Profiling Localized Immunomodulation and Drug Biodistribution within a Subcutaneous Vascularized Niche for Cell Transplantation

Jocelyn Nikita Campa-Carranza; Simone Capuani; Melissa A. Willman; Alexander Rabassa; Ashley L. Joubert; Tommaso Bo; Letizia Franco; Marzia Conte; Ana L. Anaya-García; Gabrielle E. Rome; Rim Ouni; Henry J. Seaborne; Camden A. Caffey; Dora M. Berman; Junjun Zheng; Jesus Paez-Mayorga; Corrine Ying Xuan Chua; Shu-Hsia Chen; Norma S. Kenyon; Alessandro Grattoni

doi:10.1002/advs.202520914

Profiling Localized Immunomodulation and Drug Biodistribution within a Subcutaneous Vascularized Niche for Cell Transplantation

Jocelyn Nikita Campa-Carranza, Simone Capuani, Melissa A. Willman, Alexander Rabassa, Ashley L. Joubert, Tommaso Bo, Letizia Franco, Marzia Conte, Ana L. Anaya-García, Gabrielle E. Rome, Rim Ouni, Henry J. Seaborne, Camden A. Caffey, Dora M. Berman, Junjun Zheng, Jesus Paez-Mayorga, Corrine Ying Xuan Chua, Shu-Hsia Chen, Norma S. Kenyon, Alessandro Grattoni

Research output: Contribution to journal › Article › peer-review

Abstract

Systemic immunosuppression remains essential for preventing allogeneic transplant rejection, but its chronic use causes substantial toxicity. Conceptually, local, site-specific immunomodulation offers a promising alternative, yet comparative mechanistic insight into how immunosuppressants behave when delivered directly to the graft is lacking. Here, we leveraged the Neovascularized Implantable Cell Homing and Encapsulation (NICHE) device, a subcutaneous, vascularized cell-encapsulation platform, as a spatially defined and reproducible model to study local immunomodulation in allogeneic islet transplantation. We systematically profiled the safety, local and systemic immunomodulatory effects, pharmacokinetics, and longitudinal biodistribution of five clinically relevant agents delivered locally at the graft site: CTLA4-Ig, anti-lymphocyte serum, anti-CD40L, anti-CD2, and anti-IL6. Sustained in situ exposure did not impair islet viability or function, and immunosuppressants were confined within the graft, with up to 100-fold lower systemic concentrations. Individual agents produced distinct immune signatures, spanning lymphocyte depletion and shifts in T-cell activation that can guide rational, mechanism-informed combinations for allogeneic cell transplantation. These findings provide a comparative framework for evaluating localized immunosuppression with the potential to transform immunoprotection in cell therapy.

Original language	English (US)
Journal	Advanced Science
DOIs	https://doi.org/10.1002/advs.202520914
State	E-pub ahead of print - Mar 6 2026

Keywords

cell encapsulation
cell therapy
drug biodistribution
immunomodulation
islet transplantation
localized immunosuppression
pharmacokinetics

ASJC Scopus subject areas

Medicine (miscellaneous)
General Chemical Engineering
Biochemistry, Genetics and Molecular Biology (miscellaneous)
General Materials Science
General Engineering
General Physics and Astronomy

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10.1002/advs.202520914

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Campa-Carranza, J. N., Capuani, S., Willman, M. A., Rabassa, A., Joubert, A. L., Bo, T., Franco, L., Conte, M., Anaya-García, A. L., Rome, G. E., Ouni, R., Seaborne, H. J., Caffey, C. A., Berman, D. M., Zheng, J., Paez-Mayorga, J., Chua, C. Y. X., Chen, S.-H., Kenyon, N. S., & Grattoni, A. (2026). Profiling Localized Immunomodulation and Drug Biodistribution within a Subcutaneous Vascularized Niche for Cell Transplantation. Advanced Science. Advance online publication. https://doi.org/10.1002/advs.202520914

Campa-Carranza, JN, Capuani, S, Willman, MA, Rabassa, A, Joubert, AL, Bo, T, Franco, L, Conte, M, Anaya-García, AL, Rome, GE, Ouni, R, Seaborne, HJ, Caffey, CA, Berman, DM, Zheng, J, Paez-Mayorga, J, Chua, CYX , Chen, S-H, Kenyon, NS & Grattoni, A 2026, 'Profiling Localized Immunomodulation and Drug Biodistribution within a Subcutaneous Vascularized Niche for Cell Transplantation', Advanced Science. https://doi.org/10.1002/advs.202520914

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title = "Profiling Localized Immunomodulation and Drug Biodistribution within a Subcutaneous Vascularized Niche for Cell Transplantation",

abstract = "Systemic immunosuppression remains essential for preventing allogeneic transplant rejection, but its chronic use causes substantial toxicity. Conceptually, local, site-specific immunomodulation offers a promising alternative, yet comparative mechanistic insight into how immunosuppressants behave when delivered directly to the graft is lacking. Here, we leveraged the Neovascularized Implantable Cell Homing and Encapsulation (NICHE) device, a subcutaneous, vascularized cell-encapsulation platform, as a spatially defined and reproducible model to study local immunomodulation in allogeneic islet transplantation. We systematically profiled the safety, local and systemic immunomodulatory effects, pharmacokinetics, and longitudinal biodistribution of five clinically relevant agents delivered locally at the graft site: CTLA4-Ig, anti-lymphocyte serum, anti-CD40L, anti-CD2, and anti-IL6. Sustained in situ exposure did not impair islet viability or function, and immunosuppressants were confined within the graft, with up to 100-fold lower systemic concentrations. Individual agents produced distinct immune signatures, spanning lymphocyte depletion and shifts in T-cell activation that can guide rational, mechanism-informed combinations for allogeneic cell transplantation. These findings provide a comparative framework for evaluating localized immunosuppression with the potential to transform immunoprotection in cell therapy.",

