Antigen Loading (e.g., Glutamic Acid Decarboxylase 65) of Tolerogenic DCs (tolDCs) Reduces Their Capacity to Prevent Diabetes in the Non-Obese Diabetes (NOD)-Severe Combined Immunodeficiency Model of Adoptive Cotransfer of Diabetes As Well As in NOD Mice

Antigen Loading (e.g., Glutamic Acid Decarboxylase 65) of Tolerogenic DCs (tolDCs) Reduces Their Capacity to Prevent Diabetes in the Non-Obese Diabetes (NOD)-Severe Combined Immunodeficiency Model of Adoptive Cotransfer of Diabetes As Well As in NOD Mice

Tolerogenic DCs (tolDCs) are being researched as a promising intervention strategy also in autoimmune diseases including type 1 diabetes (T1D). T1D is a T-cell-mediated, organ-specific disease with several well-defined and rather specific autoantigens, i.e., proinsulin, insulin, glutamic acid decarb...

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Main Authors: David P. Funda, Jaroslav Goliáš, Tomáš Hudcovic, Hana Kozáková, Radek Špíšek, Lenka Palová-Jelínková
Format: Article
Language:English
Published: Frontiers Media S.A. 2018-02-01
Series:Frontiers in Immunology
Subjects:
type 1 diabetes
cell therapy
autoantigen
tolerogenic
dendritic cells
glutamic acid decarboxylase 65
Online Access:http://journal.frontiersin.org/article/10.3389/fimmu.2018.00290/full
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spelling doaj-82890c7fcfd34997a43d4af5e3b343392020-11-24T20:42:51ZengFrontiers Media S.A.Frontiers in Immunology1664-32242018-02-01910.3389/fimmu.2018.00290330967Antigen Loading (e.g., Glutamic Acid Decarboxylase 65) of Tolerogenic DCs (tolDCs) Reduces Their Capacity to Prevent Diabetes in the Non-Obese Diabetes (NOD)-Severe Combined Immunodeficiency Model of Adoptive Cotransfer of Diabetes As Well As in NOD MiceDavid P. Funda0Jaroslav Goliáš1Tomáš Hudcovic2Hana Kozáková3Radek Špíšek4Radek Špíšek5Lenka Palová-Jelínková6Lenka Palová-Jelínková7Institute of Microbiology of the Czech Academy of Sciences, v.v.i., Prague, CzechiaInstitute of Microbiology of the Czech Academy of Sciences, v.v.i., Prague, CzechiaInstitute of Microbiology of the Czech Academy of Sciences, v.v.i., Nový Hrádek, CzechiaInstitute of Microbiology of the Czech Academy of Sciences, v.v.i., Nový Hrádek, CzechiaSOTIO a s., Prague, CzechiaDepartment of Immunology, 2nd Medical School, Charles University, Prague, CzechiaSOTIO a s., Prague, CzechiaDepartment of Immunology, 2nd Medical School, Charles University, Prague, CzechiaTolerogenic DCs (tolDCs) are being researched as a promising intervention strategy also in autoimmune diseases including type 1 diabetes (T1D). T1D is a T-cell-mediated, organ-specific disease with several well-defined and rather specific autoantigens, i.e., proinsulin, insulin, glutamic acid decarboxylase 65 (GAD65), that have been used in animal as well as human intervention trials in attempts to achieve a more efficient, specific immunotherapy. In this study, we have tested tolerogenic DCs for their effectiveness to prevent adoptive transfer of diabetes by diabetogenic splenocytes into non-obese diabetes (NOD)-severe combined immunodeficiency (NOD-SCID) recipients. While i.p. application of tolDCs prepared from bone marrow of prediabetic NOD mice by vitamin D2 and dexamethasone significantly reduced diabetes transfer into the NOD-SCID females, this effect was completely abolished when tolDCs were loaded with the mouse recombinant GAD65, but also with a control protein—ovalbumin (OVA). The effect was not dependent on the presence of serum in the tolDC culture. Similar results were observed in NOD mice. Removal of possible bystander antigen-presenting cells within the diabetogenic splenocytes by negative magnetic sorting of T cells did not alter this surprising effect. Tolerogenic DCs loaded with an immunodominant mouse GAD65 peptide also displayed diminished diabetes-preventive effect. Tolerogenic DCs were characterized by surface maturation markers (CD40, CD80, CD86, MHC II) and the lipopolysaccharide stability test. Data from alloreactive T cell proliferation and cytokine induction assays (IFN-γ) did not reveal the differences observed in the diabetes incidence. Migration of tolDCs, tolDCs-GAD65 and tolDCs-OVA to spleen, mesenteric- and pancreatic lymph nodes displayed similar, mucosal pattern with highest accumulation in pancreatic lymph nodes present up to 9 days after the i.p. application. These data document that mechanisms by which tolDCs operate in vivo require much better understanding for improving efficacy of this promising cell therapy, especially in the presence of an antigen, e.g., GAD65.http://journal.frontiersin.org/article/10.3389/fimmu.2018.00290/fulltype 1 diabetescell therapyautoantigentolerogenicdendritic cellsglutamic acid decarboxylase 65
collection DOAJ
language English
format Article
sources DOAJ
author David P. Funda
Jaroslav Goliáš
Tomáš Hudcovic
