Reduction of the trans-cortical vessel was associated with bone loss, another underlying mechanism of osteoporosis.

RATIONALE: Numerous studies have established a robust association between bone morrow microvascular diseases and osteoporosis. This study sought to investigate the relationship between alterations in trans-cortical vessel (TCVs) and the onset of osteoporosis in various mouse models. METHODS: Aged mice, ovariectomized mice, and db/db mice, were utilized as osteoporosis models. TCVs in the tibia were detected using tissue clearing and light sheet fluorescence microscopy imaging. Femurs bone mass were analyzed using micro-CT scanning. Correlations between the number of TCVs and bone mass were analyzed using Pearson correlation analysis. RESULTS: All osteoporosis mouse models showed a significant reduction in the number of TCVs compared to the control group. Correlation analysis revealed a positive association between the number of TCVs and bone mass. TCVs were also expressed high levels of CD31 and EMCN proteins as type H vessels. CONCLUSIONS: This study underscores a consistent correlation between the number of TCVs and bone mass. Moreover, TCVs may serve as a potential biomarker for bone mass evaluation.

Efficient Synthesis of Cyclic Poly(ethylene glycol)s under High Concentration Conditions by the Assistance of Pseudopolyrotaxane with Cyclodextrin Derivatives.

An efficient synthesis of cyclic polymers (CPs) is in high demand due to their unique properties. However, polymer cyclization generally occurs at low concentrations (0.1 g/L), and the synthesis of CPs at high concentrations remains a challenge. Herein an efficient cyclization of poly(ethylene glycol) (Mn = 2000 g/mol, 4000 g/mol) (PEG-2k, PEG-4k) in high concentration (80 g/L) is realized by the assistance of pseudopolyrotaxane (pPRx). Water-soluble pPRx with a U-like-shape inclusion motif is prepared by mixing the 2-hydroxypropyl-γ-cyclodextrin (HPγCD) and PEG with (E)-3,4,5-trimethoxycinnamate (TCA-PEG-2k, TCA-PEG-4k). Subsequent irradiation of the pPRx solution (10-80 g/L) by UV light gives cyclic polymers through the intramolecular [2 + 2] photocycloaddition of the cinnamoyl moieties. The photoreaction of TCA-PEG-2k in the pPRx system gives cyclic monomers (C-1mer) as major products with a yield of 66% at 80 g/L. Additionally, the cyclization of TCA-PEG-4k also gives C-1mer as major products with a yield of 45% at a concentration of 80 g/L.

The role of PI3K/Akt signalling pathway in spinal cord injury.

Spinal cord injury (SCI) is a severely disabling central nervous system injury with complex pathological mechanisms that leads to sensory and motor dysfunction. The current treatment for SCI is aimed at symptomatic symptom relief rather than the pathological causes. Several studies have reported that signaling pathways play a key role in SCI pathological processes and neuronal recovery mechanisms. The PI3K/Akt signaling pathway is an important pathway closely related to the pathological process of SCI, and activation of this pathway can delay the inflammatory response, prevent glial scar formation, and promote neurological function recovery. Activation of this pathway can promote the recovery of neurological function after SCI by reducing cell apoptosis. Based on the role of the PI3K/Akt pathway in SCI, it may be a potential therapeutic target. This review highlights the role of activating or inhibiting the PI3K/Akt signaling pathway in SCI-induced inflammatory response, apoptosis, autophagy, and glial scar formation. We also summarize the latest evidence on treating SCI by targeting the PI3K/Akt pathway, discuss the shortcomings and deficiencies of PI3K/Akt research in the field of SCI, and identify potential challenges in developing these clinical therapeutic SCI strategies, and provide appropriate solutions.

Protective effect of licoflavone on gastric mucosa in rats with chronic superficial gastritis / 南方医科大学学报

<p><b>OBJECTIVE</b>To evaluate the protective effect of licoflavone on gastric mucosa in rats with chronic superficial gastritis and explore the possible mechanism.</p><p><b>METHODS</b>SD rat models of chronic superficial gastritis was established by intragastric administration of 0.02% ammonia and long-term irregular diet. The rat models were then randomized into model group, vitacoenzyme group and 3 licoflavone groups of high, medium, and low doses. After 30 days of treatment, the gastric histopathology, mucosal lesions, scanning electron microscopy, mucin function production by the gastric mucosa epithelial cells, serum PGE(2) level and gastric microcirculation were assessed to evaluate the protective effect of licoflavone on gastric mucosa.</p><p><b>RESULTS</b>Compared with normal control rats, the rat models of chronic superficial gastritis showed significantly higher gastric mucosal injury rate, histopathological scores and gastric mucin content. Licoflavone significantly ameliorated gastric pathology and increased serum PGE(2) level, enhanced acidic mucin secretion by the epithelial cells, and improved gastric microcirculation in the rat models.</p><p><b>CONCLUSION</b>Licoflavone feeding suppresses gastric mucosa injury, protects and restores the injured mucosa in rats with chronic superficial gastritis, and these effects are related with the up-regulation of serum PGE(2) level.</p>