Steroidal regulation of hydrolyzing activity of the dietary carbohydrates in the silkworm, Bombyx mori

Blood sugar is an essential energy source for growth and development and is maintained at a constant level through precise regulation of formation and utilization. Sugars are produced from dietary carbohydrates by enzymatic hydrolysis in the digestive tract, which are under the homeostatic control of paracrine and prandial mechanisms in mammals. Here, we show that dietary carbohydrates hydrolyzing activity of the digestive tract is developmentally regulated by the steroid hormone ecdysone in the silkworm, Bombyx mori. The dietary carbohydrates hydrolyzing activity remained high throughout the last larval period and then decreased to negligible levels until the pupal period. However, dietary carbohydrates digestive activities were constitutively high when the steroidogenic organ, prothoracic glands were ablated. The prothoracic glands produced and released a large amount of ecdysone at the end of the larval period, suggesting that ecdysone is responsible for the decrease in dietary carbohydrates hydrolyzing activity. In fact, ecdysone decreased the activity to negligible levels in silkworms lacking the prothoracic glands. The present results indicate that the dietary carbohydrates hydrolyzing activity is regulated by ecdysone and that an increase in ecdysone titer decreases that activity at the end of the larval period, suggesting that ecdysone is essential for metabolic coordination during development.     

The Hippo transducer TAZ confers cancer stem cell-related traits on breast cancer cells

Cancer stem cells (CSCs) are proposed to drive tumor initiation and progression. Yet, our understanding of the cellular and molecular mechanisms that underlie CSC properties is limited. Here we show that the activity of TAZ, a transducer of the Hippo pathway, is required to sustain self-renewal and tumor-initiation capacities in breast CSCs. TAZ protein levels and activity are elevated in prospective CSCs and in poorly differentiated human tumors and have prognostic value. Gain of TAZ endows self-renewal capacity to non-CSCs. In epithelial cells, TAZ forms a complex with the cell-polarity determinant Scribble, and loss of Scribble--or induction of the epithelial-mesenchymal transition (EMT)--disrupts the inhibitory association of TAZ with the core Hippo kinases MST and LATS. This study links the CSC concept to the Hippo pathway in breast cancer and reveals a mechanistic basis of the control of Hippo kinases by cell polarity.     

Functional characterization of the regulators of calcineurin in Candida glabrata

The serine-threonine-specific protein phosphatase calcineurin is a key mediator of various stress responses in fungi. Herein, we characterized functions of the endogenous regulators of calcineurin (RCNs), Rcn1 and Rcn2, in the pathogenic fungus Candida glabrata. Rcn1 exerted both inhibitory and stimulatory effects on calcineurin signaling, but Rcn2 displayed only inhibitory activity. Phenotypic analyses of C. glabrata strains lacking either RCNs, calcineurin, or both revealed that calcineurin requires Rcn1, but not Rcn2, for antifungal tolerance in C. glabrata.     

Simple cloning strategy using GFPuv gene as positive/negative indicator

Because construction of expression vectors is the first requisite in the functional analysis of genes, development of simple cloning systems is a major requirement during the postgenomic era. In the current study, we developed cloning vectors for gain- or loss-of-function studies by using the GFPuv gene as a positive/negative indicator of cloning. These vectors allow us to easily detect correct clones and obtain expression vectors from a simple procedure by means of the combined use of the GFPuv gene and a type IIS restriction enzyme.     

Molecular hydrogen inhibits lipopolysaccharide/interferon γ-induced nitric oxide production through modulation of signal transduction in macrophages

Adipose-derived stem cells (ASCs) have been successfully applied in treating bone defects both in animals and humans and promoted osteogenesis in vivo significantly. However, the mechanism of in vivo osteogenesis of ASCs was still little known, we hypothesized that this was mediated in part by interaction between implanted ASCs and local vein endothelial cells. In this study, human adipose-derived stem cells (hASCs) and human umbilical vein endothelial cells (HUVEC) were isolated and characterized. Cells were then either cultured alone or cocultured. Alkaline phosphatase (ALP) staining, quantitative measurement of ALP activity and Alizarin staining of hASCs cultured alone, HUVEC cultured alone and cells cocultured demonstrated that osteogenic differentiation of cocultured cells increased obviously. Osteocalcin (OC) expression of hASCs cocultured with HUVEC showed an obvious raise than hASCs cultured alone. HUVEC cultured alone showed BMP-2 secretion and increased with culturing time. Real-time PCR of the cocultured cells showed four osteogenic differentiation related genes raised with culturing time, while two adipogenic differentiation related genes showed a slightly decrease with culturing time. Results of our study with different culture models showed that in vitro osteogenesis of hASCs was enhanced by coculture with HUVEC which secreted BMP-2. This study not only provided us with an in vitro model of studying interaction between cells, but also helped us to understand the in vivo therapeutic mechanisms of ASCs.