Glycosaminoglycan Composition of PC 12 Pheochromocytoma Cells: A Comparison with PC12D Cells, a New Subline of PC12 Cells

PC12D cells, a new subline of conventional PC12 cells, respond not only to nerve growth factor but also to cyclic AMP by extending their neurites. These cells are flat in shape and are similar in appearance to PC12 cells that have been treated with nerve growth factor for a few days. In both cell lines, we have characterized the glycosaminoglycans, the polysaccharide moieties of proteoglycans, which are believed to play an important role in cell adhesion and in cell morphology. Under the present culture conditions, only chondroitin sulfate was detected in the media from PC12 and PC12D cells, whereas both chondroitin sulfate and heparan sulfate were found in the cell layers. The levels of cell-associated heparan sulfate and chondroitin sulfate were about twofold and fourfold higher in PC12D cells than in PC12 cells, respectively. Compared to PC12 cells, the amounts of [35S]sulfate incorporated for 48 h into chondroitin sulfate were twofold lower but those into heparan sulfate were 35% higher in PC12D cells. The amount of chondroitin sulfate released by PC12D cells into the medium was about a half of that released by PC12 cells. The ratio of [35S]sulfate-labeled heparan sulfate to chondroitin sulfate was 6.2 in PC12D cells and 2.2 in PC12 cells. These results suggest that there may be some correlation between the increase in content of glycosaminoglycans and the change in cell morphology, which is followed by neurite outgrowth.     

Database for exchangeable gene trap clones: Pathway and gene ontology analysis of exchangeable gene trap clone mouse lines

Gene trapping in embryonic stem (ES) cells is a proven method for large‐scale random insertional mutagenesis in the mouse genome. We have established an exchangeable gene trap system, in which a reporter gene can be exchanged for any other DNA of interest through Cre/mutant lox‐mediated recombination. We isolated trap clones, analyzed trapped genes, and constructed the database for Exchangeable Gene Trap Clones (EGTC) [ http://egtc.jp ]. The number of registered ES cell lines was 1162 on 31 August 2013. We also established 454 mouse lines from trap ES clones and deposited them in the mouse embryo bank at the Center for Animal Resources and Development, Kumamoto University, Japan. The EGTC database is the most extensive academic resource for gene‐trap mouse lines. Because we used a promoter‐trap strategy, all trapped genes were expressed in ES cells. To understand the general characteristics of the trapped genes in the EGTC library, we used Kyoto Encyclopedia of Genes and Genomes (KEGG) for pathway analysis and found that the EGTC ES clones covered a broad range of pathways. We also used Gene Ontology (GO) classification data provided by Mouse Genome Informatics (MGI) to compare the functional distribution of genes in each GO term between trapped genes in the EGTC mouse lines and total genes annotated in MGI. We found the functional distributions for the trapped genes in the EGTC mouse lines and for the RefSeq genes for the whole mouse genome were similar, indicating that the EGTC mouse lines had trapped a wide range of mouse genes.     

The Anaphase-Promoting Complex/Cyclosome Activator Cdh1 Modulates Rho GTPase by Targeting p190 RhoGAP for Degradation

