In Vitro Assembly Kinetics of Cytoplasmic Intermediate Filaments: A Correlative Monte Carlo Simulation Study.

Intermediate filament (IF) elongation proceeds via full-width "mini-filaments", referred to as "unit-length" filaments (ULFs), which instantaneously form by lateral association of extended coiled-coil complexes after assembly is initiated. In a comparatively much slower process, ULFs longitudinally interact end-to-end with other ULFs to form short filaments, which further anneal with ULFs and with each other to increasingly longer filaments. This assembly concept was derived from time-lapse electron and atomic force microscopy data. We previously have quantitatively verified this concept through the generation of time-dependent filament length-profiles and an analytical model that describes assembly kinetics well for about the first ten minutes. In this time frame, filaments are shorter than one persistence length, i.e. ~1 µm, and thus filaments were treated as stiff rods associating via their ends. However, when filaments grow several µm in length over hours, their flexibility becomes a significant factor for the kinetics of the longitudinal annealing process. Incorporating now additional filament length distributions that we have recorded after extended assembly times by total internal reflection fluorescence microscopy (TIRFM), we developed a Monte Carlo simulation procedure that accurately describes the underlying assembly kinetics for large time scales.

The influence of plectin deficiency on stability of cytokeratin18 in hepatocellular carcinoma.

Intermediate filaments are important in building the cellular architecture. Previously we found cytokeratin18 was modulated in human hepatocellular carcinoma. Plectin is a cross-linking protein that organizes the cytoskeleton into a stable meshwork, which can maintain the uniform size and shape of hepatocytes. Because the cells of hepatocellular carcinoma were morphologically different from the hepatocytes, we speculated that expression of plectin and organization of intermediate filament might play roles in the pleomorphism of hepatocellular carcinoma cells. In this paper, we studied the plectin expression of hepatocellular carcinoma and liver tissues by immunohistochemistry and immunoblot. The results revealed that plectin was deficient and cytokeratin18 was modulated in hepatocellular carcinoma. Furthermore, we knockdown the plectin mRNA in Chang cells, the result revealed the plectin was deficient and the organization of cytokeratin18 was altered. Conclusively, this study offers a hypothesis that plectin deficient might play an important role in the tumorigenesis of hepatocellular carcinoma.

A mutation of keratin 18 within the coil 1A consensus motif causes widespread keratin aggregation but cell type-restricted lethality in mice.

Mutations in genes encoding epidermal keratins cause skin disorders, while those in internal epithelial keratins, such as K8 and K18, are risk factors for liver diseases. The effect of dominant mutations in K8 or K18 during embryonic development and tissue homeostasis has not been examined so far. Here we demonstrate that the dominant mutation hK18 R89C, that is highly similar to hK14 R125C, causing EBS in humans, leads to cell type-specific lethality in mice, depending on the ratio of mutant to endogenous keratins. Mice expressing hK18 R89C in the absence of endogenous K19 and K18 died at mid-gestation from defects in trophoblast giant cells, accompanied by haematomas. A single, endogenous K18 allele rescued embryonic lethality but caused aggregation of keratins in all adult internal epithelia, surprisingly without spontaneous cell fragility. Closer analysis revealed that both filaments and aggregates coexisted in the same cell, depending on the ratio of mutant to endogenous keratins. Our results demonstrate that balanced overexpression of a wild-type keratin rescued the lethal consequences of a dominant-negative mutation. This has important implications for therapy approaches of keratinopathies, suggesting that suppressing the mutant allele is not necessary in vivo.