IL-21R expands intragraft and peripheral Tregs, promotes Treg neogenesis, and regulates the antidonor immune response, whereas IL-21/IL-21R signaling in Doxa-inducible ROSA-rtTA-IL-21-Tg mice expands Teffs and FoxP3(-) cells. Treatment with a combination of mIL-21R.Fc and CTLA4-Ig (an inhibitor of the early alloimmune response) leads to robust graft tolerance in a purely alloimmune setting and prolonged islet graft survival in NOD mice. IL-21 interferes with different checkpoints of the FoxP3 Treg chain in the late phase of alloimmune response and, thus, acts as an antitolerogenic cytokine. Blockade of the IL-21/IL-21R pathway could be a precondition for tolerogenic protocols in transplantation.
  Diabetes 12/2011; 60(12):3223-34. · 8.29 Impact Factor
• Article: Inotuzumab ozogamicin murine analog-mediated B-cell depletion reduces anti-islet allo- and autoimmune responses.

  Michele Carvello, Alessandra Petrelli, Andrea Vergani, Kang Mi Lee, Sara Tezza, Melissa Chin, Elena Orsenigo, Carlo Staudacher, Antonio Secchi, Kyri Dunussi-Joannopoulos, Mohamed H Sayegh, James F Markmann, Paolo Fiorina
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  ABSTRACT: B cells participate in the priming of the allo- and autoimmune responses, and their depletion can thus be advantageous for islet transplantation. Herein, we provide an extensive study of the effect of B-cell depletion in murine models of islet transplantation. Islet transplantation was performed in hyperglycemic B-cell-deficient(μMT) mice, in a purely alloimmune setting (BALB/c into hyperglycemic C57BL/6), in a purely autoimmune setting (NOD.SCID into hyperglycemic NOD), and in a mixed allo-/autoimmune setting (BALB/c into hyperglycemic NOD). Inotuzumab ozogamicin murine analog (anti-CD22 monoclonal antibody conjugated with calicheamicin [anti-CD22/cal]) efficiently depleted B cells in all three models of islet transplantation examined. Islet graft survival was significantly prolonged in B-cell-depleted mice compared with control groups in transplants of islets from BALB/c into C57BL/6 (mean survival time [MST]: 16.5 vs. 12.0 days; P = 0.004), from NOD.SCID into NOD (MST: 23.5 vs. 14.0 days; P = 0.03), and from BALB/c into NOD (MST: 12.0 vs. 5.5 days; P = 0.003). In the BALB/c into B-cell-deficient mice model, islet survival was prolonged as well (MST: μMT = 32.5 vs. WT = 14 days; P = 0.002). Pathology revealed reduced CD3(+) cell islet infiltration and confirmed the absence of B cells in treated mice. Mechanistically, effector T cells were reduced in number, concomitant with a peripheral Th2 profile skewing and ex vivo recipient hyporesponsiveness toward donor-derived antigen as well as islet autoantigens. Finally, an anti-CD22/cal and CTLA4-Ig-based combination therapy displayed remarkable prolongation of graft survival in the stringent model of islet transplantation (BALB/c into NOD). Anti-CD22/cal-mediated B-cell depletion promotes the reduction of the anti-islet immune response in various models of islet transplantation.
  Diabetes 11/2011; 61(1):155-65. · 8.29 Impact Factor
• Article: Immunological applications of stem cells in type 1 diabetes.

  Paolo Fiorina, Julio Voltarelli, Nicholas Zavazava
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  ABSTRACT: Current approaches aiming to cure type 1 diabetes (T1D) have made a negligible number of patients insulin-independent. In this review, we revisit the role of stem cell (SC)-based applications in curing T1D. The optimal therapeutic approach for T1D should ideally preserve the remaining β-cells, restore β-cell function, and protect the replaced insulin-producing cells from autoimmunity. SCs possess immunological and regenerative properties that could be harnessed to improve the treatment of T1D; indeed, SCs may reestablish peripheral tolerance toward β-cells through reshaping of the immune response and inhibition of autoreactive T-cell function. Furthermore, SC-derived insulin-producing cells are capable of engrafting and reversing hyperglycemia in mice. Bone marrow mesenchymal SCs display a hypoimmunogenic phenotype as well as a broad range of immunomodulatory capabilities, they have been shown to cure newly diabetic nonobese diabetic (NOD) mice, and they are currently undergoing evaluation in two clinical trials. Cord blood SCs have been shown to facilitate the generation of regulatory T cells, thereby reverting hyperglycemia in NOD mice. T1D patients treated with cord blood SCs also did not show any adverse reaction in the absence of major effects on glycometabolic control. Although hematopoietic SCs rarely revert hyperglycemia in NOD mice, they exhibit profound immunomodulatory properties in humans; newly hyperglycemic T1D patients have been successfully reverted to normoglycemia with autologous nonmyeloablative hematopoietic SC transplantation. Finally, embryonic SCs also offer exciting prospects because they are able to generate glucose-responsive insulin-producing cells. Easy enthusiasm should be mitigated mainly because of the potential oncogenicity of SCs.
  Endocrine reviews 08/2011; 32(6):725-54. · 19.76 Impact Factor
• Article: Kidney-pancreas transplantation is associated with near-normal sexual function in uremic type 1 diabetic patients.