keywords = "cell encapsulation, cell therapy, drug biodistribution, immunomodulation, islet transplantation, localized immunosuppression, pharmacokinetics",

author = "Campa-Carranza, \{Jocelyn Nikita\} and Simone Capuani and Willman, \{Melissa A.\} and Alexander Rabassa and Joubert, \{Ashley L.\} and Tommaso Bo and Letizia Franco and Marzia Conte and Anaya-Garc{\'i}a, \{Ana L.\} and Rome, \{Gabrielle E.\} and Rim Ouni and Seaborne, \{Henry J.\} and Caffey, \{Camden A.\} and Berman, \{Dora M.\} and Junjun Zheng and Jesus Paez-Mayorga and Chua, \{Corrine Ying Xuan\} and Shu-Hsia Chen and Kenyon, \{Norma S.\} and Alessandro Grattoni",

note = "Publisher Copyright: {\textcopyright} 2026 The Author(s). Advanced Science published by Wiley-VCH GmbH.",

year = "2026",

month = mar,

day = "6",

doi = "10.1002/advs.202520914",

language = "English (US)",

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T1 - Profiling Localized Immunomodulation and Drug Biodistribution within a Subcutaneous Vascularized Niche for Cell Transplantation

AU - Campa-Carranza, Jocelyn Nikita

AU - Capuani, Simone

AU - Willman, Melissa A.

AU - Rabassa, Alexander

AU - Joubert, Ashley L.

AU - Bo, Tommaso

AU - Franco, Letizia

AU - Conte, Marzia

AU - Anaya-García, Ana L.

AU - Rome, Gabrielle E.

AU - Ouni, Rim

AU - Seaborne, Henry J.

AU - Caffey, Camden A.

AU - Berman, Dora M.

AU - Zheng, Junjun

AU - Paez-Mayorga, Jesus

AU - Chua, Corrine Ying Xuan

AU - Chen, Shu-Hsia

AU - Kenyon, Norma S.

AU - Grattoni, Alessandro

PY - 2026/3/6

Y1 - 2026/3/6

N2 - Systemic immunosuppression remains essential for preventing allogeneic transplant rejection, but its chronic use causes substantial toxicity. Conceptually, local, site-specific immunomodulation offers a promising alternative, yet comparative mechanistic insight into how immunosuppressants behave when delivered directly to the graft is lacking. Here, we leveraged the Neovascularized Implantable Cell Homing and Encapsulation (NICHE) device, a subcutaneous, vascularized cell-encapsulation platform, as a spatially defined and reproducible model to study local immunomodulation in allogeneic islet transplantation. We systematically profiled the safety, local and systemic immunomodulatory effects, pharmacokinetics, and longitudinal biodistribution of five clinically relevant agents delivered locally at the graft site: CTLA4-Ig, anti-lymphocyte serum, anti-CD40L, anti-CD2, and anti-IL6. Sustained in situ exposure did not impair islet viability or function, and immunosuppressants were confined within the graft, with up to 100-fold lower systemic concentrations. Individual agents produced distinct immune signatures, spanning lymphocyte depletion and shifts in T-cell activation that can guide rational, mechanism-informed combinations for allogeneic cell transplantation. These findings provide a comparative framework for evaluating localized immunosuppression with the potential to transform immunoprotection in cell therapy.

AB - Systemic immunosuppression remains essential for preventing allogeneic transplant rejection, but its chronic use causes substantial toxicity. Conceptually, local, site-specific immunomodulation offers a promising alternative, yet comparative mechanistic insight into how immunosuppressants behave when delivered directly to the graft is lacking. Here, we leveraged the Neovascularized Implantable Cell Homing and Encapsulation (NICHE) device, a subcutaneous, vascularized cell-encapsulation platform, as a spatially defined and reproducible model to study local immunomodulation in allogeneic islet transplantation. We systematically profiled the safety, local and systemic immunomodulatory effects, pharmacokinetics, and longitudinal biodistribution of five clinically relevant agents delivered locally at the graft site: CTLA4-Ig, anti-lymphocyte serum, anti-CD40L, anti-CD2, and anti-IL6. Sustained in situ exposure did not impair islet viability or function, and immunosuppressants were confined within the graft, with up to 100-fold lower systemic concentrations. Individual agents produced distinct immune signatures, spanning lymphocyte depletion and shifts in T-cell activation that can guide rational, mechanism-informed combinations for allogeneic cell transplantation. These findings provide a comparative framework for evaluating localized immunosuppression with the potential to transform immunoprotection in cell therapy.

KW - cell encapsulation

KW - cell therapy

KW - drug biodistribution

KW - immunomodulation

KW - islet transplantation

KW - localized immunosuppression

KW - pharmacokinetics

UR - https://www.scopus.com/pages/publications/105032154033

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U2 - 10.1002/advs.202520914

DO - 10.1002/advs.202520914

M3 - Article

AN - SCOPUS:105032154033

SN - 2198-3844

JO - Advanced Science

JF - Advanced Science

ER -

Profiling Localized Immunomodulation and Drug Biodistribution within a Subcutaneous Vascularized Niche for Cell Transplantation

Abstract

Keywords

ASJC Scopus subject areas

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