Volume 10, Nº 6 (2016)

The novel human embryonic stem cell (hESC) subline SC6-FF was derived from SC6 cells in an allogenic feeder-free culture system. Key components of the feeder-free culture system were extracellular matrix proteins and conditioned medium from the mesenchymal stem cell line SC5-MSC. These conditions are allogenic for SC6-FF cells. SC6-FF subline underwent more than one hundred cell population doublings and retained a normal diploid karyotype; 46, XX. The average population doubling time was 23.7 ± 0.8 h, similar to that of the parent SC6 line. The presence of undifferentiated hESC markers (alkaline phosphatase activity, Oct-4, SSEA-4, and TRA-1-60) was verified by histochemistry and immunofluorescence. Cells were distinguished from parental cells in size and morphology as a result of spontaneous differentiation. These cells exhibited the ability to differentiate into derivates of three germ layers by expressing common markers of the ectoderm (alpha-fetoprotein), mesoderm (a-actinin) and endoderm (a-fetoprotein) cells. We could conclude that characteristics of the novel feeder-free SC6-FF subline correspond to the status of human embryonic stem cells.

The aim of this study was to examine the collagen-stimulating effect of ascorbic acid on the growth of the Parieten ProGrip implanted synthetic hernia prosthesis. The characteristics of collagenogenesis in the anterior abdominal wall were assayed with polarized microscopy. We suggest a new way to stimulate a reparation process with ascorbic acid that will help to optimize forming functionally matured structures of connective tissue of the anterior abdominal wall surrounding endoprosthesis. The results of our investigation show that vitamin C has a positive effect on the collagen synthesis in the periprosthetic capsule for any type of endoprosthesis. This was proven by the statistically significant increase in the ratio of collagen I and III types with vitamin C to the animal diet.

Interaction of the dye Congo red (CR) with fibrils of three model proteins—hen egg lysozyme, recombinant human beta 2-microglobulin (b2M), and recombinant human transthyretin (TTR)—has been investigated using spectrophotometry. Considerable amounts of impurities were detected in the commercial dye formulation. A procedure of dye purification has been developed. The molar extinction coefficient of the dye at 490 nm (ε₄₉₀) has been measured; the coefficient was 3.3 × 10⁴ M^–1 cm^–1 at pH > 6.0. The formation of a complex between CR and the fibrils was accompanied by a change in the absorption spectrum of the dye in the visible wavelength range. Titration of fibril solutions with excessive amounts of dye showed that the number of CR molecules bound to a protein monomer within the lysozyme fibrils was close to five, whereas the respective ratio for b2M was close to four, and the ratio for TTR fibrils was close to four molecules per protein subunit.

The characteristics of elongation, branching, septation, and nuclear morphology in hyphal tips (of ~400 μm in length) of the mycelial fungus Neurospora crassa isolated from the mycelium and cultivated for several hours have been investigated using intracellular fluorescent markers. The newly formed branches had the following characteristic features: (1) the predefined orientation was conserved, whereas the diameter decreased (from 10–20 to 6.5 ± 0.4 μm), as did the elongation rate (from 24 ± 1 to 6.7 ± 0.5 μm/min); (2) a disturbed branching pattern with abnormally large internodal distances (up to 1471 μm) and developmental arrest of part of the buds of lateral branches; and (3) a conserved septation pattern and a relatively constant length of hyphal segments (68 ± 2 μm). The size of the nucleus-free zone at the tip (5–33 μm) and the distance between the first septum and the growth point (210 ± 15 μm) in the daughter branches of the isolated fragments were almost the same as in hyphae connected to the mycelium, whereas the average distance between the growth point and the first lateral branch (492 ± 127 μm) and the variability of this parameter were higher in the isolated fragments. The morphology of the nuclei and the size of the nucleus-free zone near the growth point did not differ from those reported for normal vegetative hyphae of N. crassa. The experimental model developed may be used for the elucidation of details of molecular genetic mechanisms that underlie the regulation of interactions between the intracellular structures that provide tip growth of the hyphae in N. crassa.