  Andrea Salonia, Francesca D'Addio, Chiara Gremizzi, Alberto Briganti, Federico Dehò, Rossana Caldara, Elena Orsenigo, Carlo Staudacher, Carlo Socci, Patrizio Rigatti, Antonio Secchi, Francesco Montorsi, Paolo Fiorina
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  ABSTRACT: Sexual function is altered in patients with type 1 diabetes (T1D) and end-stage renal disease (ESRD), thus affecting quality of life. The present study aimed to analyze sexual function in patients with T1D and ESRD (T1D+ESRD) who received a simultaneous kidney-pancreas (KP) or kidney-alone (KD) transplantation. Ten KP, 10 KD, 9 T1D+ESRD patients and 11 healthy control subjects were evaluated according to the following parameters: (1) medical/sexual history and physical examination; (2) International Index of Erectile Function; (3) Beck's inventory for depression; (4) assessment of hormonal profile; (5) quantitative sensory testing of both hand and penile sensory thresholds; and (6) hemodynamic penile assessment. Controls and KP patients showed a higher rate of self-reported satisfactory erectile function as compared with KD and T1D+ESRD patients. Circulating androgens level resulted lower in both groups of transplanted patients and in patients with T1D+ESRD compared with healthy controls, albeit a relatively better profile was observed in KP. Both transplanted and T1D+ESRD patients showed peripheral hyposensitivity; however, healthy controls and KP showed better penile hemodynamic parameters compared with KD and T1D+ESRD. Our study demonstrates that sexual function, circulating sex steroids milieu, penile sensitivity, and hemodynamics are near-normalized for the most part in KP transplantation. Further studies are needed to assess the beneficial role and the overall impact of KP transplantation on sexual function in a long-term setting and a larger cohort of patients.
  Transplantation 08/2011; 92(7):802-8. · 4.00 Impact Factor
• Article: Impact of islet transplantation on diabetes complications and quality of life.

  Roberto Bassi, Paolo Fiorina
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  ABSTRACT: Insulin represents a life-saving therapy for patients with type 1 diabetes but, despite appropriate treatment, it prevents only partially long-term diabetic complications, while generating fatal hypoglycemic episodes. Islet transplantation gained attention because of its safety, effectiveness, and minimal invasiveness; however it remains a procedure reserved for a selected group of patients. The introduction of the Edmonton Protocol in 2000, based on a newly designed steroid-free immunosuppressive protocol, revamped the course of islet transplantation. The main goal of islet transplantation remains insulin independence, although the effect of islet transplantation can be more comprehensively evaluated in terms of frequency of hypoglycemic episodes and impact on diabetic complications and quality of life. Islet transplantation was shown to have positive consequences on cardiovascular, renal, neurologic, and ocular diabetic complications. The proof of concept for cellular replacement therapy in diabetes has been established with islet transplantation, it only needs to be improved and rendered widely available.
  Current Diabetes Reports 07/2011; 11(5):355-63. · 2.50 Impact Factor
• Article: Targeting the CXCR4-CXCL12 axis mobilizes autologous hematopoietic stem cells and prolongs islet allograft survival via programmed death ligand 1.

  Paolo Fiorina, Mollie Jurewicz, Andrea Vergani, Alessandra Petrelli, Michele Carvello, Francesca D'Addio, Jonathan G Godwin, Kenneth Law, Erxi Wu, Ze Tian, Gebhard Thoma, Jiri Kovarik, Stefano La Rosa, Carlo Capella, Scott Rodig, Hans-Guenter Zerwes, Mohamed H Sayegh, Reza Abdi
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  ABSTRACT: Antagonism of CXCR4 disrupts the interaction between the CXCR4 receptor on hematopoietic stem cells (HSCs) and the CXCL12 expressed by stromal cells in the bone marrow, which subsequently results in the shedding of HSCs to the periphery. Because of their profound immunomodulatory effects, HSCs have emerged as a promising therapeutic strategy for autoimmune disorders. We sought to investigate the immunomodulatory role of mobilized autologous HSCs, via target of the CXCR4-CXL12 axis, to promote engraftment of islet cell transplantation. Islets from BALB/c mice were transplanted beneath the kidney capsule of hyperglycemic C57BL/6 mice, and treatment of recipients with CXCR4 antagonist resulted in mobilization of HSCs and in prolongation of islet graft survival. Addition of rapamycin to anti-CXCR4 therapy further promoted HSC mobilization and islet allograft survival, inducing a robust and transferable host hyporesponsiveness, while administration of an ACK2 (anti-CD117) mAb halted CXCR4 antagonist-mediated HSC release and restored allograft rejection. Mobilized HSCs were shown to express high levels of the negative costimulatory molecule programmed death ligand 1 (PD-L1), and HSCs extracted from wild-type mice, but not from PD-L1 knockout mice, suppressed the in vitro alloimmune response. Moreover, HSC mobilization in PD-L1 knockout mice failed to prolong islet allograft survival. Targeting the CXCR4-CXCL12 axis thus mobilizes autologous HSCs and promotes long-term survival of islet allografts via a PD-L1-mediated mechanism.
  The Journal of Immunology 01/2011; 186(1):121-31. · 5.79 Impact Factor
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  Available from: Andrea Augello

