Loss of IQGAP1 did not prevent conjugate formation with target cells but it did result in a failure to reorient GSK2126458 price the microtubule
organizing centre to the immune synapse. Significantly, IQGAP1 expression was required for the perigranular accumulation of an F-actin network. IQGAP1 was shown to undergo marked rearrangements during synapse maturation in effector target conjugates of YTS or primary NK cells. These results suggest previously undescribed role(s) for IQGAP1 in regulating multiple aspects of cytoskeletal organization and granule polarization in NK cells. Natural killer (NK) cells are lymphocytes of the innate immune system that eliminate allogeneic cells and cells undergoing physiological stress due to viral, bacterial, or parasitic infection or malignant transformation 1–5. NK cells form an immunological synapse (NKIS) that serves to tether them to target cells and provide a site for the targeted delivery of lytic granules 6, 7. In order to achieve this, a series of coordinated surface and intracellular molecular RG-7388 chemical structure changes must occur within the NK cells 8. These include the polarization and patterning of surface proteins, formation of a submembranous actin matrix, and the reorientation of the microtubule organizing centre (MTOC) for the delivery and fusion of granules with the effector membrane. Once some of the granules have fused with the plasma membrane, the NK cells disengage
from their targets to repeat this process with other target cells. These processes of target cell engagement and degranulation are carefully regulated involving a coordinated sequence of events. These include extensive reorganization of NKIS surface elements to form specialized regions for membrane granule fusion 9. Concurrently, the actin and tubulin cytoskeleton and associated molecules reorganize to allow granules access to the membrane 10, 11. While many of the membrane proximal events involved in NKIS formation have been characterized, the composition Dynein of the
more distal NKIS elements has not been fully determined, in part because of the difficulties associated with the isolation of these structures. In an effort to define the NKIS composition, we previously performed a proteomic analysis of the cytoskeletal elements of an NK-like cell line YTS, with subsequent structural and bioinformatic approaches to identify candidate synapse components 12. IQGAP1was identified as one of the cytoskeletal components of the YTS cells 12. It is a large multi-domain protein with the capacity to interact with a wide range of molecular species including Rac1 and Cdc42. Contrary to its name, IQGAP1 does not display GTPase-activating properties; rather, it stabilizes the activated forms of these GTP-binding proteins 13, 14. IQGAP1 is involved in a range of cellular processes that are associated with cytoskeletal rearrangements such as polarity, adhesion, exocytosis, and motility 15–17.