Cdh1 is an activator of the anaphase-promoting complex/cyclosome and contributes to mitotic exit and G₁ maintenance by targeting cell cycle proteins for degradation. However, Cdh1 is expressed and active in postmitotic or quiescent cells, suggesting that it has functions other than cell cycle control. Here, we found that homozygous Cdh1 gene-trapped (Cdh1^GT/GT) mouse embryonic fibroblasts (MEFs) and Cdh1-depleted HeLa cells reduced stress fiber formation significantly. The GTP-bound active Rho protein was apparently decreased in the Cdh1-depleted cells. The p190 protein, a major GTPase-activating protein for Rho, accumulated both in Cdh1^GT/GT MEFs and in Cdh1-knockdown HeLa cells. Cdh1 formed a physical complex with p190 and stimulated the efficient ubiquitination of p190, both in in vitro and in vivo. The motility of Cdh1-depleted HeLa cells was impaired; however, codepletion of p190 rescued the migration activity of these cells. Moreover, Cdh1^GT/GT embryos exhibited phenotypes similar to those observed for Rho-associated kinase I and II knockout mice: eyelid closure delay and disruptive architecture with frequent thrombus formation in the placental labyrinth layer, respectively. Furthermore, the p190 protein accumulated in the Cdh1^GT/GT embryonic tissues. Our data revealed a novel function for Cdh1 as a regulator of Rho and provided insights into the role of Cdh1 in cell cytoskeleton organization and cell motility.The anaphase-promoting complex/cyclosome (APC/C) is a multisubunit complex that functions as an E3 ubiquitin ligase for various cell cycle proteins (19, 46). Proteins ubiquitinated by APC/C are recognized and degraded by the 26S proteasome to ensure proper cell cycle progression. APC/C activity is strictly dependent on coactivator proteins that interact with APC/C during specific phases of the cell cycle. Cdh1 (also known as Fzr, Hct1, or Srw) is one of the coactivators that maintain APC/C activity from anaphase of mitosis until the end of the G₁ phase of the cell cycle (43, 53).The role of Cdh1 (APC/C^Cdh1) on cell-cycle progression has been well studied; however, several studies have shed light into another aspect of Cdh1''s function. For example, expression of Cdh1 is not restricted to cycling cells; APC/C^Cdh1 is also present and active in quiescent cultured cells (9). Furthermore, immunohistochemical analysis has shown that Cdh1 is expressed in a wide variety of tissues that are predominantly composed of postmitotic cells, such as neurons, where APC/C^Cdh1 has a high cyclin B ubiquitination activity (1, 16). It has been reported that APC/C^Cdh1 promotes axonal growth and patterning (20) and is required for neuronal survival (1). These results highlight the importance of the APC/C activator Cdh1 in neurons. However, Cdh1 has also been shown to participate in the differentiation of tissues such as the muscle (25). Given that Cdh1 is ubiquitously expressed in organs containing quiescent cells, there might be additional roles for Cdh1.Rho GTPase proteins play a central role in the regulation of cell shape, polarity, and locomotion via their effects on actin polymerization, actomyosin contractility, cell adhesion, and microtubule dynamics (13). Small G proteins, which include Rho, act as molecular switches that cycle between an inactive GDP-bound state and an active GTP-bound state. The latter form of Rho proteins interacts with and activates downstream effector proteins. The activity of Rho GTPases is controlled by three class of key regulators: (i) guanine nucleotide exchange factors (GEFs), which catalyze the exchange of GDP to GTP for their activation (41); (ii) GTPase activating proteins (GAPs), which stimulate the intrinsic GTPase activity for their inactivation (8); and (iii) guanine nucleotide dissociation inhibitors (GDIs), which interact with GDP-bound Rho GTPases and sequester them in the cytoplasm to inhibit the exchange of GDP to GTP (33). In addition to these canonical regulations, recent studies indicate that the ubiquitination pathway is also involved in the modulation of Rho GTPase activity. Smurf1, which is a HECT domain E3 ubiquitin ligase, controls the local levels of RhoA at the cell periphery by targeting it for degradation (40, 55). Therefore, the regulatory mechanisms of Rho GTPase activity seem to be more complex than previously thought. It thus remains to be clarified whether other ubiquitin ligases also play a role in Rho signaling by targeting its components directly or indirectly.In this study, we found that the APC/C activator Cdh1 modulated actin organization. Mouse embryonic fibroblasts (MEFs) derived from a homozygous Cdh1 gene-trapped ([GT] Cdh1^GT/GT) mouse model displayed decreased numbers of stress fibers and focal adhesions (FAs). Consistent with these phenotypes, Rho activity was apparently reduced in Cdh1-deficient cells. Cdh1 regulated Rho activity via the targeting of p190 for degradation. We also found that Cdh1 knockdown cells showed decreased motility, which was rescued by codepletion of p190. Furthermore, phenotypic similarities between Cdh1^GT/GT embryos and ROCK (also known as Rho-kinase, which is the important Rho downstream effector of actin cytoskeleton formation) knockout (KO) mice (44, 49) support our notion that Cdh1 plays a role in the Rho/ROCK signaling axis. Collectively, our findings suggest an alternative role for Cdh1 other than cell cycle regulation and reveal Cdh1 as a new regulator of Rho.     

Cloning and Expression Analysis of a Murine Novel Gene, Ayu17-449

We used gene trapping vector PU8 to search some interesting genes which play important roles in mouse development from murine ES cells. One positive ES colony termed Ayu17-449 was trapped. Its partial cDNA was obtained by using 5′ RACE method. It is homologous to a 5523 bp cDNA fragment (GI: 20879412) in EST database. Further analysis of the 5523 bp cDNA sequence in Celera mouse gene database showed that it overlaps two genes. We designed serials of DNA primers according to the mRNAs of these two genes for RT-PCR and Northern blotting analysis, and identified a novel RNA about 9 kb (we named it as Ayu17-449) encoding 1920 aa. This gene is expressed highly in the brain, kidney, heart, lung, muscle and stomach. The expressed protein contains a Granin motif on its N-terminus, showing that this gene may be involved in hormone secretion.     

Mitogenic signalling and the p16INK4a-Rb pathway cooperate to enforce irreversible cellular senescence

The p16(INK4a) cyclin-dependent kinase inhibitor has a key role in establishing stable G1 cell-cycle arrest through activating the retinoblastoma (Rb) tumour suppressor protein pRb in cellular senescence. Here, we show that the p16(INK4a) /Rb-pathway also cooperates with mitogenic signals to induce elevated intracellular levels of reactive oxygen species (ROS), thereby activating protein kinase Cdelta (PKCdelta) in human senescent cells. Importantly, once activated by ROS, PKCdelta promotes further generation of ROS, thus establishing a positive feedback loop to sustain ROS-PKCdelta signalling. Sustained activation of ROS-PKCdelta signalling irreversibly blocks cytokinesis, at least partly through reducing the level of WARTS (also known as LATS1), a mitotic exit network (MEN) kinase required for cytokinesis, in human senescent cells. This irreversible cytokinetic block is likely to act as a second barrier to cellular immortalization ensuring stable cell-cycle arrest in human senescent cells. These results uncover an unexpected role for the p16(INK4a)-Rb pathway and provide a new insight into how senescent cell-cycle arrest is enforced in human cells.     

