Katsuko Kataoka

Human Coronavirus 229E Binds to CD13 in Rafts and Enters the Cell through Caveolae

ABSTRACT CD13, a receptor for human coronavirus 229E (HCoV-229E), was identified as a major component of the Triton X-100-resistant membrane microdomain in human fibroblasts. The incubation of living fibroblasts with an anti-CD13 antibody on ice gave punctate labeling that was evenly distributed on the cell surface, but raising the temperature to 37°C before fixation caused aggregation of the labeling. The aggregated labeling of CD13 colocalized with caveolin-1 in most cells. The HCoV-229E virus particle showed a binding and redistribution pattern that was similar to that caused by the anti-CD13 antibody: the virus bound to the cell evenly when incubated on ice but became colocalized with caveolin-1 at 37°C; importantly, the virus also caused sequestration of CD13 to the caveolin-1-positive area. Electron microscopy confirmed that HCoV-229E was localized near or at the orifice of caveolae after incubation at 37°C. The depletion of plasmalemmal cholesterol with methyl β-cyclodextrin significantly reduced the HCoV-229E redistribution and subsequent infection. A caveolin-1 knockdown by RNA interference also reduced the HCoV-229E infection considerably. The results indicate that HCoV-229E first binds to CD13 in the Triton X-100-resistant microdomain, then clusters CD13 by cross-linking, and thereby reaches the caveolar region before entering cells.

Neural stem cells improve learning and memory in rats with Alzheimer's disease.

Objective: We investigated whether neural stem cells (NSC) with transgenic expression of human nerve growth factor (hNGF) transplanted into the brain could offer a therapeutic option for the treatment of Alzheimer’s disease (AD). Methods: We infused okadaic acid into rat lateral ventricles to establish a chronic AD animal model. In addition, NSC were stably transduced with hNGF and enhanced green fluorescent protein (eGFP) genes (NSC-hNGF-eGFP) by using a recombination adeno-associated virus serotype 2 (rAAV2) vector. These genetically modified stem cells were grafted into the cerebral cortex of AD rats. Results: AD model rats showed significant damage in learning and memory function, with the formation of senile plaques and neurofibrillary tangles in the cerebral cortex. The transferred hNGF gene conferred stable and high levels of protein expression in NSC in vitro. Moreover, the NSC-hNGF-eGFP, but not the NSC, survived, integrating into the host brain and enhancing cognitive performance after transplantation. Conclusion: The injection of okadaic acid into rat lateral ventricles constitutes a promising animal model for investigating selective aspects of AD. rAAV2-mediated hNGF delivery can render long-term and stable transduction of hNGF in NSC. NSC-hNGF-eGFP transplantation may offer a viable therapeutic approach for treatment of AD.

Novel Electrical Stimulation Sets the Cultured Myoblast Contractile Function to ‘On’

Objective: In the present study, the effect of electrical stimulation was examined for the ability to induce morphological, physiological, and molecular biological effects on myoblasts during cell differentiation. Methods: L6 rat myoblasts were electrically stimulated by newly developed methods on culture days 6, 8, 10 and 12. Results: This electrical stimulation accelerated the appearance of myotubes, and subsequently produced spontaneously contracting muscle fibers. Measurement of membrane potential showed that the contracting cell had functional ion channels and gap junctional intercellular communication. In the electrically stimulated cells, an enhanced expression of MyoD family and M-cadherin was also observed. Expression of connexin 43 was increased and maintained at a high level in the electrically stimulated cells. Conclusion: This is the first demonstration of in vitro induction of myoblasts in spontaneously contractile muscle fibers by intermittent stimulation. This novel method for induction of myoblast differentiation represents an important advance in cell therapy.

