TY - JOUR
T1 - Human TCR that incorporate CD3ζ induce highly preferred pairing between TCRα and β chains following gene transfer
AU - Sebestyen, Zsolt
AU - Schooten, Erik
AU - Sals, Tamara
AU - Zaldivar, Irene
AU - San José, Esther
AU - Alarcon, Balbino
AU - Bobisse, Sara
AU - Rosato, Antonio
AU - Szollosi, Janos
AU - Gratama, Jan willem
AU - Willemsen, Ralph
AU - Debets, Reno
N1 - Copyright © 2008 by The American Association of Immunologists, Inc.
PY - 2008/6
Y1 - 2008/6
N2 - TCR gene therapy is adversely affected by newly formed TCRαβ heterodimers comprising exogenous and endogenous TCR chains that dilute expression of transgenic TCRαβ dimers and are potentially self-reactive. We have addressed TCR mispairing by using a modified two-chain TCR that encompasses total human CD3ζ with specificities for three different Ags. Transfer of either TCRα:CD3ζ or β:CD3ζ genes alone does not result in surface expression, whereas transfer of both modified TCR chains results in high surface expression, binding of peptide-MHC complexes and Ag-specific T cell functions. Genetic introduction of TCRαβ:CD3ζ does not compromise surface expression and functions of an endogenous TCRαβ. Flow cytometry fluorescence resonance energy transfer and biochemical analyses demonstrate that TCRαβ:CD3ζ is the first strategy that results in highly preferred pairing between CD3ζ-modified TCRα and β chains as well as absence of TCR mispairing between TCR:CD3ζ and nonmodified TCR chains. Intracellular assembly and surface expression of TCR:CD3ζ chains is independent of endogenous CD3γ, δ, and ε. Taken together, our data support the use of TCRαβ:CD3ζ to prevent TCR mispairing, which may provide an adequate strategy to enhance efficacy and safety of TCR gene transfer.
AB - TCR gene therapy is adversely affected by newly formed TCRαβ heterodimers comprising exogenous and endogenous TCR chains that dilute expression of transgenic TCRαβ dimers and are potentially self-reactive. We have addressed TCR mispairing by using a modified two-chain TCR that encompasses total human CD3ζ with specificities for three different Ags. Transfer of either TCRα:CD3ζ or β:CD3ζ genes alone does not result in surface expression, whereas transfer of both modified TCR chains results in high surface expression, binding of peptide-MHC complexes and Ag-specific T cell functions. Genetic introduction of TCRαβ:CD3ζ does not compromise surface expression and functions of an endogenous TCRαβ. Flow cytometry fluorescence resonance energy transfer and biochemical analyses demonstrate that TCRαβ:CD3ζ is the first strategy that results in highly preferred pairing between CD3ζ-modified TCRα and β chains as well as absence of TCR mispairing between TCR:CD3ζ and nonmodified TCR chains. Intracellular assembly and surface expression of TCR:CD3ζ chains is independent of endogenous CD3γ, δ, and ε. Taken together, our data support the use of TCRαβ:CD3ζ to prevent TCR mispairing, which may provide an adequate strategy to enhance efficacy and safety of TCR gene transfer.
UR - https://www.researchgate.net/publication/241704941_Human_TCR_That_Incorporate_CD3z_Induce_Highly_Preferred_Pairing_between_TCRa_and_b_Chains_following_Gene_Transfer1
UR - https://www.academia.edu/27880946/Human_TCR_That_Incorporate_CD3_Induce_Highly_Preferred_Pairing_between_TCR_and_Chains_following_Gene_Transfer
UR - https://europepmc.org/article/MED/18490778
U2 - 10.4049/jimmunol.180.11.7736
DO - 10.4049/jimmunol.180.11.7736
M3 - Article
C2 - 18490778
SN - 0022-1767
VL - 180
SP - 7736
EP - 7746
JO - Journal of Immunology
JF - Journal of Immunology
IS - 11
ER -