Conditions for seedling establishment and probable function of seed in the clonal sedge Carex rugulosa Kük. in riverside marshes

Carex rugulosa Kük. forms large meadows in moist zones along estuarine riversides. These meadows are usually maintained by rhizomatous ramet production (clonal growth), and the appearance of seedlings is uncommon. We studied the conditions required for seedling establishment. In areas in which clonal ramets were dense (906–1050/m²), and the relative light intensity at ground level was low (0.8–3.8%), seed germination was entirely suppressed. In contrast, many seedlings (288–513/m²) were observed in areas in which clonal ramets had been considerably reduced (13–269/m²) by continuous inundation in the previous year. In these areas, the relative light intensity had increased (20.5–79.3%). It was inferred that seeds resisted the prolonged inundation that killed the ramets, and that germination was induced under these open conditions. These results suggest that the main functions of sexual reproduction in C. rugulosa are recovery after severe damage to vegetation using seeds from the seed bank and the dispersal of seeds to areas without dense vegetation. Most seedlings died when the marshy meadow was temporarily inundated by heavy rain. However, transplanted seedlings survived better at artificially elevated sites that were not submerged. This shows that inundation during the seedling stage impedes seedling survival. Therefore, seeds can contribute to recovery after ramet decline or colonization to open area when (i) the rainfall is not heavy to cause seedling submergence or (ii) seeds are dispersed to higher area which is not inundated.     

Comparative analysis of right element mutant <Emphasis Type="Italic">lox</Emphasis> sites on recombination efficiency in embryonic stem cells

Background  

Cre-mediated site-specific integrative recombination in mouse embryonic stem (ES) cells is a useful tool for genome engineering, allowing precise and repeated site-specific integration. To promote the integrative reaction, a left element/right element (LE/RE) mutant strategy using a pair of lox sites with mutations in the LE or RE of the lox sequence has previously been developed. Recombination between LE and RE mutant lox produces a wild-type lox P site as well as an LE+RE double mutant lox site, which has mutations in both sides and less affinity to Cre, resulting in stable integration. We previously demonstrated successful integrative recombination using lox 71 (an LE mutant) and lox 66 (an RE mutant) in ES cells. Recently, other LE/RE mutant lox sites showing higher recombination efficiency in Escherichia coli have been reported. However, their recombination efficiency in mammalian cells remains to be analyzed.     

Breeding system and floral visitors of Veratrum album subsp. oxysepalum (Melanthiaceae)

Veratrum album subsp. oxysepalum is an andromonoecious perennial woodland herb. In the present study, to clarify the essential life-history characteristics of this species, sexual reproduction was examined and breeding experiments were carried out along with observations of floral visitors in the field. The results of the breeding experiments showed that this species has a high level of self-incompatibility. As various Coleoptera and Diptera visited the flowers, the seed production of V. album subsp. oxysepalum possibly depends on outcrossing pollination by insects.     

Affinity Proteomics Exploration of Melanoma Identifies Proteins in Serum with Associations to T-Stage and Recurrence

BACKGROUND: Blood-based proteomic profiling may aid and expand our understanding of diseases and their different phenotypes. The aim of the presented study was to profile serum samples from patients with malignant melanoma using affinity proteomic assays to describe proteins in the blood stream that are associated to stage or recurrence of melanoma. MATERIAL AND METHODS: Multiplexed protein analysis was conducted using antibody suspension bead arrays. A total of 232 antibodies against 132 proteins were selected from (i) a screening with 4595 antibodies and 32 serum samples from melanoma patients and controls, (ii) antibodies used for immunohistochemistry, (iii) protein targets previously related with melanoma. The analysis was performed with 149 serum samples from patients with malignant melanoma. Antibody selectivity was then assessed by Western blot, immunocapture mass spectrometry, and epitope mapping. Lastly, indicative antibodies were applied for IHC analysis of melanoma tissues. RESULTS: Serum levels of regucalcin (RGN) and syntaxin 7 (STX7) were found to be lower in patients with both recurring tumors and a high Breslow's thickness (T-stage 3/4) compared to low thickness (T-stage 1/2) without disease recurrence. Serum levels of methylenetetrahydrofolate dehydrogenase 1-like (MTHFD1L) were instead elevated in sera of T3/4 patients with recurrence. The analysis of tissue sections with S100A6 and MTHFD1L showed positive staining in a majority of patients with melanoma, and S100A6 was significantly associated to T-stage. CONCLUSIONS: Our findings provide a starting point to further study RGN, STX7, MTHFD1L and S100A6 in serum to elucidate their involvement in melanoma progression and to assess a possible contribution to support clinical indications.