Proteasome assembly: Biting the hand…

AbstractProteasome assembly is regulated to ensure the enzyme is inactive until its active sites are compartmentalized within an interior aqueous chamber. In yeast, this depends on a dedicated chaperone that is trapped within the nascent proteasome, and degraded on maturation of the proteolytic subunits

Surveying the Down syndrome mouse model resource identifies critical regions responsible for chronic otitis media

Chronic otitis media (OM) is common in Down syndrome (DS), but underlying aetiology is unclear. We analysed the entire available mouse resource of partial trisomy models of DS looking for histological evidence of chronic middle-ear inflammation. We found a highly penetrant OM in the Dp(16)1Yey mouse, which carries a complete trisomy of MMU16. No OM was found in the Dp(17)1Yey mouse or the Dp(10)1Yey mouse, suggesting disease loci are located only on MMU16. The Ts1Cje, Ts1RhR, Ts2Yah, and Ts65Dn trisomies and the transchomosomic Tc1 mouse did not develop OM. On the basis of these findings, we propose a two-locus model for chronic middle-ear inflammation in DS, based upon epistasis of the regions of HSA21 not in trisomy in the Tc1 mouse. We also conclude that environmental factors likely play an important role in disease onset

Protein Binding and Disruption by Clp/Hsp100 Chaperones

Clp/Hsp100 chaperones work with other cellular chaperones and proteases to control the quality and amounts of many intracellular proteins. They employ an ATP-dependent protein unfoldase activity to solubilize protein aggregates or to target specific classes of proteins for degradation. The structural complexity of Clp/Hsp100 proteins combined with the complexity of the interactions with their macromolecular substrates presents a considerable challenge to understanding the mechanisms by which they recognize and unfold substrates and deliver them to downstream enzymes. Fortunately, high-resolution structural data is now available for several of the chaperones and their functional partners, which together with mutational data on the chaperones and their substrates has provided a glimmer of light at the end of the Clp/Hsp100 tunnel