Dual-Sized Microparticle System for Generating Suppressive Dendritic Cells Prevents and Reverses Type 1 Diabetes in the Nonobese Diabetic Mouse Model

Lewis, Jamal S.; Stewart, Joshua M.; Marshall, Gregory P.; Carstens, Matthew R.; Zhang, Ying; Dolgova, Natalia V.; Xia, Chang-Qing; Brusko, Todd M.; Wasserfall, Clive; Clare‐Salzler, Michael; Atkinson, Mark A.; Keselowsky, Benjamin G.

doi:10.1021/acsbiomaterials.9b00332

Cited by 62 publications

(112 citation statements)

References 73 publications

(129 reference statements)

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“…[ 91 ] A modification of this system increased the amounts of TGF‐ β and GM‐CSF and used denatured insulin as antigen (Table 1). [ 92 ] Encapsulation, antigen, tolerogenic, and recruitment factors were all required, otherwise the treatment was no longer effective. When the new formulation was administered weekly via subcutaneous injection, for 3 weeks, followed by four monthly booster injections, it was able to delay T1D onset in 8‐week‐old NOD mice, with 60% of mice remaining diabetes‐free.…”

Section: Biomaterials and Particle‐based Drug Delivery And Immune Modmentioning

confidence: 99%

“…When the new formulation was administered weekly via subcutaneous injection, for 3 weeks, followed by four monthly booster injections, it was able to delay T1D onset in 8‐week‐old NOD mice, with 60% of mice remaining diabetes‐free. [ 92 ] This delay in onset was associated with increased PD‐1 on CD4 + and CD8 + T cells as well as an increase in CD11b + CD11c + DCs in the draining lymph nodes. Additionally, three subcutaneous administrations during the week of onset, followed by weekly booster injections for three weeks, temporarily reversed T1D in recent onset diabetes, for up to 100 days.…”

Section: Biomaterials and Particle‐based Drug Delivery And Immune Modmentioning

confidence: 99%

“…Additionally, three subcutaneous administrations during the week of onset, followed by weekly booster injections for three weeks, temporarily reversed T1D in recent onset diabetes, for up to 100 days. [ 92 ]…”

Section: Biomaterials and Particle‐based Drug Delivery And Immune Modmentioning

confidence: 99%

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Nano and Microparticle Emerging Strategies for Treatment of Autoimmune Diseases: Multiple Sclerosis and Type 1 Diabetes

Kwiatkowski

Stewart

Cho

et al. 2020

Adv Healthcare Materials

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Autoimmune diseases affect 10% of the world's population, and 1 in 200 people worldwide suffer from either multiple sclerosis (MS) or type 1 diabetes (T1D). While the targeted organ systems are different, MS and T1D share similarities in terms of autoreactive immune cells playing a critical role in pathogenesis. Both diseases can be managed only symptomatically without curative remission, and treatment options are limited and non‐specific. Most current therapies cause some degree of systemic immune suppression, leaving the patients susceptible to opportunistic infections and other complications. Thus, there is considerable interest in the development of immunotherapies not associated with generalized immune suppression for these diseases. This review presents current and preclinical strategies for MS and T1D treatment, emphasizing those aimed to modulate the immune response, including the most recent strategies for tolerance induction. A central focus is on the emerging approaches using nano‐ and microparticle platforms, their evolution as immunotherapeutic carriers, including those incorporating specific antigens to induce tolerance and reduce unwanted generalized immune suppression.

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Section: Biomaterials and Particle‐based Drug Delivery And Immune Modmentioning

confidence: 99%

Section: Biomaterials and Particle‐based Drug Delivery And Immune Modmentioning

confidence: 99%

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Nano and Microparticle Emerging Strategies for Treatment of Autoimmune Diseases: Multiple Sclerosis and Type 1 Diabetes

Kwiatkowski

Stewart

Cho

et al. 2020

Adv Healthcare Materials

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“…The field has called for the use of combination therapies as a potentially more effective strategy to augment T cell targeted agents (15)(16)(17)(18)(19). To address this, we developed a novel biomaterial therapy to deliver immunomodulatory agents along with autoantigen as a means to recruit and tolerize dendritic cells (DCs) for robust antigen-specific T cell tolerance (20,21). Here, we extensively characterized human immune cell responses in vitro as an important bridge to clinical translation for this novel dual sized microparticle (dMP) formulation.…”

Section: Introductionmentioning

confidence: 99%

“…This carefully selected combination of tolerogenic agents and disease-relevant autoantigen, delivered via PLGA MP encapsulation for subcutaneous injection, has been tested in two murine models of antigen-specific autoimmunity. This therapy successfully prevented diabetes in NOD mice and reduced disease severity in an early treatment model of experimental autoimmune encephalomyelitis (EAE) (21,51). Often, efficacy in mouse models does not scale to trials in human subjects, highlighting the need for in vitro preclinical assays to test dose-response in target cells, as well as off-target or unexpected effects (52).…”

