LITTIP/Lgr6/HnRNPK complex regulates cementogenesis via Wnt signaling / 国际口腔科学杂志·英文版

Orthodontically induced tooth root resorption (OIRR) is a serious complication during orthodontic treatment. Stimulating cementum repair is the fundamental approach for the treatment of OIRR. Parathyroid hormone (PTH) might be a potential therapeutic agent for OIRR, but its effects still lack direct evidence, and the underlying mechanisms remain unclear. This study aims to explore the potential involvement of long noncoding RNAs (lncRNAs) in mediating the anabolic effects of intermittent PTH and contributing to cementum repair, as identifying lncRNA-disease associations can provide valuable insights for disease diagnosis and treatment. Here, we showed that intermittent PTH regulates cell proliferation and mineralization in immortalized murine cementoblast OCCM-30 via the regulation of the Wnt pathway. In vivo, daily administration of PTH is sufficient to accelerate root regeneration by locally inhibiting Wnt/β-catenin signaling. Through RNA microarray analysis, lncRNA LITTIP (LGR6 intergenic transcript under intermittent PTH) is identified as a key regulator of cementogenesis under intermittent PTH. Chromatin isolation by RNA purification (ChIRP) and RNA immunoprecipitation (RIP) assays revealed that LITTIP binds to mRNA of leucine-rich repeat-containing G-protein coupled receptor 6 (LGR6) and heterogeneous nuclear ribonucleoprotein K (HnRNPK) protein. Further co-transfection experiments confirmed that LITTIP plays a structural role in the formation of the LITTIP/Lgr6/HnRNPK complex. Moreover, LITTIP is able to promote the expression of LGR6 via the RNA-binding protein HnRNPK. Collectively, our results indicate that the intermittent PTH administration accelerates root regeneration via inhibiting Wnt pathway. The lncRNA LITTIP is identified to negatively regulate cementogenesis, which activates Wnt/β-catenin signaling via high expression of LGR6 promoted by HnRNPK.

Design and Optimization of the Formulation and Technology of Theophylline Gel Matrix Sustained-release Tablets Based on QbD Concept / 中国药房

OBJECTIVE： To design and optimize the formulation and technology of Theophylline hydrophilic gel matrix sustained-release tablets （self-made sustained-release tablets for short） based on the concept of “Quality by Design” （QbD）. METHODS： Diluent type， tablet diameter， the property of adhesive （ratio of different adhesive types）， the amount of adhesive were regarded as critical process parameters （CPPs）. Similarity factor of dissolution curves of self-made Theophylline sustained-release tablets and reference preparation and its accumulative release rate at different time points were regarded as critical quality attributes （CQAs）. L18（34） orthogonal tablet was adopted for design and trial， and secondary polynomial regression model was established. By using Modde 12.0 software， the design space and its acceptable range （PAR） were calculated through the optimal model. The optimal formulation and technology of Theophylline sustained-release tablets was determined， and validation test and Monte Carlo simulation verification were conducted. RESULTS： The optimal model with good coincidence， accuracy， validity and reproducibility was obtained， which could better fit the relationship between CQAs and CPPs. The design space and PAR value were obtained by further calculation （The optimum value of diluent was lactose； tablet diameter was 9.07-9.33 mm， and the optimal value was 9.20 mm； ratio of HPMC K4M to HPMC was 0.50-0.83， and the optimal value was 0.80； total amount of HPMC was 0.036 0-0.041 3 g per tablet， and the optimal value was 0.038 g per tablet）. The optimal formulation and technology included that ratio of theophylline， HPMC K4M and HPMC K100M were 50％， 15.48％ and 3.87％， respectively； the rest was filled with lactose and the diameter of the tablet was 9.20 mm. The results of validation confirmed that self-made Theophylline sustained-release tablets had similar in vitro release behavior compared with reference preparation. CONCLUSIONS： Based on the concept of QbD， the formulation and technology of Theophylline sustained-release tablets can meet the requirements of design， and the CPPs can be adjusted within the PAR range to meet the requirements of CQAs. This shows that the QbD concept is scientific and effective in the design and optimization of the formulation and technology of sustained and controlled release preparations.