BACKGROUND:Matrigel is the best material for the culture of tumor organoids,but matrigel alone is not enough to simulate the mechanical environment of tumor growth in vitro.Although the introduction of sodium alginate material can improve the stiffness of the hydrogel based on matrigel,its mechanical properties of hydrogel are difficult to maintain stability in long-term culture.OBJECTIVE:To introduce a small amount of calcium ions into the medium of breast cancer organoids and to observe its maintenance effect on the long-term mechanical properties of the matrigel-sodium alginate hydrogel.METHODS:(1)Sodium alginate composite hydrogels with low,medium,and high stiffness were prepared by introducing different mass concentrations(0,2.5,and 5 mg/mL)of sodium alginate into the constant mass concentration(5 mg/mL)of matrigel.The mechanical properties of hydrogels were measured regularly by rheometer.(2)Human triple negative breast cancer cells MDA-MB-231 were resuspended in hydrogel pre-gels with different stiffness.After gelling,breast cancer organoid factor medium containing(or without)calcium ions was added for breast cancer organoid culture.At a set time point,rheometer was used to regularly measure the effect of calcium ion introduction on the mechanical properties of hydrogel.The morphologic changes of breast cancer organoids were observed under optical microscope.Rate of breast cancer organoids forming into pellets was calculated on day 13.After 7 days of breast cancer organoid culture,different concentrations of the chemotherapy drug docetaxel(0.1,1,10,and 100 nmol/L)were added for intervention for 6 days.Cell viability was detected and the semi-inhibitory concentration of docetaxel,IC50,was calculated.RESULTS AND CONCLUSION:(1)The introduction of sodium alginate effectively improved the mechanical strength of the composite hydrogel.(2)With the extension of breast cancer organoid culture time,the mechanical strength of hydrogels decreased.On day 13 of culture,the mechanical properties of medium and high stiffness hydrogels in the culture environment containing calcium ions were significantly higher than those in the culture environment without calcium ions(P<0.05).There was no significant change in the mechanical properties of low stiffness hydrogels in the two cultures(P>0.05).In long-term culture(13 days),breast cancer organoids changed from round to spindle shape with the decrease of hydrogel mechanical properties in the medium and high stiffness hydrogel groups.After the introduction of calcium ions,the morphology of breast cancer organoids did not change with the extension of culture time in the two groups.The introduction of calcium ions in the culture environment had no effect on the pellet formation rate of breast cancer organoids in the low stiffness hydrogel group,but could improve the pellet formation rate of breast cancer organoids in the medium and high stiffness hydrogel groups.(3)In the culture environment without calcium ions,the cell viability of breast cancer organoids decreased with the increase of docetaxel concentration,and there was no significant difference in IC50 among the three hydrogel groups(P>0.05).In the culture environment containing calcium ions,the cell viability of breast cancer organoids decreased with the increase of docetaxel concentration.The cell viability of breast cancer organoids in the medium and high stiffness hydrogel groups was stronger than that in the low stiffness hydrogel group,and the IC50 was higher than that in the low stiffness hydrogel group(P<0.05).(4)The results showed that the mechanical properties of the matrigel-sodium alginate hydrogel could be maintained by introducing calcium ions into the breast cancer organoid culture system.

Objective To observe the ultrasonic manifestations of local recurrence(LR)of breast cancer after surgery.Methods Totally 82 female breast cancer patients with local hypoechoic in surgical area who underwent ultrasound follow-up were enrolled and divided into LR group(n=18)and non LR group(n=64)according to the local hypoechoic was LR or not.Clinical data and ultrasonic manifestations of primary lesion before operation and postoperative local hypoechoic were observed and compared between groups.Results Significant differences of surgical resection type,molecular subtype,status of smooth muscle actin,Calponin status,Ki-67 status,clinical staging,the maximum diameter and posterior echo of the primary lesion,as well as of involved tissue layer,location,long axis parallel to the skin or not,edge,internal echo,posterior echo,skin change and Adler blood flow grading of local hypoechoic in resection area were found between groups(all P＜0.05).Conclusion Ultrasonic manifestations of LR of breast cancer after surgery had certain characteristics.

Objective To observe the ultrasonic manifestations of local recurrence(LR)of breast cancer after surgery.Methods Totally 82 female breast cancer patients with local hypoechoic in surgical area who underwent ultrasound follow-up were enrolled and divided into LR group(n=18)and non LR group(n=64)according to the local hypoechoic was LR or not.Clinical data and ultrasonic manifestations of primary lesion before operation and postoperative local hypoechoic were observed and compared between groups.Results Significant differences of surgical resection type,molecular subtype,status of smooth muscle actin,Calponin status,Ki-67 status,clinical staging,the maximum diameter and posterior echo of the primary lesion,as well as of involved tissue layer,location,long axis parallel to the skin or not,edge,internal echo,posterior echo,skin change and Adler blood flow grading of local hypoechoic in resection area were found between groups(all P＜0.05).Conclusion Ultrasonic manifestations of LR of breast cancer after surgery had certain characteristics.

