Jungmin Lee scite author profile

Chimeric antigen receptor (CAR) T cells are ineffective against solid tumors with immunosuppressive microenvironments. To overcome suppression, we engineered circuits in which tumor-specific synNotch receptors locally induce production of the cytokine IL-2. These circuits potently enhance CAR T cell infiltration and clearance of immune-excluded tumors, without systemic toxicity. The most effective IL-2 induction circuit acts in an autocrine and T cell receptor (TCR)- or CAR-independent manner, bypassing suppression mechanisms including consumption of IL-2 or inhibition of TCR signaling. These engineered cells establish a foothold in the target tumors, with synthetic Notch–induced IL-2 production enabling initiation of CAR-mediated T cell expansion and cell killing. Thus, it is possible to reconstitute synthetic T cell circuits that activate the outputs ultimately required for an antitumor response, but in a manner that evades key points of tumor suppression.

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Rational Design of a Bifunctional AND-Gate Ligand To Modulate Cell–Cell Interactions

Lee

Vernet

Redfield

et al. 2019

ACS Synth. Biol.

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Protein "AND-gate" systems, in which a ligand acts only on cells with two different receptors, direct signaling activity to a particular cell type and avoid action on other cells. In a bifunctional AND-gate protein, the molecular geometry of the protein domains is crucial. Here we constructed a tissuetargeted erythropoietin (EPO) that stimulates red blood cell (RBC) production without triggering thrombosis. The EPO was directed to RBC precursors and mature RBCs by fusion to an anti-glycophorin A antibody V region. Many such constructs activated EPO receptors in vitro and stimulated RBC and not platelet production in mice but nonetheless enhanced thrombosis in mice and caused adhesion between RBCs and EPO-receptor-bearing cells. On the basis of a protein-structural model of the RBC surface, we rationally designed an antiglycophorin−EPO fusion that does not induce cell adhesion in vitro or enhance thrombosis in vivo. Thus, mesoscale geometry can inform the design of synthetic-biological systems.

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Rational engineering of an erythropoietin fusion protein to treat hypoxia

Lee

Vernet

Gruber

et al. 2021

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Erythropoietin enhances oxygen delivery and reduces hypoxia-induced cell death, but its pro-thrombotic activity is problematic for use of erythropoietin in treating hypoxia. We constructed a fusion protein that stimulates red blood cell production and neuroprotection without triggering platelet production, a marker for thrombosis. The protein consists of an anti-glycophorin A nanobody and an erythropoietin mutant (L108A). The mutation reduces activation of erythropoietin receptor homodimers that induce erythropoiesis and thrombosis, but maintains the tissue-protective signaling. The binding of the nanobody element to glycophorin A rescues homodimeric erythropoietin receptor activation on red blood cell precursors. In a cell proliferation assay, the fusion protein is active at 10−14 M, allowing an estimate of the number of receptor–ligand complexes needed for signaling. This fusion protein stimulates erythroid cell proliferation in vitro and in mice, and shows neuroprotective activity in vitro. Our erythropoietin fusion protein presents a novel molecule for treating hypoxia.

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Jungmin Lee

Synthetic cytokine circuits that drive T cells into immune-excluded tumors

Rational Design of a Bifunctional AND-Gate Ligand To Modulate Cell–Cell Interactions

Rational engineering of an erythropoietin fusion protein to treat hypoxia

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