Empagliflozin ameliorates the impaired osteogenic differentiation ability of adipose-derived stem cells in diabetic osteoporosis by activating autophagy.

Adipose-derived stem cells (ASCs) from diabetic osteoporosis (DOP) mice showed impaired osteogenic differentiation capacity. Recent studies have shown that in addition to antidiabetic drugs, sodium-glucose co-transporter inhibitor-2 (SGLT-2), empagliflozin, can play multipotent roles through various mechanisms of action. In this study, we aimed to investigate the effects and underlying mechanisms of empagliflozin on osteogenic differentiation of ASCs in DOP mice. Our results showed that osteogenic differentiation potential and autophagy activity weakened in DOP-ASCs when compared to controls. However, empagliflozin enhanced autophagy flux by promoting the formation of autophagosomes and acidification of autophagic lysosomes, resulting in an increase in LC3-II expression and a decrease in SQSTM1 expression. Furthermore, empagliflozin contributed to the reversal of osteogenesis inhibition in DOP-ASCs induced by a diabetic microenvironment. When 3-methyladenine was used to block autophagy activity, empagliflozin could not exert its protective effect on DOP-ASCs. Nonetheless, this study demonstrated that the advent of cellular autophagy attributed to the administration of empagliflozin could ameliorate the impaired osteogenic differentiation potential of ASCs in DOP mice. This finding might be conducive to the application of ASCs transplantation for promoting bone fracture healing and bone regeneration in DOP patients.

Insight into the pollution characteristics of road and roof runoff in Changsha, China.

Non-point source pollution from rainwater runoff presents a serious challenge for urban water management in many cities undergoing urbanization and experiencing climate change. To alleviate water resource conflicts in Changsha, China, this study comprehensively evaluated the pollution characteristics and first flush effect (FFE) of runoff from asphalt roads and colored steel plate roofs under seven rainfall events in April-May 2022. The runoff was collected and purified using bioretention ponds. The results showed that the peak runoff pollutant concentrations occurred within the first 20 min of runoff generation and then decreased to relatively stable levels, with maximum total suspended solids (TSS) concentration and chemical oxygen demand (CODCr) reaching 873.5 and 207.32 mg/L, respectively, for road runoff and 162 and 73.31 mg/L for roof runoff, respectively. The main pollutants were TSS and CODCr, followed by ammonia nitrogen (NH4+-N), nitrate nitrogen (NO3--N), total phosphorus (TP), and nitrite nitrogen (NO2--N). Concentrations of pollutants and FFE for roof runoff were lower than those for road runoff. Road runoff had a more obvious FFE for TP and NH4+-N, whereas the roof runoff showed the presence of TP and NO3--N. An important implication is that treating the first 30% of surface runoff from rainfall events with long antecedent dry days or high rainfall amounts is necessary to improve water quality before discharge or utilization. The study also found that road and roof runoff, after treatment with bioretention ponds, exhibit good water quality, thus, allowing their use as reclaimed water or for miscellaneous purposes in urban areas. Overall, this study provides useful information for designing management measures to mitigate runoff pollution and reuse in Changsha.

[Osteogenic Capacity and Mettl14 and Notch1 Expression of Adipose-Derived Stem Cells from Osteoporotic Rats].

OBJECTIVE: To investigate the differences in the osteogenic capacity of osteoporotic adipose-derived stem cells (OP-ASCs) and normal control adipose-derived stem cells (Ctrl-ASCs), and to examine the expression levels of RNA methyltransferase like 14 (Mettl14) and the Notch signaling molecule 1 (Notch1). METHODS: The osteoporosis (OP) model of SD rats was established with ovariectomy (OVX). Micro-CT, HE staining and Masson staining were performed to identify the successful establishment of the OP model, OP-ASCs and Ctrl-ASCs were isolated and cultured adherently. Then, the three-way differentiation capacity of the adipose-derived stem cells (ASCs) was determined through alizarin red staining, alcian blue staining and oil red O staining and flow cytometry was conducted to examine the surface antigens CD29, CD44, CD90, CD31, CD34, and CD45. Alizarin red staining and comparison of the mRNA and protein expression of Run-related transcription factor 2 (Runx2) were done to explore the differences in osteogenic potential of OP-ASCs and Ctrl-ASCs. Real-time PCR and Western blot were performed to explore the expression differences of Mettl14 and Notch1 at mRNA and protein levels between OP-ASCs and Ctrl-ASCs. RESULTS: Micro-CT, HE and Masson staining results showed that the number of trabecular bone decreased and the spacing increased in the tibias of the osteoporosis group (OP group) compared with those of the control group (Ctrl group), indicating that the OP model was established successfully. Three-way differentiation and flow cytometry results confirmed the successful isolation and culture of ASCs. After osteogenic induction, alizarin red staining showed that OP-ASCs had fewer number and more scattered distribution of mineralized nodules than Ctrl-ASCs did. The expression of Runx2 in OP-ASCs was lower than that in Ctrl-ASCs ( P<0.05). Mettl14 as well as Notch1 showed lower expression in OP-ASCs than they did in Ctrl-ASCs ( P<0.05). CONCLUSION: The osteogenic capacity of OP-ASCs was lower compared with that of Ctrl-ASCs, Mettl14 expression of OP-ASCs was decreased compared with that of Ctrl-ASCs, and the Notch signaling pathway was inhibited in OP-ASCs. The study helps build the foundation for further investigation in the specific mechanisms of Mettl14 and Notch1 during osteogenic differentiation of OP-ASCs.