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dc.contributor.advisorWittrup, K. Dane
dc.contributor.authorPalmeri, Joseph Robert
dc.date.accessioned2023-07-31T19:26:25Z
dc.date.available2023-07-31T19:26:25Z
dc.date.issued2023-06
dc.date.submitted2023-07-10T13:36:14.223Z
dc.identifier.urihttps://hdl.handle.net/1721.1/151256
dc.description.abstractWhile traditional cancer interventions such as surgery, radiation, and chemotherapy are aimed at killing or removing the tumor cells themselves, immunotherapies instead seek to establish long-lasting, robust antitumor immune responses. One approach that has shown promising results in preclinical mouse models is the use of agonist antibodies targeting costimulatory, or activating, receptors on effector immune cells, particularly CD8⁺ T cells. Translation of these therapeutics into the clinic has been hampered by severe, sometimes fatal, on-target, off-tumor toxicities. Thus, the field at large has shifted focus to developing agonist antibodies with tumor restricted activity. To that end, we developed collagen anchored agonist antibodies, an approach we have previously validated with collagen anchored cytokines. When injected directly into the tumor, these collagen anchoring therapies are preferentially retained in the tumor microenvironment (TME), enhancing efficacy while limiting systemic toxicities. We first attempted to engineer a generalizable antibody-anchoring platform by constructing fusions of IgG binding domains (IgGBs) to collagen binding domains. However, due to the weak affinity of existing IgGBs and rapid in vivo exchange with endogenous IgG, this platform underperformed at retaining agonist antibodies in the TME. We then pivoted to constructing direct agonist antibody fusions to collagen binding domains, demonstrating that this is a strategy generalizable to a range of antibody therapeutics. In vivo, we tested agonist antibodies targeting 4-1BB and CD28 fused to the collagen binding domain LAIR (α4-1BB- LAIR and αCD28-LAIR, respectively), in a range of monotherapy and combination therapies. We observed that while combination treatment of α4-1BB-LAIR with an antitumor antibody (TA99) displayed only modest efficacy in the B16F10 murine melanoma model, simultaneous depletion of CD4⁺ T cells during treatment boosted cure rates to over 90% of mice. We elucidated two mechanisms of action for this synergy: αCD4 eliminated tumor draining lymph node Tregs, enhancing priming and activation of CD8⁺ T cells, and TA99 + α4-1BB-LAIR supported the cytotoxic program of these newly primed CD8⁺ T cells within the TME. Replacement of αCD4 with αCTLA-4, a clinically approved antibody that enhances T cell priming, produced equivalent cure rates while additionally generating robust immunological memory. Together, my thesis work demonstrates that collagen anchoring is an effective strategy to improve the therapeutic index of agonist antibody therapies and furthermore uncovers a fundamental two-step approach to designing effective cancer immunotherapy combinations.
dc.publisherMassachusetts Institute of Technology
dc.rightsIn Copyright - Educational Use Permitted
dc.rightsCopyright retained by author(s)
dc.rights.urihttps://rightsstatements.org/page/InC-EDU/1.0/
dc.titleCollagen Anchoring Agonist Antibodies for Cancer Immunotherapy
dc.typeThesis
dc.description.degreePh.D.
dc.contributor.departmentMassachusetts Institute of Technology. Department of Chemical Engineering
dc.identifier.orcid0000-0002-3932-9124
mit.thesis.degreeDoctoral
thesis.degree.nameDoctor of Philosophy


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