An antigen-specific immunotherapeutic, AKS-107, deletes insulin-specific B cells and prevents murine autoimmune diabetes
The antigen-presenting cell function of insulin-reactive B cells promotes type 1 diabetes (T1D) in non-obese diabetic (NOD) mice by stimulating pathogenic T cells leading to destruction of insulin-producing β-cells of pancreatic islets. To target insulin-reactive B cells, AKS-107, a human IgG1 Fc mo...
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| Published in | Frontiers in immunology Vol. 15; p. 1367514 |
|---|---|
| Main Authors | , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Switzerland
Frontiers Media S.A
07.03.2024
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1664-3224 1664-3224 |
| DOI | 10.3389/fimmu.2024.1367514 |
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| Abstract | The antigen-presenting cell function of insulin-reactive B cells promotes type 1 diabetes (T1D) in non-obese diabetic (NOD) mice by stimulating pathogenic T cells leading to destruction of insulin-producing β-cells of pancreatic islets.
To target insulin-reactive B cells, AKS-107, a human IgG1 Fc molecule fused with human insulin A and B chains, was engineered to retain conformational insulin epitopes that bound mouse and human B cell receptors but prevented binding to the insulin metabolic receptor. AKS-107 Fc-mediated deletion of insulin-reactive B cells was demonstrated
and
experiments with insulin-reactive B cell receptor transgenic mouse strains, VH125Tg/NOD and Tg125(H+L)/NOD. As an additional immune tolerance feature, the Y16A mutation of the insulin B
dominant T cell epitope was engineered into AKS-107 to suppress activation of insulin-specific T cells. In mice and non-human primates, AKS-107 was well-tolerated, non-immunogenic, did not cause hypoglycemia even at high doses, and showed an expectedly protracted pharmacokinetic profile. AKS-107 reproducibly prevented spontaneous diabetes from developing in NOD and VH125Tg/NOD mice that persisted for months after cessation of treatment, demonstrating durable immune tolerance.
These preclinical outcomes position AKS-107 for clinical development in T1D prevention settings. |
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| AbstractList | The antigen-presenting cell function of insulin-reactive B cells promotes type 1 diabetes (T1D) in non-obese diabetic (NOD) mice by stimulating pathogenic T cells leading to destruction of insulin-producing β-cells of pancreatic islets.IntroductionThe antigen-presenting cell function of insulin-reactive B cells promotes type 1 diabetes (T1D) in non-obese diabetic (NOD) mice by stimulating pathogenic T cells leading to destruction of insulin-producing β-cells of pancreatic islets.To target insulin-reactive B cells, AKS-107, a human IgG1 Fc molecule fused with human insulin A and B chains, was engineered to retain conformational insulin epitopes that bound mouse and human B cell receptors but prevented binding to the insulin metabolic receptor. AKS-107 Fc-mediated deletion of insulin-reactive B cells was demonstrated via ex vivo and in vivo experiments with insulin-reactive B cell receptor transgenic mouse strains, VH125Tg/NOD and Tg125(H+L)/NOD. As an additional immune tolerance feature, the Y16A mutation of the insulin B(9-23) dominant T cell epitope was engineered into AKS-107 to suppress activation of insulin-specific T cells. In mice and non-human primates, AKS-107 was well-tolerated, non-immunogenic, did not cause hypoglycemia even at high doses, and showed an expectedly protracted pharmacokinetic profile. AKS-107 reproducibly prevented spontaneous diabetes from developing in NOD and VH125Tg/NOD mice that persisted for months after cessation of treatment, demonstrating durable immune tolerance.Methods/ResultsTo target insulin-reactive B cells, AKS-107, a human IgG1 Fc molecule fused with human insulin A and B chains, was engineered to retain conformational insulin epitopes that bound mouse and human B cell receptors but prevented binding to the insulin metabolic receptor. AKS-107 Fc-mediated deletion of insulin-reactive B cells was demonstrated via ex vivo and in vivo experiments with insulin-reactive B cell receptor transgenic mouse strains, VH125Tg/NOD and Tg125(H+L)/NOD. As an additional immune tolerance feature, the Y16A mutation of the insulin B(9-23) dominant T cell epitope was engineered into AKS-107 to suppress activation of insulin-specific T cells. In mice and non-human primates, AKS-107 was well-tolerated, non-immunogenic, did not cause hypoglycemia even at high doses, and showed an expectedly protracted pharmacokinetic profile. AKS-107 reproducibly prevented spontaneous diabetes from developing in NOD and VH125Tg/NOD mice that persisted for months after cessation of treatment, demonstrating durable immune tolerance.These preclinical outcomes position AKS-107 for clinical development in T1D prevention settings.DiscussionThese preclinical outcomes position AKS-107 for clinical development in T1D prevention settings. The antigen-presenting cell function of insulin-reactive B cells promotes type 1 diabetes (T1D) in non-obese diabetic (NOD) mice by stimulating pathogenic T cells leading to destruction of insulin-producing β-cells of pancreatic islets. To target insulin-reactive B cells, AKS-107, a human IgG1 Fc molecule fused with human insulin A and B chains, was engineered to retain conformational insulin epitopes that bound mouse and human B cell receptors but prevented binding to the insulin metabolic receptor. AKS-107 Fc-mediated deletion of insulin-reactive B cells was demonstrated and experiments with insulin-reactive B cell receptor transgenic mouse strains, VH125Tg/NOD and Tg125(H+L)/NOD. As an additional immune tolerance feature, the Y16A mutation of the insulin B dominant T cell epitope was engineered into AKS-107 to suppress activation of