A screenable in vivo assay to study proteostasis networks in Caenorhabditis elegans.

In eukaryotic cells, the ubiquitin/proteasome system (UPS) is a key determinant of proteostasis as it regulates the turnover of damaged proteins. However, it is still unclear how the UPS integrates intrinsic and environmental challenges to promote organismal development and survival. Here, we set up an in vivo degradation assay to facilitate the genetic identification of ubiquitin-dependent proteolysis pathways in the multicellular organism Caenorhabditis elegans. Using this assay, we found that mild induction of protein-folding stress, which is nontoxic for wild-type worms, strongly reduces ubiquitin-dependent protein turnover. Ubiquitin-mediated degradation is also reduced by metabolic stress, which correlates with life-span extension. Unlike other stress conditions, however, acute heat stress results in enhanced rather than reduced proteolysis. Intriguingly, our study provides the first evidence for the existence of tissue-specific degradation requirements because loss of key regulators of the UPS, such as proteasomal subunits, causes accumulation of the model substrate, depending on the tissue type. Thus, here we establish a screenable degradation assay that allows diverse genetic screening approaches for the identification of novel cell-type-specific proteostasis networks important for developmental processes, stress response, and aging, thereby substantially extending the work on recently described mechanistic UPS reporter studies.

Ichthyosis, follicular atrophoderma, and hypotrichosis caused by mutations in ST14 is associated with impaired profilaggrin processing.

Congenital ichthyosis encompasses a heterogeneous group of disorders of cornification. Isolated forms and syndromic ichthyosis can be differentiated. We have analyzed two consanguineous families from the United Arab Emirates and Turkey with an autosomal recessive syndrome of diffuse congenital ichthyosis, patchy follicular atrophoderma, generalized and diffuse nonscarring hypotrichosis, marked hypohidrosis, and woolly hair (OMIM 602400). By genome-wide analysis, we found a homozygous interval on chromosome 11q24-q25 and obtained a LOD score of 4.0 at D11S910. We identified a homozygous splice-site mutation in the Arab patients and a frame-shift deletion in the Turkish patient in the gene suppression of tumorigenicity-14 (ST14). The product of ST14, matriptase, is a type II transmembrane serine protease synthesized in most human epithelia. Two missense mutations in ST14 were recently described in patients with a phenotype of ichthyosis and hypotrichosis, indicating diverse activities of matriptase in the epidermis and hair follicles. Here we have further demonstrated the loss of matriptase in differentiated patient keratinocytes, reduced proteolytic activation of prostasin, and disturbed processing of profilaggrin. As filaggrin monomers play a pivotal role in epidermal barrier formation, these findings reveal the link between congenital disorders of keratinization and filaggrin processing in the human skin.