DIFFERENTIATION OF MYOBLASTS IS ACCELERATED IN CULTURE IN A MAGNETIC FIELD

SummaryWe developed a new cell stimulation method in which magnetic microparticles (MPs) were introduced into the cytoplasm of cultured myoblasts and the cells were cultured in a magnetic field. The differentiation of myoblasts was examined from the viewpoint of their morphology and myogenin production. After exposure to the magnetic field, the cells containing MPs became larger and were elongated along the axis of the magnetic poles. Myogenin, a muscle-specific regulatory factor involved in controlling myogenesis, was formed earlier, and myotubes were seen earlier and more frequently in this group of myoblasts than in the other groups (cells alone without magnetic field, cells containing MPs but without magnetic field, and cells alone with magnetic field). Moreover, we succeeded in differentiation of early muscle cells with striated myofibrils in culture at 0.05 T. The precisely quantitative and stable stimulus induced by a magnetic field developed in the present study offers a new approach to elucidate the entire process of myoblast differentiation into myotubes.

CELL DIFFERENTIATION AND p38MAPK CASCADE ARE INHIBITED IN HUMAN OSTEOBLASTS CULTURED IN A THREE-DIMENSIONAL CLINOSTAT

SummaryA three-dimensional (3D) clinostat is a device for multidirectional G force generation. By controlled rotation of two axes, a 3D clinostat cancels the cumulative gravity vector at the center of the device and produces an environment with an average of 10−3 G over time. We cultured a human osteoblast cell line in a 3D clinostat and examined the growth properties and differentiation of the cells, including morphology, histological detection of calcification, and mitogenactivated protein kinase (MAPK) cascades. In a normal 1G condition, alkaline phosphatase (AIPase) activity was detected on day 7 of culture, bone nodules were formed on day 12, and calcium deposits were seen on day 20. In the 3D clinostat, the cell looked larger and bulged. AIPase activity was detected on day 10 of culture. However, neither bone nodules nor calcification was found in the 3D clinostat up to day 21. The expression levels of core-binding factor A1 (a transcription factor for bone formation) and osteocalcin (a bone matrix protein) increased in the control culture but decreased in culture in 3D clinostat. Phosphorylation of p38MARK (p38) was repressed in culture in 3D clinostat, whereas total p38 as well as total and phosphorylated forms of extracellular signal-regulated kinases and stress-activated protein kinase/jun N-terminal kinase were not changed in the 3D clinostat. When a p38 inhibitor, SB 203580, was added to the culture medium in a normal 1 G environment, AIPase activity and formation of bone nodules and calcium deposits were strongly inhibited. On the other hand, they were inhibited only partially by a MARK kinase inhibitor, U-0126. On the basis of these results, it is concluded that (1) osteoblast differentiation is inhibited in culture in a 3D clinostat and (2) this inhibition is mainly due to the suppression of p38 phophorylation.

Immunocytochemical study of pepsinogen 1-producing cells in the fundic mucosa of the stomach in developing mice.

SummaryDevelopment and maturation of pepsinogen 1-producing cells were studied in the gastric fundic mucosa of the mouse by means of light- and electron-microscopic immunocytochemistry using rabbit anti-rat pepsinogen 1-serum. In the adult mouse, secretory granules in mucous neck cells, transitional mucous neck/chief cells and chief cells are immunolabeled. The numerical density of gold particles on zymogen granules is not significantly altered among different stages of maturation of chief cells. In addition, rough endoplasmic reticulum and Golgi complex of these cell types show a weak labeling. In mice from day 16 of gestation to postnatal day 14 mucous neck cells and chief cells cannot be distinguished, but only one type of pepsinogen 1-producing cell, called ‘primitive chief cell’, is identified in the fundic gland. The intensity of immunoreactivity of secretory granules in primitive chief cells is uniform within an individual cell but varies greatly among different cells. The majority of primitive chief cells contains weakly labeled granules regardless of the maturation stage of cells or of animals. On postnatal day 21, mucous neck, transitional and chief cells are distinguishable, and secretory granules in these cells are intensely immunolabeled as in the adult. These results suggest that pepsinogen 1-production rapidly increases with differentiation of mucouse neck and chief cells.

