Cullin-RING ubiquitin ligases (CRLs) comprise the largest known category of ubiquitin ligases. CRLs regulate an extensive number of dynamic cellular processes, including multiple aspects of the cell cycle, transcription, signal transduction, and development. CRLs are multisubunit complexes composed of a cullin, RING H2 finger protein, a variable substrate-recognition subunit (SRS), and for most CRLs, an adaptor that links the SRS to the complex. Eukaryotic species contain multiple cullins, with five major types in metazoa. Each cullin forms a distinct class of CRL complex, with distinct adaptors and/or substrate-recognition subunits. Despite this diversity, each of the classes of CRL complexes is subject to similar regulatory mechanisms. This review focuses on the global regulation of CRL complexes, encompassing: neddylation, deneddylation by the COP9 Signalosome (CSN), inhibitory binding by CAND1, and the dimerization of CRL complexes. We also address the role of cycles of activation and inactivation in regulating CRL activity and switching between substrate-recognition subunits.
Cullin-RING ubiquitin ligases (CRLs) are critical regulators of multiple developmental and cellular processes in eukaryotes. CAND1 is a biochemical inhibitor of CRLs, yet has been shown to promote CRL activity in plant and mammalian cells. Here we analyze CAND1 function in the context of a developing metazoan organism. C. elegans CAND-1 is capable of binding to all of the cullins, and we show that it physically interacts with CUL-2 and CUL-4 in vivo. The covalent attachment of the ubiquitin-like protein Nedd8 is required for cullin activity in animals and plants. In cand-1 mutants, the levels of the neddylated isoforms of CUL-2 and CUL-4 are increased, indicating that CAND-1 is a negative regulator of cullin neddylation. cand-1 mutants are hypersensitive to the partial loss of cullin activity, suggesting that CAND-1 facilitates CRL functions. cand-1 mutants exhibit impenetrant phenotypes, including developmental arrest, morphological defects of the vulva and tail, and reduced fecundity. cand-1 mutants share with cul-1 and lin-23 mutants the phenotypes of supernumerary seam cell divisions, defective alae formation, and the accumulation of the SCFLIN-23 target the glutamate receptor GLR-1. The observation that cand-1 mutants have phenotypes associated with the loss of the SCFLIN-23 complex, but lack phenotypes associated with other specific CRL complexes, suggests that CAND-1 is differentially required for the activity of distinct CRL complexes.
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