Kidins220 promotes thymic iNKT cell development by reducing TCR signals, but enhances TCR signals in splenic iNKT cells

Abstract

AbstractThe stepwise development of thymic invariant natural killer T (iNKT) cells is controlled by the TCR signal strength. The scaffold protein Kinase D interacting substrate of 220 kDa (Kidins220) binds to the TCR regulating TCR signaling. T cell-specific Kidins220 knock-out (T-KO) mice contain severely decreased iNKT numbers. Very early in iNKT development TCR signals are reduced in the T-KO. In later steps, TCR signaling is increased in the T-KO leading to enhanced apoptosis of iNKT cells. Kidins220’s absence affects the iNKT1 subset most as it requires the weakest TCR signals for development. We also show that in iNKT1 development, weak TCR signals promote the progressive loss of CD4. In the periphery, Kidins220 switches its role back to promoting TCR signaling as splenic T-KO iNKT cells produce less cytokines and show reduced TCR signaling after in vivo stimulation with α-galactosylceramide. In conclusion, Kidins220 promotes or inhibits TCR signaling depending on the developmental context.summary statementWe demonstrate that the transmembrane scaffold protein Kidins220 switches its role twice in iNKT cell biology: from a positive to a negative regulator of TCR signal strength during thymic development and back to a positive regulator in the periphery.