The fine structural localization of peroxidase activity in digestive organs of rats and mice

SummaryAn endogenous peroxidase activity is demonstrated in acinar cells of the salivary gland and epithelial cells of the colonic crypt of normal rats and mice using electron microscopic histochemistry. The main site of the enzymatic activity is cisternae of the rough endoplasmic reticulum including those of the nuclear envelope, while the intensity of the activity is greatly variable among cell types. Some vesicular and cisternal elements of the Golgi apparatus and secretory granules exhibit the reaction, but it is not consistent in all cells with the peroxidase-positive endoplasmic reticulum. It is very interesting that the peroxidase activity is positive in the rough endoplasmic reticulum-Golgi complex-secretory granule system (EGG system) of the cells located at the beginning and the end of the digestive tract. This suggests a peroxidase-dependent anti-infectious mechanism.Some large and small membrane-limited non-secretory granules and mitochondria also reacted.

Characterization of proteins secreted from a Type III secretion system of Edwardsiella tarda and their roles in macrophage infection

The Type III secretion system is essential for intracellular replication of Edwardsiella tarda in phagocytes of fish and mammals. We identified the secreted proteins of the Type III secretion system by comparing the wild-type strain and the Type III mutant mET1229. The wild-type strain secreted 55, 25, and 22 kDa proteins into the culture supernatant, whereas the Type III mutant did not. These proteins were identified as EseB, EseC, and EseD and are similar in sequence to Salmonella SseB, SseC, and SseD that function as a translocon. The EseB, EseC, and EseD knockout mutants did not replicate in murine macrophages, suggesting that these proteins are essential for intracellular replication of E. tarda. Highest secretion of EseBCD proteins was observed when bacterial cells were cultured in neutral and alkaline pHs but not in acidic pH. When the pH of the phagosomes was examined using an acidotropic probe, the phagosomes containing the wild-type strain showed neutral pH, whereas those containing the Type III mutant exhibited acidic pH. These results suggest that the Type III-dependent interference with formation of the acidic environment in phagosomes is essential for intracellular replication of bacteria in murine macrophages.

The fine structure of the proliferative cells of the mouse intestine as revealed by electron microscopic autoradiography with 3H-thymidine

SummaryThe duodenal and colonic epithelia in mice were observed with electron microscopic autoradiography 2, 5 and 24 hours after a single injection of 3H-thymidine. After 2 hours, in the duodenum, silver grains are found in many undifferentiated cells, in a few young goblet cells, in some crystal-containing cells, and in some lymphocytes. In the colon after 2 hours silver grains are seen in some undifferentiated cells, and in many young goblet cells. Undifferentiated cells are characterized by a few short microvilli, poorly developed rough-surfaced endoplasmic reticulum, abundant free ribosomes, and a few apical moderately dense granules. In normal animals, absorptive cells seem to arise from undifferentiated cells, and goblet cells — from younger goblet cells. Undifferentiated cells could also become young goblet cells. Crystal-containing cells, which may not be of epithelial origin, proliferate in the epithelium in the adult animal.

Correlative Morphometric and Biochemical Study on Pancreatic Amylase in Normal and Streptozotocin-Diabetic Rats

The number, volume, and size of zymogen granules in pancreatic acinar cells of normal and streptozotocin-diabetic rats were measured using stereological techniques. These morphometric data were then correlated with the amylase activity of the acinar cells. In the normal rats, the acinar cells had a mean volume of 1,253.5 microns 3 and contained 343 zymogen granules, which occupied a volume of 103 microns 3 of the cell (8.28%). In the diabetic rats, the mean acinar cell volume was estimated as 1,017 microns 3 and the cell contained 220 zymogen granules, which occupied a volume of 55.8 microns 3 (5.38%). The cell volume and zymogen granule number and volume were 19, 36, and 46%, respectively, more in normal rat pancreas, while no difference in the size of zymogen granules between normal and diabetic rats was observed. On the other hand, the volume density and numerical densities of acinar cell nuclei were slightly larger in the diabetic rats, but no differences in the nuclear size between normal and diabetic rats were recorded. Biochemically, the amylase activity of diabetic rat pancreas was 37% less than that of normal rats. The present results indicate the impairment of pancreatic amylase production in streptozotocin-diabetic rats, and the correspondence between the morphometrical and the biochemical data indicates that amylase is processed intracellularly in membrane-bound compartments.