跳轉至內容
Merck
  • Oxidative-stress-induced T lymphocyte hyporesponsiveness is caused by structural modification rather than proteasomal degradation of crucial TCR signaling molecules.

Oxidative-stress-induced T lymphocyte hyporesponsiveness is caused by structural modification rather than proteasomal degradation of crucial TCR signaling molecules.

European journal of immunology (2003-07-29)
Saso Cemerski, Joost P M van Meerwijk, Paola Romagnoli
摘要

In several human pathologies (e.g. cancer, rheumatoid arthritis, AIDS and leprosy) oxidative stress induces T cell hyporesponsiveness. Hyporesponsive T cells often appear to display impaired expression of some (e.g. TCR-zeta, p56(lck) and LAT) but not all (e.g. TCR-alphabeta and CD3-epsilon) crucial TCR-proximal signaling molecules but the underlying mechanisms have as yet not been identified. Using an in vitro system for oxidative-stress-induced T cell hyporesponsiveness we here report two sequential effects of oxidative stress on TCR signaling molecules: protein alterations and proteasomal degradation. We have identified the C-terminal part of TCR-zeta and the membrane-proximal domain of p56(lck) as potential targets for modifications induced by reactive oxygen species. Oxidative-stress-exposed proteins were differentially susceptible to proteasomal degradation: whereas modified TCR-zeta was relatively resistant, reactive oxygen species (ROS)-altered LAT and p56(lck) were much more susceptible. Importantly, we found that T cell hyporesponsiveness best correlated with ROS-dependent protein alteration since inhibition of proteasomal degradation did not restore function. Finally, our data provide an explanation for the paradox of reduced TCR-zeta signals combined with unaltered TCR-alphabeta and CD3-epsilon expression levels: the TCR-zeta chain in hyporesponsive T cells is still expressed but no longer detectable by certain mAb recognizing ROS-sensitive epitopes.

材料
產品編號
品牌
產品描述

Sigma-Aldrich
抗Lck抗体, Upstate®, from rabbit