Bone diseases, such as osteoporosis and osteoarthritis, have emerged as pressing public health concerns requiring immediate attention and resolution. Cellular therapy and tissue engineering techniques are among the most promising therapeutic approaches for such conditions. Human induced pluripotent stem cells (hiPSCs) possess remarkable capacity for indefinite self-renewal in vitro and the ability to differentiate into all somatic cell types originating from the three germ layers, thereby making them a promising source of osteoblasts. Consequently, it is crucial to establish a well-delineated system for osteogenic differentiation of hiPSCs in vitro, with the aim to generate osteoblast-like cells that conform to clinical application standards. Numerous research teams have achieved substantial advancements in both the direct osteogenic differentiation of hiPSCs and the indirect pathway via mesenchymal stem cells. In this article, we provide a comprehensive review of these two osteogenic differentiation pathways and their current applications, with the aim of serving as a valuable reference for bone regeneration technologies. Current research efforts have relied on embryoid body formation and monolayer induction methods utilizing biomaterials to develop a system that facilitates in vitro culture and osteogenic differentiation of hiPSCs. However, the existing research is primarily constrained by unclear system components and low efficiency. Therefore, the development of a stepwise and three-dimensional induction system based on stringent regulation by specific compounds is a primary research direction for the future.

Objective:To explore the effect of nursing intervention based on self-regulation theory on the self-care ability and mood state of patients with hepatitis B.Methods:From July 2021 to June 2023, a total of 126 patients with hepatitis B in the Department of Infectious Diseases in the First Affiliated Hospital of Zhengzhou University were selected as the research objects by the convenient sampling method. They were divided into the control group ( n=63) and the intervention group ( n=63) using the simple random number method. The control group received routine nursing intervention, while the intervention group received nursing intervention based on self-regulation theory based on routine nursing intervention. The intervention period was six months. Self-care ability, mood state, regular follow-up rate, medication compliance rate, and nursing satisfaction before and after intervention were compared between the two groups. Results:After six months of intervention, the score of the Exercise of Self-Care Agency Scale (ESCA) and the score of energy dimension in Profile of Mood states-short form (POMS-SF) in the intervention group were both higher than those in the control group? ( P<0.05), while scores of confusion, fatigue, anger, tension, and depression dimensions in POMS-SF were lower than those in the control group ( P<0.05). The intervention group's regular follow-up rate, medication compliance rate, and nursing satisfaction were all higher than those of the control group ( P<0.05) . Conclusions:Nursing intervention under the theoretical framework of self-regulation can improve the self-care ability of hepatitis B patients, their mood state, the regular follow-up rate, medication compliance rate, and nursing satisfaction.

BACKGROUND: The addition of growth factiors is commonly applied to improve the osteogenic differentiation of stem cells. However, for human pluripotent stem cells (hPSCs), their complex differentiation processes result in the unknown effect at different stages. In this study, we focused on the widely used bone forming peptide-1 (BFP-1) and investigated the effect and mechanisms of its addition on the osteogenic induction of hPSCs as a function of the supplementation period. METHODS: Monolayer-cultured hPSCs were cultured in osteogenic induction medium for 28 days, and the effect of BFP-1 peptide addition at varying weeks was examined. After differentiation for varying days (0, 7, 14, 21 and 28), the differentiation efficiency was determined by RT–PCR, flow cytometry, immunofluorescence, and alizarin red staining assays. Moreover, the expression of marker genes related to germ layers and epithelial-mesenchymal transition (EMT) was investigated at day 7. RESULTS: Peptide treatment during the first week promoted the generation of mesoderm cells and mesenchymal-like cells from hiPSCs. Then, the upregulated expression of osteogenesis marker genes/proteins was detected in both hESCs and hiPSCs during subsequent inductions with BFP-1 peptide treatment. Fortunately, further experimental design confirmed that treating the BFP-1 peptide during 7–21 days showed even better performance for hESCs but was ineffective for hiPSCs. CONCLUSION The differentiation efficiency of cells could be improved by determining the optimal treatment period.Our study has great value in maximizing the differentiation of hPSCs by adding osteogenesis peptides based on the revealed mechanisms and promoting the application of hPSCs in bone tissue regeneration.

