Cell Structure and Function Volume 22, Issue 4

Regulation of Intracellular pH in Sea Urchin Eggs by Medium Containing Both Weak Acid and Base

To establish a method of pH_i regulation and to understand the pH regulation mechanism in the cell, we investigated the pH_i response of unfertilized or fertilized eggs of sea urchin, applying sea water containing both weak permeant acid, acetic acid and/or base, ammonia, to eggs. Pyranine was employed as a pH indicator to measure intracellular pH (pH_i) by microfluorometry. The unfertilized/fertilized eggs had a pH_i of 6.80/7.34 and 6.81/7.32 for Schaphechinus mirabilis and Hemicentrotus pulcherrimus, respectively. With the addition of both acetic acid and ammonia to the media, pH_i changed linearly against extracellular pH (pH_o) between 6-8 and was almost equal to pH_o at the concentration of 20 mM acetate and ammonia. This mixed application was proved to be available for regulating pH_i at the desired value within a wide range involving the original pH_i by a single solution system. pH_i after the treatment was dependent on various factors, such as the concentration of the weak acid and base, the pH_i before the treatment, and pH buffering power in the cytoplasm. The latter was estimated to be 43 mM and 58 mM in unfertilized and fertilized eggs, respectively, from the measurement of pH_i change induced by microinjecting a HEPES solution, assuming that the pH buffering power is caused by phosphate.

Spontaneous Polyploidization Results in Apoptosis in a Meth-A Tumor Cell Line

Cultured Meth-A cells always include a small fraction of large cells, which had a DNA content above 4c (polyploid cells). The process from the formation to the disintegration of polyploid Meth-A cells was measured by means of time-lapse videography. Polyploid Meth-A cells arose spontaneously from normal cells (polyploidization), then died by apoptosis. The fraction of polyploid cells gradually increased in seven day-exponential cultures with a low concentration of demecolcine, which is a specific inhibitor of cell division. The results revealed that the polyploid Meth-A cells are generated from normal cells by failing cell division and that they die by apoptosis.

Strain Specific Production of a Negative Regulator of IL-3 (NIL-3): Difference in the Negative Feedback Mechanism of Hemopoiesis among Mouse Strains

The producing cells of the negative regulator of interleukin-3 (NIL-3) were investigated. The 5-fluorouracil-treated bone marrow cells did not produce NIL-3. The bone marrow cells of stem cell-depleted W/W^V mouse did not produce the NIL-3, either.
The production of NIL-3 was different among mouse strains. Mice of C3H/HeN, A/J and ICR strains produced NIL-3, but the C57BL/6 mice did not produce NIL-3. These results indicate that the negative feedback mechanism of hemopoiesis is different among mouse strains.
In the present study, we could not definitely identify the NIL-3 producing cells, although the present results are suggestive that the stem cells in cycle are a NIL-3 producer. Instead, we found that hemopoietic regulatory mechanisms might be different among mouse strains, especially in C57BL/6 mice.

Binding of Lectins to Novel Migration Promoters on Cardiac Mesenchymal Cells in the Chick

Chicken serum promotes migration of cardiac mesenchymal cells of chick embryos in vitro. In the present study, migration promotion of unknown migration promoters in chicken serum was examined by using lectins. Cardiac mesenchymal cells of the conotruncal and atrioventricular cushions were cultured on collagen type-I gel with medium including chicken serum. A concentration (100 μg/ml) of Concanavalin A (Con A), peanut agglutinin (PNA), pisum sativum agglutinin (PSA), soybean agglutinin (SBA) or wheat germ agglutinin (WGA) was added to the medium. Con A, PSA, and WGA inhibited migration, while PNA and SBA did not affect migration of cardiac mesenchymal cells. WGA inhibited migration in a concentration dependent manner. Preincubation of WGA with specific binding monosaccharides (α-D-N-acetylglucosamine and α-D-N-acetylneuraminic acid) clearly reduced the inhibition ability of WGA, while preincubation of Con A and PSA with α-Dmannose and α-D-glucose did not. On the other hand, Con A-binding proteins, eluted from a Con A affinity column with the buffer including α-D-mannose and α-D-glucose, promoted migration of cardiac mesenchymal cells, as did WGA-binding proteins. These proteins promoted migration in a concentration dependent manner. Western blotting showed that PSA bound the subunits of collagen type-I, b¥it ConA and WGA did not. In migration inhibition assays by monosaccharides, only N-acetylneuraminic acid inhibited migration of cardiac mesenchymal cells. These results suggested that chicken serum contains novel migration promoters for chick cardiac mesenchymal cells. The promoters are proposed to have the terminal N-acetylglucosamine, N-acetylneuraminic acid, and glucose and/or mannose residues.Chicken serum promotes migration of cardiac mesenchymal cells of chick embryos in vitro. In the present study, migration promotion of unknown migration promoters in chicken serum was examined by using lectins. Cardiac mesenchymal cells of the conotruncal and atrioventricular cushions were cultured on collagen type-I gel with medium including chicken serum. A concentration (100 μg/ml) of Concanavalin A (Con A), peanut agglutinin (PNA), pisum sativum agglutinin (PSA), soybean agglutinin (SBA) or wheat germ agglutinin (WGA) was added to the medium. Con A, PSA, and WGA inhibited migration, while PNA and SBA did not affect migration of cardiac mesenchymal cells. WGA inhibited migration in a concentration dependent manner. Preincubation of WGA with specific binding monosaccharides (α-D-N-acetylglucosamine and α-D-N-acetylneuraminic acid) clearly reduced the inhibition ability of WGA, while preincubation of Con A and PSA with α-Dmannose and α-D-glucose did not. On the other hand, Con A-binding proteins, eluted from a Con A affinity column with the buffer including α-D-mannose and α-D-glucose, promoted migration of cardiac mesenchymal cells, as did WGA-binding proteins. These proteins promoted migration in a concentration dependent manner. Western blotting showed that PSA bound the subunits of collagen type-I, b¥it ConA and WGA did not. In migration inhibition assays by monosaccharides, only N-acetylneuraminic acid inhibited migration of cardiac mesenchymal cells. These results suggested that chicken serum contains novel migration promoters for chick cardiac mesenchymal cells. The promoters are proposed to have the terminal N-acetylglucosamine, N-acetylneuraminic acid, and glucose and/or mannose residues.

