👤 M Kühl

The neuronal ceroid lipofuscinoses (Batten disease) are collectively the most common inherited neurodegenerative disorder of childhood. Mouse models of neuronal ceroid lipofuscinosis represent a powerful resource for investigating the underlying disease mechanisms, which remain poorly understood. Here we present a new rostrocaudal analysis of regional brain volume rather than focusing on central nervous system structures that can be affected. This has revealed an earlier onset of regional atrophy than was suspected in infantile neuronal ceroid lipofuscinosis (or CLN1 disease, infantile), with a greater involvement of rostral structures. We have also provided the first description of regional atrophy in severely affected mice with the juvenile variant (CLN3 disease, juvenile). These data reveal new perspectives on how the central nervous system is affected in these disorders, which have implications for judging the efficacy of therapeutic strategies in preclinical studies. Show less

Control of stability of beta-catenin is central in the wnt signaling pathway. Here, the protein conductin was found to form a complex with both beta-catenin and the tumor suppressor gene product adenomatous polyposis coli (APC). Conductin induced beta-catenin degradation, whereas mutants of conductin that were deficient in complex formation stabilized beta-catenin. Fragments of APC that contained a conductin-binding domain also blocked beta-catenin degradation. Thus, conductin is a component of the multiprotein complex that directs beta-catenin to degradation and is located downstream of APC. In Xenopus embryos, conductin interfered with wnt-induced axis formation. Show less