APL1, an altered peptide ligand derived from human heat-shock protein 60, increases the frequency of Tregs and its suppressive capacity against antigen responding effector CD4 + T cells from rheumatoid arthritis patients

Barberá, Ariana; Lorenzo, N. Alcorta; Kooten, Peter van; Roon, Joël van; Jager, Wilco de; Prada, Dinorah; Gómez, Jesús María Fernández; Padrón, Gabrìel; Eden, Willem van; Broere, Femke; Domínguez, María del Carmen

doi:10.1007/s12192-016-0698-0

Cited by 21 publications

(14 citation statements)

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“…Previously, we showed that CIGB-814 induced regulatory properties associated with inhibition of inflammation in several experimental models (Domínguez et al 2011;Barberá et al 2016;Lorenzo et al 2017).…”

Section: Discussionmentioning

confidence: 97%

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Biodistribution and pharmacokinetic profiles of an altered peptide ligand derived from heat-shock proteins 60 in Lewis rats

Domínguez

Cabrales

Lorenzo

et al. 2020

Cell Stress and Chaperones

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Human heat-shock protein 60 (HSP60) is an autoantigen involved in the pathogenesis of rheumatoid arthritis (RA). Epitopes derived from HSP60 can trigger activation of regulatory T cells (Treg). CIGB-814 is an altered peptide ligand (APL) derived from HSP60. In preclinical models, this peptide had anti-inflammatory effects and increased Treg. The results from phase I clinical trial indicated that CIGB-814 was safe and activated mechanisms associated with induction of tolerance. Biodistribution profile for inducers of tolerance is crucial for triggering its effects. The primary goal of this study in Lewis rats was to identify (1) the target organs of CIGB-814 and (2) the pharmacokinetics (PK) profile. 125 I-CIGB-814 administered subcutaneously at three dose levels was distributed in the thyroid gland, but also at considerable levels to the stomach and small and large intestines. In addition, concentration of CIGB-814 was increased in lymph nodes (LNs) at 24 h, compared with 4-h post-administration. Small intestine and LNs are excellent sites for induction of tolerance, due to the characteristics of dendritic cells in these tissues. Maximum concentration of CIGB-814 in blood of Lewis rats at 0.5 to 1 h agrees with PK profile determined for patients. Altogether, these results support therapeutic possibilities of CIGB-814 for RA.

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Section: Discussionmentioning

confidence: 97%

“…This peptide increased the frequency of Treg and their suppressive capacity against antigen responding effector CD4 + T cells from RA patients. In addition, this peptide inhibits significantly IL-17 levels produced by effector CD4 + T cells from peripheral blood mononuclear cells (PBMCs) of RA patients (Kim et al 2016;Barberá et al 2016).…”

Section: Introductionmentioning

confidence: 99%

Biodistribution and pharmacokinetic profiles of an altered peptide ligand derived from heat-shock proteins 60 in Lewis rats

Domínguez

Cabrales

Lorenzo

et al. 2020

Cell Stress and Chaperones

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“…In the preclinical models, the peptide called APL1 was able to increase the percentage of CD4 þ CD25 þ FoxP3 þ Treg cells in vivo after inoculation into BALB/c mice and in the rat adjuvant arthritis model, where it was able to control histological damage and clinical signs of arthritis, an effect that was associated with increased proportions of FoxP3 þ Tregs in the spleen. Furthermore, the APL1 induced Tregs ex vivo in PBMCs obtained from RA patients [61].…”

Section: Development Of Hsp-based Immune Tolerance Therapiesmentioning

confidence: 96%

Immune tolerance therapies for autoimmune diseases based on heat shock protein T-cell epitopes

