Morpholine-Substituted Rhodamine Analogue with Multi-Configurational Switches for Optical Sensing of pH Gradient under Extreme Acidic Environments.

Superior pH-responsive molecules are required for the development of functional materials applicable to advanced molecular technologies. Despite having been widely developed, many rhodamine-based pH-responsive molecules exhibit a single configurational switch for "turn-on". Herein, we report a new type of rhodamine-based pH-responsive molecule with multi-configurational switches displaying stable two-step structural and color conversion in response to pH. This rhodamine analogue could be successfully applied to optical sensing of pH gradient under extreme acidic environments both in solution and on hydrogel through high-contrast color change. We demonstrated that this multi-responsive character enabled optical memory of different pH information.

Promotion of cellular senescence by THG-1/TSC22D4 knockout through activation of JUNB.

Induction of cellular senescence in cancerous cells is an important strategy which is used in the treatment of cancer. However, cancer cells are capable of exhibiting resistance to cellular senescence through inactivation of tumor suppressors. Because of this, establishment of a route to cellular senescence induction in cancer cells is a crucial direction for developing future cancer therapies. In this study, we demonstrate the involvement of TSC-22 homologous gene-1 (THG-1, also called TSC22D4) in the suppression of cellular senescence. CRISPR/Cas9 gene editing was used to establish THG-1 knockout (KO) cells in a THG-1 positive esophageal tumor cell line. It was found that THG-1 KO cells exhibited delayed cell proliferation as well as cellular senescence. The elevated expression of the CDK inhibitor P21(CDKN1A) was also identified in senescent cells. Through the investigation of the upstream pathway for induction of P21(CDKN1A), the JUNB pathway was identified to play a critical role in P21(CDKN1A) transcription; in fact, the siRNA-mediated knockdown of JUNB reduced the abundance of P21(CDKN1A) mRNA and cellular senescence in THG-1 KO cells. These findings provide a novel insight into the induction of cellular senescence in THG-1 positive cancer cells.

Association between duplicated maltase genes and the transcriptional regulation for the carbohydrate changes in Drosophila melanogaster.

Gene duplication could promote phenotypic and genetic adaptation to various environments. To understand the effects of gene duplication on transcriptional regulation associated with environmental changes, we focused on the starch hydrolysis pathway, in which amylase enzymes together with maltase enzymes hydrolyze starch into glucose. Drosophila genomes involve ten duplicated Maltase genes. We examined the levels of transcription of the nine of these genes in 36 lines of Drosophila melanogaster collected from a natural population. In the investigated population, the levels of transcription were different between the two dietary carbohydrate sources, glucose and starch. At the transcriptional level, a single Maltase gene, which transcribes the specific Maltase transcripts, worked together with an Amylase gene in the pathway. The three of nine genes responded to carbohydrate changes, and the degree of the response was similar to Amylase gene. Our results suggest that gene duplication could increase capacity of the transcriptional regulation associated with environmental changes.

Cellular localization of prolactin-releasing peptide receptors in the human pituitary.

The recently identified prolactin (PRL)-releasing peptide (PrRP) is the first hypothalamic peptide hormone found to operate as a ligand of an orphan receptor that specifically stimulates PRL production from the pituitary gland. However, its other biological functions remain unknown. Using immunohistochemistry, we examined the distribution of the PrRP receptor in various human tissues, as well as the precise localization of the PrRP receptor in the human normal pituitary. Among various tissues examined, PrRP receptor-immunopositive cells were detected only in the pituitary gland. A double immunohistochemical procedure was used to examine PrRP receptor-positive cells from ten normal human pituitary glands, and it was determined that numerous PrRP receptor-positive cells are also positive for adrenocorticotropic hormone (ACTH) but negative for PRL. Growth hormone-, beta-thyroid-stimulating hormone-, beta-follicle-stimulating hormone-, beta-luteinizing hormone- or alpha-subunit-positive cells did not test positive for the presence of PrRP receptors. Thus, we suggest that PrRP receptor and probably PrRP may play a regulatory role in ACTH secretion, rather than in the release of PRL from the human anterior pituitary. This is the first report to demonstrate colocalization of the PrRP receptor and ACTH by immunohistochemistry.