Hana Kozáková
Radek Špíšek
Radek Špíšek
Lenka Palová-Jelínková
Lenka Palová-Jelínková
spellingShingle David P. Funda
Jaroslav Goliáš
Tomáš Hudcovic
Hana Kozáková
Radek Špíšek
Radek Špíšek
Lenka Palová-Jelínková
Lenka Palová-Jelínková
Antigen Loading (e.g., Glutamic Acid Decarboxylase 65) of Tolerogenic DCs (tolDCs) Reduces Their Capacity to Prevent Diabetes in the Non-Obese Diabetes (NOD)-Severe Combined Immunodeficiency Model of Adoptive Cotransfer of Diabetes As Well As in NOD Mice
Frontiers in Immunology
type 1 diabetes
cell therapy
autoantigen
tolerogenic
dendritic cells
glutamic acid decarboxylase 65
author_facet David P. Funda
Jaroslav Goliáš
Tomáš Hudcovic
Hana Kozáková
Radek Špíšek
Radek Špíšek
Lenka Palová-Jelínková
Lenka Palová-Jelínková
author_sort David P. Funda
title Antigen Loading (e.g., Glutamic Acid Decarboxylase 65) of Tolerogenic DCs (tolDCs) Reduces Their Capacity to Prevent Diabetes in the Non-Obese Diabetes (NOD)-Severe Combined Immunodeficiency Model of Adoptive Cotransfer of Diabetes As Well As in NOD Mice
title_short Antigen Loading (e.g., Glutamic Acid Decarboxylase 65) of Tolerogenic DCs (tolDCs) Reduces Their Capacity to Prevent Diabetes in the Non-Obese Diabetes (NOD)-Severe Combined Immunodeficiency Model of Adoptive Cotransfer of Diabetes As Well As in NOD Mice
title_full Antigen Loading (e.g., Glutamic Acid Decarboxylase 65) of Tolerogenic DCs (tolDCs) Reduces Their Capacity to Prevent Diabetes in the Non-Obese Diabetes (NOD)-Severe Combined Immunodeficiency Model of Adoptive Cotransfer of Diabetes As Well As in NOD Mice
title_fullStr Antigen Loading (e.g., Glutamic Acid Decarboxylase 65) of Tolerogenic DCs (tolDCs) Reduces Their Capacity to Prevent Diabetes in the Non-Obese Diabetes (NOD)-Severe Combined Immunodeficiency Model of Adoptive Cotransfer of Diabetes As Well As in NOD Mice
title_full_unstemmed Antigen Loading (e.g., Glutamic Acid Decarboxylase 65) of Tolerogenic DCs (tolDCs) Reduces Their Capacity to Prevent Diabetes in the Non-Obese Diabetes (NOD)-Severe Combined Immunodeficiency Model of Adoptive Cotransfer of Diabetes As Well As in NOD Mice
title_sort antigen loading (e.g., glutamic acid decarboxylase 65) of tolerogenic dcs (toldcs) reduces their capacity to prevent diabetes in the non-obese diabetes (nod)-severe combined immunodeficiency model of adoptive cotransfer of diabetes as well as in nod mice
publisher Frontiers Media S.A.
series Frontiers in Immunology
issn 1664-3224
publishDate 2018-02-01
description Tolerogenic DCs (tolDCs) are being researched as a promising intervention strategy also in autoimmune diseases including type 1 diabetes (T1D). T1D is a T-cell-mediated, organ-specific disease with several well-defined and rather specific autoantigens, i.e., proinsulin, insulin, glutamic acid decarboxylase 65 (GAD65), that have been used in animal as well as human intervention trials in attempts to achieve a more efficient, specific immunotherapy. In this study, we have tested tolerogenic DCs for their effectiveness to prevent adoptive transfer of diabetes by diabetogenic splenocytes into non-obese diabetes (NOD)-severe combined immunodeficiency (NOD-SCID) recipients. While i.p. application of tolDCs prepared from bone marrow of prediabetic NOD mice by vitamin D2 and dexamethasone significantly reduced diabetes transfer into the NOD-SCID females, this effect was completely abolished when tolDCs were loaded with the mouse recombinant GAD65, but also with a control protein—ovalbumin (OVA). The effect was not dependent on the presence of serum in the tolDC culture. Similar results were observed in NOD mice. Removal of possible bystander antigen-presenting cells within the diabetogenic splenocytes by negative magnetic sorting of T cells did not alter this surprising effect. Tolerogenic DCs loaded with an immunodominant mouse GAD65 peptide also displayed diminished diabetes-preventive effect. Tolerogenic DCs were characterized by surface maturation markers (CD40, CD80, CD86, MHC II) and the lipopolysaccharide stability test. Data from alloreactive T cell proliferation and cytokine induction assays (IFN-γ) did not reveal the differences observed in the diabetes incidence. Migration of tolDCs, tolDCs-GAD65 and tolDCs-OVA to spleen, mesenteric- and pancreatic lymph nodes displayed similar, mucosal pattern with highest accumulation in pancreatic lymph nodes present up to 9 days after the i.p. application. These data document that mechanisms by which tolDCs operate in vivo require much better understanding for improving efficacy of this promising cell therapy, especially in the presence of an antigen, e.g., GAD65.
topic type 1 diabetes
cell therapy
autoantigen
tolerogenic
dendritic cells
glutamic acid decarboxylase 65
url http://journal.frontiersin.org/article/10.3389/fimmu.2018.00290/full
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