Eukaryotic organisms constantly face a wide range of internal and external factors that cause damage to their DNA. Failure to accurately and efficiently repair these DNA lesions can result in genomic instability and the development of tumors (Canela et al., 2017). Among the various forms of DNA damage, DNA double-strand breaks (DSBs) are particularly harmful. Two major pathways, non-homologous end joining (NHEJ) and homologous recombination (HR), are primarily responsible for repairing DSBs (Katsuki et al., 2020; Li and Yuan, 2021; Zhang and Gong, 2021; Xiang et al., 2023). NHEJ is an error-prone repair mechanism that simply joins the broken ends together (Blunt et al., 1995; Hartley et al., 1995). In contrast, HR is a precise repair process. It involves multiple proteins in eukaryotic cells, with the RAD51 recombinase being the key player, which is analogous to bacterial recombinase A (RecA) (Shinohara et al., 1992). The central event in HR is the formation of RAD51-single-stranded DNA (ssDNA) nucleoprotein filaments that facilitate homology search and DNA strand invasion, ultimately leading to the initiation of repair synthesis (Miné et al., 2007; Hilario et al., 2009; Ma et al., 2017).
Recombinational DNA Repair ; DNA-Binding Proteins/metabolism* ; DNA Repair ; DNA Damage ; DNA

Based on the national policies, regulations and documents on residency training, this paper sorts out the historical evolution of the standardized residency training system in China, and divides its development into four stages: preliminary exploration, local pilot, national trials, and implementation. It also puts forward some practical thoughts on its development law and future trend, such aspects as that the system reform follows the top-down administrative order and indicative plan, the system pays attention to the gradual implementation on the basis of summing up practical experience, and the system needs continuous implementation and improvement from the overall perspective.

Objective:To investigate the difference in the radiation sensitivity of hematopoietic stem and progenitor cells (HSPCs) derived from fetal liver and bone marrow.Methods:HSPCs from fetal liver of 14.5 d embryo or bone marrow of 8 week-old mice were isolated to receive a single dose of 5 or 10 Gy irradiation in vitro using a 60Co irradiator. Twelve hours later, the cell apoptosis, mitochondrial reactive oxygen species (ROS) level, colony formation ability and DNA damage in HSPCs were detected. Freshly isolated HSPCs were injected into lethally irradiated CD45.1 + C57BL/6J mice (4.5 Gy+ 5 Gy with an interval of 30 min) Chimerism rate, lineage constitution, and cell cycle were analyzed 12 weeks after transplantation. Results:Compared with bone marrow HSPCs after irradiation, the percentage of apoptosis in fetal liver HSPCs was significantly higher ( t=16.21, 12.27, P<0.05), the level of ROS was dramatically elevated ( t=68.72, 18.89, P<0.05). At 10 Gy, fetal liver HSPCs could not form colonies at all ( t=12.41, 15.67, 9.46, P<0.05). γ-H2AX immunofluorescence staining showed that the DNA damage of fetal liver HSPCs was more severe after irradiation, and the number of Foci formed was significantly higher than that of bone marrow HSPCs ( t=2.27, 2.03, P< 0.05), which indicated that fetal liver HSPCs were more sensitive to radiation. The chimerism rate of transplanted fetal liver HSPCs was lower than that of bone marrow cells ( t=5.84, P<0.05) with a higher proportion of myeloid lineage, suggesting that fetal liver HSPCs had lower in vivo reconstitution capacity than bone marrow HSPCs and were more prone to myeloid differentiation. The cell cycle of bone marrow HSPCs from transplanted chimeric mice was examined, and the proportion of S-phase was significantly higher in the fetal liver group than that in the bone marrow group ( t=2.89, P<0.05). Mitochondrial stress results showed that fetal liver HSPCs had higher basal respiratory capacity ( t=39.19, P<0.05), proton leakage ( t=6.64, P<0.05), ATP production ( t=9.33, P<0.05), and coupling efficiency ( t=7.10, P<0.05) than bone marrow c-Kit + cells, while respiratory reserve capacity ( t=5.53, P< 0.05) was lower than that of bone marrow c-Kit + cells. Conclusions:HSPCs derived from fetal liver display higher radiosensitivty compared with bone marrow HSPCs, laying the foundation for an in-depth illustration of the effects of radiation on hematopoietic stem cells at different developmental stages.

