PtdIns(3,4)P2 instigates focal adhesions to generate podosomes

Cell-to-extracellular matrix (ECM) adhesion plays important roles in various biological events, such as proliferation, differentiation and migration. Distinct from other types of adhesion structures (focal complexes, focal adhesions and so on), podosomes and invadopodia are thought to have additional functions beyond attachment, possibly including invasion into the ECM. For podosomes and invadopodia to invade into the ECM, molecules involved in adhesion, actin polymerization and ECM degradation must be recruited to sites of action. Our recent study demonstrated that podosomes form near newly formed focal adhesions via the minimally expressed phosphoinositide PtdIns(3,4) P2-mediated recruitment of the Tks5-Grb2 scaffold, followed by the accumulation of N-WASP. Although this study demonstrated details of molecular interplay during the transformation of focal adhesion, its regulation in the in vivo invasion process remains to be clarified. Here, we discuss the molecular bases of the transformation of focal adhesions to podosomes/invadopodia based on current understanding.Key words: podosome, invadopodium, focal adhesion, Tks5, PtdIns(3,4)P2, N-WASP     

Serum metabolomics as a novel diagnostic approach for pancreatic cancer

Pancreatic cancer is one of the leading causes of cancer-related death, and there is currently little hope of a cure because there are no effective biomarkers for its early detection. Therefore, the search for novel biomarkers that would allow the early detection of pancreatic cancer is ongoing. In this study, the differences between the metabolomes of pancreatic cancer patients with Stage III, Stage IVa, or Stage IVb disease (n = 20) and healthy volunteers (n = 9) were evaluated by metabolomics, which is the endpoint of the Omics cascade and therefore the last step in the cascade before the phenotype. In our experimental conditions using gas chromatography mass spectrometry (GC/MS), a total of 60 metabolites were detected in serum, and the levels of 18 of the 60 metabolites were significantly changed in pancreatic cancer patients compared with those in healthy volunteers. Then, Principal Component Analysis (PCA), which is a basic form of Multiple Classification Analysis, was performed, and the PCA scores plots based on the 60 metabolites highlighted the metabolomic differences between the pancreatic cancer patients and healthy volunteers. The differences between different stages of pancreatic cancer were also assessed by Partial Least Squares Discriminant Analysis (PLS-DA), which is one of Multiple Classification Analysis, and we found that it was possible to discriminate among the Stage III, Stage IVa, and Stage IVb groups. In addition, values of the 9 metabolites in 1 Stage I pancreatic cancer patient were similar to those obtained from the Stage III, Stage IVa, and Stage IVb pancreatic cancer patients. Our findings will aid the discovery of novel biomarkers that allow the early detection of pancreatic cancer by metabolomic approaches.     

Membrane targeting and remodeling through phosphoinositide-binding domains

In mammals, there are seven inositolphospholipids, collectively called phosphoinositides that serve as versatile molecules not only in receptor-mediated signal transduction but also in a variety of cellular events such as cytoskeletal reorganization, membrane trafficking, cell proliferation and cell death. Recent studies have revealed that the latter functions are mediated by direct interactions between phosphoinositides and proteins. Such proteins contain two types of phosphoinositide-binding regions; basic amino acid stretch and globular structural domain. Furthermore, spatially restricted compartment of phosphoinositides and their concentration are finely regulated by a large number of phosphoinositide kinases and -phosphatases, controlling localization-specific metabolism of this simple lipid whose aberrations cause various diseases such as cancer and diabetes.     

Masticatory performance in 80-year-old individuals

Objective: To evaluate the masticatory performance of elderly people at the age of 80 years. Subjects: A total of 283 individuals of 80 years of age took part in a general and dental health survey. Main outcome measures: A dental examination including the number of remaining teeth, occlusion, prostheses, bite force recording, and a questionnaire regarding masticatory performance were recorded. Setting: Five municipalities (Okazaki city, Tokoname city, Tahara town, Atsumi town and Minami‐chita town) in Aichi prefecture, Japan. Results: There were 20 or more teeth in 7.4% subjects, and 44.5% were edentulous. Subjects with no occlusion accounted for 77.4% of the total. Subjects with prostheses accounted for 90.8%. Maximum bite force and masticatory ability score for patients with 20 or more teeth or not wearing prostheses were higher than other groups. The non‐wearing prostheses group had a low masticatory ability score. Conclusion: Most of the 80‐year‐old individuals recovered their masticatory ability with the assistance of prostheses. Several individuals with 20 or more remaining teeth or without removable dentures present in both jaws had a high score for bite forces and masticatory abilities.     