Section: Introductionmentioning

confidence: 99%

Immunomodulatory Dual-Sized Microparticle System Conditions Human Antigen Presenting Cells Into a Tolerogenic Phenotype In Vitro and Inhibits Type 1 Diabetes-Specific Autoreactive T Cell Responses

et al. 2020

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Current monotherapeutic agents fail to restore tolerance to self-antigens in autoimmune individuals without systemic immunosuppression. We hypothesized that a combinatorial drug formulation delivered by a poly-lactic-co-glycolic acid (PLGA) dual-sized microparticle (dMP) system would facilitate tunable drug delivery to elicit immune tolerance. Specifically, we utilized 30 µm MPs to provide local sustained release of granulocyte-macrophage colony-stimulating factor (GM-CSF) and transforming growth factor b1 (TGF-b1) along with 1 µm MPs to facilitate phagocytic uptake of encapsulated antigen and 1a,25(OH) 2 Vitamin D 3 (VD3) followed by tolerogenic antigen presentation. We previously demonstrated the dMP system ameliorated type 1 diabetes (T1D) and experimental autoimmune encephalomyelitis (EAE) in murine models. Here, we investigated the system's capacity to impact human cell activity in vitro to advance clinical translation. dMP treatment directly reduced T cell proliferation and inflammatory cytokine production. dMP delivery to monocytes and monocyte-derived dendritic cells (DCs) increased their expression of surface and intracellular anti-inflammatory mediators. In co-culture, dMP-treated DCs (dMP-DCs) reduced allogeneic T cell receptor (TCR) signaling and proliferation, while increasing PD-1 expression, IL-10 production, and regulatory T cell (Treg) frequency. To model antigen-specific activation and downstream function, we co-cultured TCR-engineered autoreactive T cell "avatars," with dMP-DCs or control DCs followed by b-cell line (ßlox5) target cells. For G6PC2-specific CD8 + avatars (clone 32), dMP-DC exposure reduced Granzyme B and dampened cytotoxicity. GAD65reactive CD4 + avatars (clone 4.13) exhibited an anergic/exhausted phenotype with dMP

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Networks of High Aspect Ratio Particles to Direct Colloidal Assembly Dynamics and Cellular Interactions

Finbloom

Demaree

Abate

et al. 2020

Adv Funct Materials

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Injectable colloids that self-assemble into 3D networks are promising materials for applications in regenerative engineering, as they create open systems for cellular infiltration, interaction, and activation. However, most injectable colloids have spherical morphologies, which lack the high material-biology contact areas afforded by higher aspect ratio materials. To address this need, injectable high aspect ratio particles (HARPs) are developed that form 3D networks to enhance scaffold assembly dynamics and cellular interactions. HARPs are functionalized for tunable surface charge through layer-by-layer electrostatic assembly. Positively charged chitosan-HARPs have improved particle suspension dynamics when compared to spherical particles or negatively charged HARPs. Chit-HARPs are used to improve the suspension dynamics and viability of MIN6 cells in 3D networks. When combined with negatively charged gelatin microsphere (GelMS) porogens, chit-HARPs reduce GelMS sedimentation and increase overall network suspension, due to a combination of HARP network formation and electrostatic interactions. Lastly, HARPs are functionalized with fibroblast growth factor 2 (FGF2) to highlight their use for growth factor delivery. FGF2-HARPs increase fibroblast proliferation through a combination of 3D scaffold assembly and growth factor delivery. Taken together, these studies demonstrate the development and diverse uses of high aspect ratio particles as tunable injectable scaffolds for applications in regenerative engineering.

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Dual-Sized Microparticle System for Generating Suppressive Dendritic Cells Prevents and Reverses Type 1 Diabetes in the Nonobese Diabetic Mouse Model

Cited by 62 publications

References 73 publications

Nano and Microparticle Emerging Strategies for Treatment of Autoimmune Diseases: Multiple Sclerosis and Type 1 Diabetes

Nano and Microparticle Emerging Strategies for Treatment of Autoimmune Diseases: Multiple Sclerosis and Type 1 Diabetes

Immunomodulatory Dual-Sized Microparticle System Conditions Human Antigen Presenting Cells Into a Tolerogenic Phenotype In Vitro and Inhibits Type 1 Diabetes-Specific Autoreactive T Cell Responses

Networks of High Aspect Ratio Particles to Direct Colloidal Assembly Dynamics and Cellular Interactions

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