Inhibition of Mitochondria! Protein Synthesis Impaired C2C12 Myoblast Differentiation

Various factors are required for the regulation of muscle cell differentiation. In an attempt to elucidate the mechanism underlying myogenesis, we examined the possible contribution of mitochondria to terminal differentiation of murine myoblast cell line, C2C12, using a specific inhibitor for mitochondria! protein synthesis, tetracycline. Tetracycline impaired myotube formation and induction of muscle creatine kinase activity which was specifically observed in differentiated myocytes. Transcript levels of muscle-specific proteins, creatine kinase and troponin-I were also significantly suppressed in a dose-dependent manner. However, those proteins with myogenic regulatory factors, MyoD and myogenin, and common proteins including glycolytic enzymes were not affected. Cellular viability, mitochondrial transcription, and mitochondria! proliferation were confirmed not to be impaired by tetracycline treatment. These results suggest that mitochondrial stress may affect regulation of differentiation-specific gene expression. This system may contribute to an understanding of mechanisms for differentiation inhibition caused by inhibitors of mitochondrial protein synthesis that have also been observed in other kinds of cells.

Nuclear Concentration of Gold Labeled-testosterone-bovine Serum Albumin Conjugate Injected Intravenously in the Hormone-target Cells of Rat

We examined whether testosterone-bovine serum albumin conjugate (testosterone-BSA) showed similar distribution to radiolabeled testosterone in vivo, by injecting 2-nm colloidal gold labeled-testosterone-BSA (testosterone-BSA-gold) from rat tail vein. The testosterone-BSA-gold with the silver enhancement became visible as silver deposits under electron microscope in nuclei of Leydig cells, Sertoli cells, spermatogonia, spermatocytes and spermatids in the testis, those of the epithelial cells in the seminal vesicle and of the cardiac muscle cells in the heart of rat killed 2 h after the injection. Few deposits were present on the non-target cell nuclei in thymus and spleen. In the liver cells, the deposits were observed in the cytoplasm, but few in the nucleus. At high-power magnification without silver enhancement, the gold particles were found in the target cell nuclei in the testis. In control rat injected with BSA labeled with 2-nm colloidal gold, the percentages of nuclei showing the deposits were fewer than those in the rat injected testosterone-BSA-gold in the target cells. The deposits were also few in the nuclei of non-target cells in control rat. These results suggest that testosterone-BSA-gold is useful for morphological study of testosterone target cells, and imply that BSA conjugated with testosterone can enter the target cell nuclei of the rat.

Reconstruction Culture System Simulating Human Synovium: A Three-dimensional Collagen Gel Culture of Synoviocytes

We developed a reconstruction culture system simulating human synovium to investigate the synoviocytes in a more physiological condition. This system with two types of dishes provided the two separated spaces corresponding to the joint cavity and nutrient vessels. The isolated normal synoviocytes were cultured in type-I collagen gel with a layer-seeded on top in a smaller inner dish with a porous bottom, which was placed in a larger outer dish. We added hyaluronic acid solution to the space on the gel to make an environment close to the physiological joint cavity. The space between the inner and outer dishes was filled with a complete medium to nourish the synoviocytes through the porous filter (Experiment 1). In addition, to examine cell-to-cell interaction, we created a co-culture model by mixing synoviocytes and peripheral blood mononuclear cells in the collagen gel matrix (Experiment 2). In this way we could reconstruct the synovium in vitro. The synoviocytes could survive and maintain their characteristics for four weeks of culture. In Experiment 1, almost all the cells were similar to type B synovial cells by histological, imniunohistochemical and electron microscopic observations. In Experiment 2, the spherical cells in abundance of lysosomes like type A synovial cells appeared sporadically in the lining layer. Immunohistochemically, the majority of cultured cells expressed CD68 and matrix metalloproteinase 3. This culture system promises to be of use in investigating the pathogenesis of various joint diseases.