Rapid gas chromatographic-mass spectrometric diagnosis of dihydropyrimidine dehydrogenase deficiency and dihydropyrimidinase deficiency

A rapid yet reliable chemical diagnosis for dihydropyrimidine dehydrogenase (DHPD) deficiency, and possibly dihydropyrimidinase (DHP) deficiency in cancer patients, prior to therapy with pyrimidine analogues such as 5-fluorouracil, is desired for prevention of severe side-effects by these drugs. We have reported the basic separation and quantitation technology for pyrimidine metabolites using gas chromatography-mass spectrometry. A proposal to use the number (n) of standard deviations (SD) above the normal mean, as the index of the excessive urinary excretion of the metabolites appears not to be commonly used. When used, the values were too small, such as two or three, even in genetic disorders. Here, we applied the method to 11 urine specimens from proven cases including two DHP carriers and proved how specific the method is, because "n"-values were markedly large for thymine (T), uracil (U) and/or dihydrothymine (DHT) and dihydrouracil (DHU). In three cases with DHPD deficiency, two were siblings, one with symptoms and the other without, n was 12 for T and 5.9 for U, and 5-hydroxymethyluracil was distinctly detected. These values indicate that the nature of genetic mutation relates closely to the degree of metabolite accumulation in pyrimidine disorders. In six patients with DHP deficiency, n was 8.4-12 for DHT and 7.2-11 for DHU. Many mutations are known for both genes and the assay of residual enzyme activity may be time-consuming or invasive especially for those with DHP deficiency. Thus, this noninvasive yet comprehensive urinalysis has great value for those without a family history, as the first trial, before DNA or the enzyme assay. Our findings again raise the question whether the metabolic block really causes the symptoms found in pyrimidine disorders.     

Sustained activation of N-WASP through phosphorylation is essential for neurite extension

Neurite extension is a key process for constructing neuronal circuits during development and remodeling of the nervous system. Here we show that Src family tyrosine kinases and proteasome degradation signals synergistically regulate N-WASP in neurite extension. Src family kinases activate N-WASP through tyrosine phosphorylation, which induces Arp2/3 complex-mediated actin polymerization. Tyrosine phosphorylation of N-WASP also initiates its degradation through ubiquitination. When neurite growth is stimulated in culture, degradation of N-WASP is markedly inhibited, leading to accumulation of the phosphorylated N-WASP. On the other hand, under culture conditions that inhibit neurite extension, but favor proliferation, the phosphorylated N-WASP is degraded rapidly. Collectively, neurite extension is regulated by the balance of N-WASP phosphorylation (activation) and degradation (inactivation), which are induced by tyrosine phosphorylation.     

Localization of blood-group-related linear poly-N-acetyllactosamine structure in different human tissues by Griffonia simplicifolia agglutinin-II staining following endo-β-galactosidase digestion

Summary Endo--galactosidase from Escherichia freundii cleaves polylactosaminyl structures as follows: R-GlcNAc1-3Gal1-4GlcNAc1-R + H₂O R-GlcNAc1–3Gal + GlcNAc1-R. By staining with Griffonia simplicifolia agglutinin-II following the enzyme digestion, the distribution of R-GlcNAc1–3Gal1–4GlcNAc can be demonstrated in tissue sections. This carbohydrate chain is one of the backbone structures carrying the blood-group-related antigens and, thus, localization of this structure may provide detailed information about the distribution of variants with different backbone structures. Various formalin-fixed, paraffin-embedded tissue sections were stained by Griffonia simplicifolia agglutinin-II with or without prior enzyme digestion and the reactivity of the agglutinin imparted by enzyme digestion was studied in the following tissues and cells: pancreatic acinar cells, gastric surface mucosae, duct cells and mucous cells of salivary glands and tracheal glands, surface epithelium of trachea, goblet cells of large intestine, columnar epithelium of uterine cervical glands, distal and collecting tubules of kidney, certain cells of anterior lobe and colloid of middle lobe of pituitary glands, epithelial reticular cells and Hassall's corpuscles of thymus and Kupffer cells of liver. In gastric surface mucosae, the reactivity of the agglutinin appeared in non-secretor individuals but not in the secretor individuals, and in mucous cells of salivary and tracheal glands the reactivity appeared in Le(a - b -) non-secretor individuals but not in Le(a + b -) non-secretor or secretor individuals. In pancreatic acinar cells and duct cells of salivary glands from fetuses and newborn infants, prior fucosidase digestion markedly enhanced the Griffonia simplicifolia agglutinin-II reactivity elicited by endo--galactosidase digestion. Prior fucosidase digestion was also a prerequisite for revealing the reactivity of this agglutinin by endo--galactosidase digestion in gastric surface mucosae from secretor individuals. -Galactosidase digestion disclosed reactivity of this agglutinin in pancreatic acinar cells and duct cells of salivary glands even after the removal of endo--galactosidase-labile lactosamine structures by sequential digestion with endo--galactosidase and -N-acetylhexosaminidase. These results demonstrate that the procedures developed in this study provide a useful means for detecting different types of lactosamine structures which carry blood-group antigens in humans tissues.