Substantial CCT activity is required for cell cycle progression and cytoskeletal organization in mammalian cells

The chaperonin CCT hexadecamer is required for the folding of non-native actins and tubulins in eukaryotic cells. Among the consequences of greatly reducing CCT holocomplex levels in human cell lines by siRNA targeting are growth arrest and changes in cell morphology and motility. Less extensive reduction of CCT activity via microinjection of an inhibitory anti-CCT epsilon subunit monoclonal antibody, which alters the rates of substrate processing by CCT in vitro, causes a delay in cell cycle progression through G1/S phase in synchronized Swiss 3T3 cells. The degree of growth arrest strongly correlates with the extent of CCT depletion, indicating that full CCT activity is required for normal cell growth and division. Depletion of CCT does not affect actin polypeptide synthesis but causes a reduction in levels of native actin and perturbation of actin-based cell motility in BE cells. There are no large-scale effects on cytoplasmic protein synthesis or a general heat shock response during periods of low CCT activity. (c) 2006 Elsevier Inc. All rights reserved

Interactions between the actin filament capping and severing protein gelsolin and the molecular chaperone CCT: evidence for nonclassical substrate interactions

CCT is a member of the chaperonin family of molecular chaperones and consists of eight distinct subunit species which occupy fixed positions within the chaperonin rings. The activity of CCT is closely linked to the integrity of the cytoskeleton as newly synthesized actin and tubulin monomers are dependent upon CCT to reach their native conformations. Furthermore, an additional role for CCT involving interactions with assembling/assembled microfilaments and microtubules is emerging. CCT is also known to interact with other proteins, only some of which will be genuine folding substrates. Here, we identify the actin filament remodeling protein gelsolin as a CCT-binding partner, and although it does not behave as a classical folding substrate, gelsolin binds to CCT with a degree of specificity. In cultured cells, the levels of CCT monomers affect levels of gelsolin, suggesting an additional link between CCT and the actin cytoskeleton that is mediated via the actin filament severing and capping protein gelsolin