  Article: Congenic mesenchymal stem cell therapy reverses hyperglycemia in experimental type 1 diabetes.

  Mollie Jurewicz, Sunmi Yang, Andrea Augello, Jonathan G Godwin, Robert F Moore, Jamil Azzi, Paolo Fiorina, Mark Atkinson, Mohamed H Sayegh, Reza Abdi
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  ABSTRACT: A number of clinical trials are underway to test whether mesenchymal stem cells (MSCs) are effective in treating various diseases, including type 1 diabetes. Although this cell therapy holds great promise, the optimal source of MSCs has yet to be determined with respect to major histocompatibility complex matching. Here, we examine this question by testing the ability of congenic MSCs, obtained from the NOR mouse strain, to reverse recent-onset type 1 diabetes in NOD mice, as well as determine the immunomodulatory effects of NOR MSCs in vivo. NOR MSCs were evaluated with regard to their in vitro immunomodulatory function in the context of autoreactive T-cell proliferation and dendritic cell (DC) generation. The in vivo effect of NOR MSC therapy on reversal of recent-onset hyperglycemia and on immunogenic cell subsets in NOD mice was also examined. NOR MSCs were shown to suppress diabetogenic T-cell proliferation via PD-L1 and to suppress generation of myeloid/inflammatory DCs predominantly through an IL-6-dependent mechanism. NOR MSC treatment of experimental type 1 diabetes resulted in long-term reversal of hyperglycemia, and therapy was shown to alter diabetogenic cytokine profile, to diminish T-cell effector frequency in the pancreatic lymph nodes, to alter antigen-presenting cell frequencies, and to augment the frequency of the plasmacytoid subset of DCs. These studies demonstrate the inimitable benefit of congenic MSC therapy in reversing experimental type 1 diabetes. These data should benefit future clinical trials using MSCs as treatment for type 1 diabetes.
  Diabetes 12/2010; 59(12):3139-47. · 8.29 Impact Factor
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  Available from: Andrea Vergani

  Article: A novel clinically relevant strategy to abrogate autoimmunity and regulate alloimmunity in NOD mice.

  Andrea Vergani, Francesca D'Addio, Mollie Jurewicz, Alessandra Petrelli, Toshihiko Watanabe, Kaifeng Liu, Kenneth Law, Christian Schuetz, Michele Carvello, Elena Orsenigo, Shaoping Deng, Scott J Rodig, Javeed M Ansari, Carlo Staudacher, Reza Abdi, John Williams, James Markmann, Mark Atkinson, Mohamed H Sayegh, Paolo Fiorina
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  ABSTRACT: To investigate a new clinically relevant immunoregulatory strategy based on treatment with murine Thymoglobulin mATG Genzyme and CTLA4-Ig in NOD mice to prevent allo- and autoimmune activation using a stringent model of islet transplantation and diabetes reversal. Using allogeneic islet transplantation models as well as NOD mice with recent onset type 1 diabetes, we addressed the therapeutic efficacy and immunomodulatory mechanisms associated with a new immunoregulatory protocol based on prolonged low-dose mATG plus CTLA4-Ig. BALB/c islets transplanted into hyperglycemic NOD mice under prolonged mATG+CTLA4-Ig treatment showed a pronounced delay in allograft rejection compared with untreated mice (mean survival time: 54 vs. 8 days, P < 0.0001). Immunologic analysis of mice receiving transplants revealed a complete abrogation of autoimmune responses and severe downregulation of alloimmunity in response to treatment. The striking effect on autoimmunity was confirmed by 100% diabetes reversal in newly hyperglycemic NOD mice and 100% indefinite survival of syngeneic islet transplantation (NOD.SCID into NOD mice). The capacity to regulate alloimmunity and to abrogate the autoimmune response in NOD mice in different settings confirmed that prolonged mATG+CTLA4-Ig treatment is a clinically relevant strategy to translate to humans with type 1 diabetes.
  Diabetes 09/2010; 59(9):2253-64. · 8.29 Impact Factor