Cbl-b inhibition promotes less differentiated phenotypes of T cells with enhanced cytokine production.

For adoptive therapy with T cell receptor engineered T (TCR-T) cells, the quantity and quality of the final cell product directly affect their anti-tumor efficacy. The post-transfer efficacy window of TCR-T cells is keen to optimizing attempts during the manufacturing process. Cbl-b is a E3 ubiquitin ligase previously shown with critical negative impact in T cell functions. This study investigated whether strategic inclusion of a commercially available small inhibitor targeting Cbl-b (Cbl-b-IN-1) prior to T cell activation could enhance the quality of the final TCR-T cell product. Examination with both PBMCs and TCR-T cells revealed that Cbl-b-IN-1 treatment promoted TCR expression efficiency, T cell proliferation potential and, specifically, cell survival capability post antigenic stimulation. Cbl-b-IN-1 exposure facilitated T cells in maintaining less differentiated states with enhanced cytokine production. Further, we found that Cbl-b-IN-1 effectively augmented the activation of TCR signaling, shown by increased phosphorylation levels of Zeta-chain-associated protein kinase 70 (ZAP70) and phospholipase c-γ1 (PLCγ1). In conclusion, our results evidence that the inclusion of Cbl-b inhibitor immediately prior to TCR-T cell activation may enhance their proliferation, survival, and function potentials, presenting an applicable optimization strategy for immunotherapy with adoptive cell transfer.

Wang J ，Han X ，Hao Y ，Chen S ，Pang B ，Zou L ，Han X ，Wang W ，Liu L ，Shen M ，Jin A ... -  《-》

Regulation of T cell development by c-Cbl: essential role of Lck.

A canonical pre-TCR/TCR signaling pathway critical for thymic T cell development involves sequential phosphorylation and signaling through Lck, Zap70, Lat and Slp76. However, we and others have previously reported that genomic deletion of c-Cbl (Cbl) partially or completely reverses the defects in thymic development in mice deficient in Zap70, Slp76, Lat or Vav1, indicating the presence of alternative pathways normally suppressed by Cbl. To further elucidate pre-TCR/TCR signaling pathways involved in thymic development, we characterized the effect of Cbl inactivation on developmental and signaling defects in mice deficient in proximal signaling molecules Lck and Zap70. Inactivation of Cbl partially reversed defective T cell development in Zap70 (-/-) mice and reversed defects in phosphorylation of Erk, Plc-γ1, Vav1 and Akt, in TCR-stimulated Cbl (-/-) Zap70 (-/-) thymocytes. Recent reports identified an essential role of Lck in associating with CD4 and CD8 coreceptors and mediating the requirement for MHC restriction in TCR recognition. Since TCR recognition has been shown to be MHC-restricted in Cbl (-/-) mice, it was of interest to determine whether the requirement for Lck remained unmodified by Cbl deletion. Indeed, in contrast to the effect of Cbl inactivation in partially or fully bypassing requirements for other TCR signaling components, inactivation of Cbl did not reverse either defective T cell development or defective phosphorylation of TCR signaling molecules in Lck (-/-) mice. Thus, Lck, which plays a unique role in enforcing MHC restriction, is essential for thymic development in presence or absence of Cbl, ensuring MHC restriction of T cells derived from either pathway.

Chiang YJ ，Hodes RJ 《-》

Cbl enforces Vav1 dependence and a restricted pathway of T cell development.

Chiang J ，Hodes RJ 《PLoS One》

K33-linked polyubiquitination of T cell receptor-zeta regulates proteolysis-independent T cell signaling.

Tagging the cell surface receptor with ubiquitin is believed to provide a signal for the endocytic pathway. E3 ubiquitin ligases such as Cbl-b and Itch have been implicated in T cell activation and tolerance induction. However, the underlying mechanisms remain unclear. We describe that in mice deficient in the E3 ubiquitin ligases Cbl-b and Itch, T cell activation was augmented, accompanied by spontaneous autoimmunity. The double-mutant T cells exhibited increased phosphorylation of the T cell receptor-zeta (TCR-zeta) chain, whereas the endocytosis and stability of the TCR complex were not affected. TCR-zeta was polyubiquitinated via a K33-linkage, which affected its phosphorylation and association with the zeta chain-associated protein kinase Zap-70. The juxtamembrane K54 residue in TCR-zeta was identified to be a primary ubiquitin conjugation site, whose mutation increased its phosphorylation and association of TCR-zeta and Zap-70. Thus, the present study reveals unconventional K33-linked polyubiquitination in nonproteolytic regulation of cell-surface-receptor-mediated signal transduction.

Huang H ，Jeon MS ，Liao L ，Yang C ，Elly C ，Yates JR 3rd ，Liu YC ... -  《-》

Cbl promotes ubiquitination of the T cell receptor zeta through an adaptor function of Zap-70.

Wang HY ，Altman Y ，Fang D ，Elly C ，Dai Y ，Shao Y ，Liu YC ... -  《JOURNAL OF BIOLOGICAL CHEMISTRY》