Objective:To investigate the effect of paeoniflorin on toll-like receptor 4(TLR4)/nuclear transcription factor(NF-κB) signaling pathway of streptozotocin combined with ovariectomized mice, and to explore whether it can improve the cognitive impairment of ovariectomized diabetic mice.Methods:Ninety female C57BL/6J mice were divided into SHAM group, ovariectomy group, diabetes group(intraperitoneal injection of STZ 50 mg·kg -1·d -1 for 5 consecutive days), dual model group(DM modeling and OVX operation), paeoniflorin low-dose intervention group(OVX+ STZ+ L-PF 50 mg·kg -1·d -1), paeoniflorin high-dose intervention group(OVX+ STZ+ H-PF 100 mg·kg -1·d -1; all groups n=15). After 8 weeks of paeoniflorin intervention, their cognitive function was tested by behavioral experiments(Morris water maze and Y maze). The pathological changes of hippocampal tissue were observed by HE and Nissl staining. The mRNA expressions of TLR4, tumor necrosis factor-α(TNF-α), interleukin-1β(IL-1β) and interleukin-6(IL-6) in hippocampal tissues were detected by real-time fluorescence quantitative PCR. The expression of TLR4, NF-κB P65, TNF-α, IL-6, IL-1β, β-amyloid protein(Aβ), tau proteins, and p-tau proteins were detected by Western blot. Results:Compared with SHAM group, the learning and memory ability of ovariectomy group, diabetes group and dual model group decreased, hippocampal cells were damaged, and the expression of related gene mRNA and protein were increased, especially in dual model group; Compared with dual model group, paeoniflorin intervention could delayed the learning and memory impairment, improve cognitive function, reduce the degree of hippocampal injury, and decrease the expression levels of related gene mRNA and protein, The above changes were the most pronounced at paeoniflorin high-dose intervention group.Conclusion:Paeoniflorin improves cognitive dysfunction in ovariectomized diabetic mice by inhibiting TLR4/NF-κB signaling pathway.

Objective:To study the effect of different doses of 60Co γ-ray ionizing radiation on mitochondrial function in mouse hematopoietic stem and progenitor cells (HSPCs). Methods:C57BL/6 mice were divided into control group, 1 Gy irradiation group and 4.5 Gy irradiation group. The mitochondrial functions were detected at 12 h and 24 h after irradiation, including ROS level, membrane potential, mitochondrial structure, and mitochondrial stress. Bone marrow c-Kit + cells received a single 15 Gy irradiation in vitro, after 24 h, mitochondrial function was detected. Results:It was found that mice leukocytes ( t=12.41, 18.31, 16.48, 14.16, 19.08, 20.25, P<0.05), red blood cells ( t=4.81, 6.62, P<0.05) and platelets ( t=4.33, 6.68, P<0.05) were significantly reduced. The numbers of bone marrow colony formation unit ( t=16.27, 55.66, 17.06, 43.75, P<0.05), and HSPCs ( t=5.16, 11.55, P<0.05) were decreased dose-dependently post-irradiation. Under 1 Gy irradiation, the mitochondrial function and mitochondrial basal metabolic index of HSPCs ( t= 7.36, 3.68, 4.58, 3.15, 3.15, P<0.05) were enhanced at 24 h post-irradiation. Under 4.5 Gy irradiation, mitochondrial number, mitochondrial membrane potential ( t=12.29, 10.46, P<0.05), maximal respiration and spare respiratory capacity were decreased ( t=7.81, 5.78, 6.70, 5.83, P<0.05), ROS level was increased ( t=4.63, 4.12, P<0.05). The basal respiration and oxidative phosphorylated ATP production were reduced at 12 h after irradiation ( t=8.48, 3.80, P<0.05); and the proton leakage was increased ( t=6.57, P<0.05) and coupling efficiency was reduced ( t=11.43, P<0.05) at 24 h after irradiation. In cultured c-Kit + cells, the level of ROS ( t=11.30, P<0.05) and the maximum respiration and spare respiratory capacity were increased ( t=4.25, 3.44, P<0.05) while the mitochondrial membrane potential was decreased ( t=34.92, P<0.05) significantly. Conclusions:A method for systematically assessing mitochondrial function in HSPCs was established, and the effect of ionizing radiation on mitochondrial function of HSPCs was clarified, laying a foundation for further revealing the mechanism of ionizing radiation-induced mitochondrial damage in HSPCs.