insulin-specific T cells. In mice and non-human primates, AKS-107 was well-tolerated, non-immunogenic, did not cause hypoglycemia even at high doses, and showed an expectedly protracted pharmacokinetic profile. AKS-107 reproducibly prevented spontaneous diabetes from developing in NOD and VH125Tg/NOD mice that persisted for months after cessation of treatment, demonstrating durable immune tolerance. These preclinical outcomes position AKS-107 for clinical development in T1D prevention settings. IntroductionThe antigen-presenting cell function of insulin-reactive B cells promotes type 1 diabetes (T1D) in non-obese diabetic (NOD) mice by stimulating pathogenic T cells leading to destruction of insulin-producing β-cells of pancreatic islets.Methods/ResultsTo target insulin-reactive B cells, AKS-107, a human IgG1 Fc molecule fused with human insulin A and B chains, was engineered to retain conformational insulin epitopes that bound mouse and human B cell receptors but prevented binding to the insulin metabolic receptor. AKS-107 Fc-mediated deletion of insulin-reactive B cells was demonstrated via ex vivo and in vivo experiments with insulin-reactive B cell receptor transgenic mouse strains, VH125Tg/NOD and Tg125(H+L)/NOD. As an additional immune tolerance feature, the Y16A mutation of the insulin B(9-23) dominant T cell epitope was engineered into AKS-107 to suppress activation of insulin-specific T cells. In mice and non-human primates, AKS-107 was well-tolerated, non-immunogenic, did not cause hypoglycemia even at high doses, and showed an expectedly protracted pharmacokinetic profile. AKS-107 reproducibly prevented spontaneous diabetes from developing in NOD and VH125Tg/NOD mice that persisted for months after cessation of treatment, demonstrating durable immune tolerance.DiscussionThese preclinical outcomes position AKS-107 for clinical development in T1D prevention settings. |
| Author | Ragupathy, Ramya Bonami, Rachel H. Alleva, David G. Atkinson, Mark A. Yu, Liping Delpero, Andrea R. Sathiyaseelan, Thillainaygam Lancaster, Thomas M. Zion, Todd C. Murikipudi, Sylaja Wasserfall, Clive H. |
| AuthorAffiliation | 3 Barbara Davis Center for Diabetes, School of Medicine, University of Colorado , Aurora, CO , United States 2 Departments of Pathology, Immunology, and Laboratory Medicine, College of Medicine, and Diabetes Institute, The University of Florida , Gainesville, FL , United States 6 Vanderbilt Center for Immunobiology, Vanderbilt University Medical Center , Nashville, TN , United States 5 Department of Pathology, Microbiology, and Immunology, Vanderbilt University Medical Center , Nashville, TN , United States 4 Division of Rheumatology and Immunology, Department of Medicine, Vanderbilt University Medical Center , Nashville, TN , United States 1 Department of Pharmacology, Akston Biosciences, Inc. , Beverly, MA , United States 7 Vanderbilt Institute for Infection, Immunology, and Inflammation, Vanderbilt University Medical Center , Nashville, TN , United States |
| AuthorAffiliation_xml | – name: 5 Department of Pathology, Microbiology, and Immunology, Vanderbilt University Medical Center , Nashville, TN , United States – name: 4 Division of Rheumatology and Immunology, Department of Medicine, Vanderbilt University Medical Center , Nashville, TN , United States – name: 7 Vanderbilt Institute for Infection, Immunology, and Inflammation, Vanderbilt University Medical Center , Nashville, TN , United States – name: 1 Department of Pharmacology, Akston Biosciences, Inc. , Beverly, MA , United States – name: 6 Vanderbilt Center for Immunobiology, Vanderbilt University Medical Center , Nashville, TN , United States – name: 2 Departments of Pathology, Immunology, and Laboratory Medicine, College of Medicine, and Diabetes Institute, The University of Florida , Gainesville, FL , United States – name: 3 Barbara Davis Center for Diabetes, School of Medicine, University of Colorado , Aurora, CO , United States |
| Author_xml | – sequence: 1 givenname: David G. surname: Alleva fullname: Alleva, David G. – sequence: 2 givenname: Andrea R. surname: Delpero fullname: Delpero, Andrea R. – sequence: 3 givenname: Thillainaygam surname: Sathiyaseelan fullname: Sathiyaseelan, Thillainaygam – sequence: 4 givenname: Sylaja surname: Murikipudi fullname: Murikipudi, Sylaja – sequence: 5 givenname: Thomas M. surname: Lancaster fullname: Lancaster, Thomas M. – sequence: 6 givenname: Mark A. surname: Atkinson fullname: Atkinson, Mark A. – sequence: 7 givenname: Clive H. surname: Wasserfall fullname: Wasserfall, Clive H. – sequence: 8 givenname: Liping surname: Yu fullname: Yu, Liping – sequence: 9 givenname: Ramya surname: Ragupathy fullname: Ragupathy, Ramya – sequence: 10 givenname: Rachel H. surname: Bonami fullname: Bonami, Rachel H. – sequence: 11 givenname: Todd C. surname: Zion fullname: Zion, Todd C. |
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| Keywords | type 1 diabetes antigen specific immunotherapeutic autoimmunity autoreactive B cell insulin Fc-fusion protein insulin autoantigen |
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| Snippet | The antigen-presenting cell function of insulin-reactive B cells promotes type 1 diabetes (T1D) in non-obese diabetic (NOD) mice by stimulating pathogenic T... IntroductionThe antigen-presenting cell function of insulin-reactive B cells promotes type 1 diabetes (T1D) in non-obese diabetic (NOD) mice by stimulating... |
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| SubjectTerms | antigen specific immunotherapeutic autoimmunity autoreactive B cell Fc-fusion protein Immunology insulin autoantigen type 1 diabetes |
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| Title | An antigen-specific immunotherapeutic, AKS-107, deletes insulin-specific B cells and prevents murine autoimmune diabetes |
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