The Inhibition of Motility of Demembranated Spermatozoa by Anti-tubulin Antibodies

The effects of monoclonal anti-tubulin antibodies on the motility of demembranated and reactivated sea urchin spermatozoa were investigated. Two out of ten antibodies examined significantly reduced the motility of spermatozoa, both in motile rate and swimming speed. The binding patterns of the two antibodies YL1/2 and TUB2.1 to the axoneme were studied by immunoblot, immunofluorescence, and immunoelectron microscopy. YL1/2 bound to the axoneme in a specific pattern; signals were very intense in the tail, rich in the proximal portion, and scarce in the middle part of the axoneme. Because the inhibitory effects of the antibody on the motility of spermatozoa with fully long flagella and short flagella were similar, the inhibition was probably due to the binding of the antibody to the proximal portion of the flagellum. TUB2.1 evenly bound to the axoneme by immunofluorescence and immunoelectron microscopy. On the other hand, the eight antibodies which did not affect sperm motility, did not bind to unfixed axonemes, although epitopes for these antibodies were detected abundantly in the axoneme.

An Altered Nuclear Migration into the Daughter Bud is Induced by the Cyclin Al-mediated Cdc28 Kinase through an Aberrant Spindle Movement in Saccharomyces cerevisiae

A strain of Saccharomyces cerevisiae that contains an integrated copy of a Xenopus cyclin Al gene under the control of the GAL1 promoter has been constructed. On inducing expression of cyclin Al, the nuclear migration that occurs prior to division becomes aberrant. Instead of migrating to the neck between the mother cell and daughter bud, the nucleus, the short mitotic spindle and its associated two spindle pole bodies entered the daughter bud. This phenotype was induced by expression of an indestructible cyclin mutant, but not by a mutated cyclin Al unable to activate Cdc28 kinase. The nuclear abnormality induced by cyclin Al was overcome by cdc28 mutations that abolish its ability to bind cyclin Al. Both yeast cyclin Clb3 and Xenopus mitotic cyclin B produced the same phenotype, whereas Gl cyclin Cln2 did not. The results suggest that the proper movement of the nucleus through the spindle function during mitosis requires the appropriate activity of Cdc28 kinase mediated by specific cyclins.

A Novel Truncated Variant Form of Ebk/MDKl Receptor Tyrosine Kinase Is Expressed in Embryonic Mouse Brain

We have isolated cDNA clones from a mouse embryonic head cDNA library that encode one member of the Eph/Eck family of receptor tyrosine kinases (RTKs), Ebk/MDKl. Among the 10 clones, two showed full-length type comprising extracellular, transmembrane and intracellular kinase domains. Two of them were modified just after the transmembrane domain and stop codon appeared before completing the kinase domain. This truncated form also had a deletion of five amino acids at the extracellular domain, indicating that it is a novel variant of Ebk/MDKl. RNase protection assay showed that this truncated deleted type, named Ebk-tdl, is present in the head of embryos, although the amount is less compared to that of the full-length type having a deletion of four amino acids. Considering the source and expression of Ebk/MDKl mRNAs, they may have an important role, accompanied with a possible regulatory role of the truncated variant, during neural development and/or in embryogenesis.

Extension of Long Cellular Processes of Hepatic Stellate Cells Cultured on Extracellular Type I Collagen Gel by Microtubule Assembly: Observation Utilizing Time-lapse Video-microscopy

Hepatic stellate cells cultured on or in freshly prepared type I collagen gel as a substratum were induced to elongate long cellular processes. The extension of the cellular processes was monitored by using video-enhanced optical microscopy. The cellular processes seemed to extend along the extracellular type I collagen fibers. Once extended cellular processes after overnight culture on type I collagen gel were retracted by cytoskeleton degradation with colchicine or cytochalasin B. The cellular processes were also retracted by treatment with protein kinase inhibitor, herbimycin A or staurosporin, or with phosphatidylinositol 3-kinase inhibitor, wortmannin. The effects of colchicine, herbimycin A, staurosporin, or wortmannin were drastic, and the cells were finally changed to a round shape within a few hours, as seen also after cold-treatment at 4°C. Cytochalasin B also time-dependently retracted the extended cellular processes. These results indicated that the cultured stellate cells were induced to elongate cellular processes by cell surface binding to type I collagen fibrils, followed by protein or phosphatidylinositol phosphorylation and finally F-actin and microtubule assembly. Extended long cellular processes seem to reflect the in vivo structure of hepatic stellate cells, and molecular mechanism for the extension and maintenance of cellular processes was proposed.