Objective To investigate the regulatory effect of Jiedu Huayu Tongfu prescription on intestinal homeostasis in patients with hepatitis B cirrhosis with liver-gallbladder damp-heat syndrome, as well as its effect on endotoxin, inflammatory factors, and cellular immune function. Methods A total of 72 patients who attended The First Affiliated Hospital of Henan University of Chinese Medicine from June 2019 to January 2021 and met the diagnostic and inclusion criteria were enrolled as subjects and then randomly divided into observation group and control group, with 36 patients in each group. In the treatment group, 2 patients were lost to follow-up, 2 patients were excluded, and 32 patients completed the study; in the control group, 2 patients were lost to follow-up, 1 patient was excluded, and 33 patients completed the study. In addition to the basic treatment including antiviral therapy and liver-protecting treatment, the patients in the observation group were given Jiedu Huayu Tongfu granules, and those in the control group were given oral administration of Bifidobacterium tetravaccine tablets; the course of treatment was 4 weeks for both groups. The 16S rDNA sequencing technique was used for sequencing of fecal flora, and the two groups were measured in terms of the changes in liver function [alanine aminotransferase (ALT), aspartate aminotransferase (AST), total bilirubin (TBil), and albumin (Alb)], endotoxin (ET), levels of tumor necrosis factor-α (TNF-α) and interleukin-6 (IL-6), and T lymphocyte subsets (CD3 + T, CD4 + T, CD8 + T, and CD4 + /CD8 + ) after treatment. For normally distributed continuous data with homogeneity of variance, the paired t -test was used for comparison within each group, and the independent samples t -test was used for comparison between two groups; the Wilcoxon rank-sum test was used for comparison of non-normally distributed continuous data. The chi-square test was used for comparison of categorical data. Results The observation group had a significantly higher overall response rate than the control group (87.5% vs 60.6%, χ 2 =-2.299, P =0.022). After treatment, both groups had significant reductions in ALT, AST, and TBil and a significant increase in Alb (all P < 0.05), and compared with the control group, the observation group had a significantly greater reduction in TBil ( Z =-2.165, P =0.030). After treatment, both groups had significant improvements in the levels of CD3 + T, CD4 + T, and CD4 + /CD8 + , and the observation group had significantly greater improvements than the control group ( Z =-2.146, -2.940, and 3.157, P =0.032, 0.003, and 0.002). After treatment, both groups had significant reductions in the levels of TNF-α, IL-6, and ET, and the observation group had significantly greater reductions than the control group ( Z =-2.139, -1.982, and -2.062, P =0.032, 0.048, and 0.043). Both groups had an increase in the number of operational taxonomic units after treatment. As for the abundance of intestinal flora at the phylum level, the observation group had a significant increase in the abundance of Firmicutes and a significant reduction in the abundance of Bacteroidetes after treatment ( Z =-3.181 and -2.215, P =0.001 and 0.027); compared with the control group, the observation group had significantly greater increases in the abundance of Firmicutes and Cyanobacteria and significantly greater reductions in the abundance of Bacteroidetes, Cercozoa, and ε-Proteobacteria (all P < 0.05). At the genus level, the observation group had a significant increase in the abundance of Bifidobacterium after treatment ( Z =-2.045, P =0.041). The alpha-diversity analysis showed that the observation group had significant increases in Chao1 and Ace indices after treatment ( t =-4.263 and -3.328, P =0.001 and 0.005) and a significantly greater increase in Ace index than the control group ( t =2.292, P =0.030). The beta-diversity analysis showed that the two groups had a similar composition of flora without significant difference (all P > 0.05). Conclusion Jiedu Huayu Tongfu prescription, in combination with etiological and basic treatments, can alleviate clinical symptoms, reduce liver injury, and improve cellular immune function in patients with hepatitis B cirrhosis with liver-gallbladder damp-heat syndrome. Jiedu Huayu Tongfu prescription can improve the imbalance of intestinal flora by increasing the abundance of the probiotic bacteria such as Firmicutes, Lactobacillus, and Bifidobacterium and the pathogenic bacteria such as Bacteroidetes and Cercozoa, and its effect in further improving liver and immune function may be associated with the regulation of intestinal microecology.

Coronary artery disease (CAD) is a chronic disease but causes the highest mortality and morbidity among the cardiovascular diseases worldwide. Correlations between CAD and gut microbiota have been observed. This suggests that the gut microbiota could become a vital diagnostic marker of CAD, and restoring the gut habitat may become a promising strategy for CAD therapy. The elevated level of trimethylamine-N-oxide (TMAO), a gut microbiota-derived metabolite, was found to be associated with the increased risk of cardiovascular disease and the all-cause mortality. Preclinical studies have shown that it has pro-arteriosclerosis properties. It is likely that regulating the production of TMAO by gut microbiota may become a promising strategy for anti-atherosclerosis therapy. This review summarizes the clinical and preclinical researches on the intervention of CAD by regulating the gut microbiota and the microbiota-derived metabolite TMAO, with the aim to provide new target for the therapy of CAD.
Coronary Artery Disease ; Gastrointestinal Microbiome ; Humans ; Methylamines ; Oxides