Modeling the Structure of Keratin 1 and 10 Terminal Domains and their Misassembly in Keratoderma.

The terminal domains of suprabasal keratins of the skin epithelium are very resistant to evidence-based structural analysis because of their inherent flexibility and lack of predictable structure. We present a model for the structure and interactions of the head and tail domains of epidermal keratins 1 and 10, based on all-atom 3D simulations of keratin primary amino acid sequences, and tyrosine phosphorylation predictions, extracted from published databases. We observed that keratin 1 and 10 end domains are likely to form a tetrameric terminal domain complex incorporating a reversibly extendable region potentially acting as a molecular spring. This structure is formed by intermolecular stacking of aromatic residues, which would spatially constrain the keratin 1/keratin 10 end domains to allow filament compaction and bundling, whilst also retaining extensibility to ensure flexibility of the keratin filament network in the differentiating epidermis. The tetrameric terminal domain complex model may also help to elucidate the effects of mutations in the end domains of suprabasal keratins and so contribute to understanding of the mechanisms leading to keratinopathies such as striate palmoplantar keratoderma, as reported in this study.

Mechanisms of resistance and adaptation to thapsigargin in androgen-independent prostate cancer PC3 and DU145 cells.

Cells with increasing resistance to the sarcoplasmic/endoplasmic reticulum Ca(2+)-ATPase (SERCA) inhibitor thapsigargin (TG), ranging from 60-fold (PC3/TG(10) cells) to 1350-fold (PC3/TG(2000) cells), were derived from PC3 cells. SERCA2 is overexpressed in all PC3/TG cells but retains sensitivity to TG. siRNA-mediated downregulation of SERCA completely or partially reverses TG resistance in PC3/TG(10) or PC3/TG(2000) cells, respectively; thus SERCA overexpression mediates resistance in PC3/TG(10) cells but is not the only resistance mechanism in PC3/TG(2000) cells. By contrast, SERCA is not overexpressed in TG-resistant DU145/TG cells derived from DU145 cells. DU145/TG cells retain resistance while in PC3/TG cells resistance decreases upon removal of TG selection. The transport proteins PGP/BCRP/MRP1 and anti-apoptotic proteins Bcl2/Bcl(XL) are not involved in mediating resistance in either cell line. PARP and caspase 3 cleavage in response to other drugs demonstrate that the apoptotic pathways tested remain intact in these cells. Further, no cross-resistance occurs to other drugs. Thus, novel TG-specific resistance mechanisms are recruited by these cancer cells.