Eden¹

2017

Phil. Trans. R. Soc. B

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Experimental models of autoimmune diseases have revealed the disease protective role of heat shock proteins (HSPs). Both the administration of exogenous extracellular, mostly recombinant, HSP and the experimental co-induction of endogenous intracellular HSP in models have been shown to lead to production of disease protective regulatory T cells (Tregs). Similar to HSP taken up from extracellular bodily fluids, due to stress-related autophagy upregulated HSP also from intracellular sources is a major provider for the major histocompatibility class II (MHCII) ligandome; therefore, both extracellular and intracellular HSP can be prominent targets of Treg. The development of therapeutic peptide vaccines for the restoration of immune tolerance in inflammatory diseases is an area of intensive research. In this area, HSPs are a target for tolerance-inducing T-cell therapy, because of their wide expression in inflamed tissues. In humans, in whom the actual disease trigger is frequently unknown, HSP peptides offer chances for tolerance-promoting interventions through induction of HSP-specific Treg. Recently, we have shown the ability of a bacterial HSP70-derived peptide, HSP70-B29, to induce HSP-specific Tregs that suppressed arthritis by cross-recognition of their mammalian HSP70 homologues, abundantly present in the MHCII ligandome of stressed mouse and human antigen-presenting cells in inflamed tissues.This article is part of the theme issue 'Heat shock proteins as modulators and therapeutic targets of chronic disease: an integrated perspective'.

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“…For instance, immunization with bacterial ( Mycobacterium tuberculosis ) or mammalian Hsp60 ameliorated or suppressed various experimental models of autoimmune diseases, e.g., adjuvant arthritis, collagen-induced arthritis, diabetes type I, or atherosclerosis in a Th2- and/or Treg-dependent way (van Eden et al 2005a , b ; Landstein et al 2015 ). Moreover, an altered peptide ligand (APL) derived from a CD4+ T cell epitope of human Hsp60 inhibited the course of murine arthritis, similarly to methotrexate (Lorenzo et al 2017 ), and increased the percentage of Treg or downregulated the secretion of pro-inflammatory IL-17 in peripheral blood mononuclear cell cultures from RA patients (Barberá et al 2016 ). Further, artificial induction of Hsp70 expression or administration of bacterial or murine Hsp70-derived peptides prevented inflammatory damage in experimental autoimmune arthritis models in a Treg- and/or IL-10-dependent way (van Eden et al 2005a , b ; Stocki and Dickinson 2012 ; Borges et al 2012 ; van Herwijnen et al 2012 ; van Eden et al 2013a , b ).…”

Section: Immunosuppressive Activity Of Hspmentioning

confidence: 99%

Heat shock proteins in the therapy of autoimmune diseases: too simple to be true?

Tukaj

Kamiński

2019

Cell Stress and Chaperones

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Autoimmune diseases are characterized by the loss of immune tolerance to self-antigens which leads to an excessive immune responses and chronic inflammation. Although much progress has been made in revealing key players in pathophysiology of various autoimmune diseases, their therapy remains challenging and consists of conventional immunosuppressive treatments, including corticosteroids and more advanced biological therapies which are targeted at molecules involved in maintaining chronic inflammation. These therapies are focused on suppressing inflammation; nevertheless, a permanent balance between protective and pathogenic immune responses is not achieved. In addition, most of currently available therapies for autoimmune diseases induce severe side effects. Consequently, more effective and safer therapies are still required to control autoimmunity. Stress-induced cell protecting heat shock proteins (HSP) have been considered as a potential treatment targets for autoimmune diseases. HSP, predominantly intracellular components, might be released from bacteria or mammalian tissues and activate immune response. This activation may lead to either production of (auto)antibodies against HSP and/or induction of immune regulatory mechanisms, including expansion of desired T regulatory (Treg) cells. Because inadequate frequency or activity of Treg is a characteristic feature of autoimmune diseases, targeting this cell population is an important focus of immunotherapy approaches in autoimmunity.

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APL1, an altered peptide ligand derived from human heat-shock protein 60, increases the frequency of Tregs and its suppressive capacity against antigen responding effector CD4 + T cells from rheumatoid arthritis patients

Cited by 21 publications

References 50 publications

Biodistribution and pharmacokinetic profiles of an altered peptide ligand derived from heat-shock proteins 60 in Lewis rats

Biodistribution and pharmacokinetic profiles of an altered peptide ligand derived from heat-shock proteins 60 in Lewis rats

Immune tolerance therapies for autoimmune diseases based on heat shock protein T-cell epitopes

Heat shock proteins in the therapy of autoimmune diseases: too simple to be true?

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