BACKGROUND:Matrigel is the best material for the culture of tumor organoids,but matrigel alone is not enough to simulate the mechanical environment of tumor growth in vitro.Although the introduction of sodium alginate material can improve the stiffness of the hydrogel based on matrigel,its mechanical properties of hydrogel are difficult to maintain stability in long-term culture.OBJECTIVE:To introduce a small amount of calcium ions into the medium of breast cancer organoids and to observe its maintenance effect on the long-term mechanical properties of the matrigel-sodium alginate hydrogel.METHODS:(1)Sodium alginate composite hydrogels with low,medium,and high stiffness were prepared by introducing different mass concentrations(0,2.5,and 5 mg/mL)of sodium alginate into the constant mass concentration(5 mg/mL)of matrigel.The mechanical properties of hydrogels were measured regularly by rheometer.(2)Human triple negative breast cancer cells MDA-MB-231 were resuspended in hydrogel pre-gels with different stiffness.After gelling,breast cancer organoid factor medium containing(or without)calcium ions was added for breast cancer organoid culture.At a set time point,rheometer was used to regularly measure the effect of calcium ion introduction on the mechanical properties of hydrogel.The morphologic changes of breast cancer organoids were observed under optical microscope.Rate of breast cancer organoids forming into pellets was calculated on day 13.After 7 days of breast cancer organoid culture,different concentrations of the chemotherapy drug docetaxel(0.1,1,10,and 100 nmol/L)were added for intervention for 6 days.Cell viability was detected and the semi-inhibitory concentration of docetaxel,IC50,was calculated.RESULTS AND CONCLUSION:(1)The introduction of sodium alginate effectively improved the mechanical strength of the composite hydrogel.(2)With the extension of breast cancer organoid culture time,the mechanical strength of hydrogels decreased.On day 13 of culture,the mechanical properties of medium and high stiffness hydrogels in the culture environment containing calcium ions were significantly higher than those in the culture environment without calcium ions(P<0.05).There was no significant change in the mechanical properties of low stiffness hydrogels in the two cultures(P>0.05).In long-term culture(13 days),breast cancer organoids changed from round to spindle shape with the decrease of hydrogel mechanical properties in the medium and high stiffness hydrogel groups.After the introduction of calcium ions,the morphology of breast cancer organoids did not change with the extension of culture time in the two groups.The introduction of calcium ions in the culture environment had no effect on the pellet formation rate of breast cancer organoids in the low stiffness hydrogel group,but could improve the pellet formation rate of breast cancer organoids in the medium and high stiffness hydrogel groups.(3)In the culture environment without calcium ions,the cell viability of breast cancer organoids decreased with the increase of docetaxel concentration,and there was no significant difference in IC50 among the three hydrogel groups(P>0.05).In the culture environment containing calcium ions,the cell viability of breast cancer organoids decreased with the increase of docetaxel concentration.The cell viability of breast cancer organoids in the medium and high stiffness hydrogel groups was stronger than that in the low stiffness hydrogel group,and the IC50 was higher than that in the low stiffness hydrogel group(P<0.05).(4)The results showed that the mechanical properties of the matrigel-sodium alginate hydrogel could be maintained by introducing calcium ions into the breast cancer organoid culture system.

Pancreatic β-cell failure due to a reduction in function and mass has been defined as a primary contributor to the progression of type 2 diabetes (T2D). Reserving insulin-producing β-cells and hence restoring insulin production are gaining attention in translational diabetes research, and β-cell replenishment has been the main focus for diabetes treatment. Significant findings in β-cell proliferation, transdifferentiation, pluripotent stem cell differentiation, and associated small molecules have served as promising strategies to regenerate β-cells. In this review, we summarize current knowledge on the mechanisms implicated in β-cell dynamic processes under physiological and diabetic conditions, in which genetic factors, age-related alterations, metabolic stresses, and compromised identity are critical factors contributing to β-cell failure in T2D. The article also focuses on recent advances in therapeutic strategies for diabetes treatment by promoting β-cell proliferation, inducing non-β-cell transdifferentiation, and reprograming stem cell differentiation. Although a significant challenge remains for each of these strategies, the recognition of the mechanisms responsible for β-cell development and mature endocrine cell plasticity and remarkable advances in the generation of exogenous β-cells from stem cells and single-cell studies pave the way for developing potential approaches to cure diabetes.

Objective To evaluate the changes in the incidence of neural tube defects(NTDs)in Shaanxi province from 2003 to 2022,investigate the diagnosis time and outcomes of defective infants,and pre-dict the incidence of NTDs in Shaanxi province from 2023 to 2025,thereby providing a basis for improving the birth defects surveillance system.Methods Data were collected from all the perinatal infants from 28 weeks of gestation to 7 days after birth in all the hospitals with obstetrical department in Shaanxi province during 2003-2022.The changes in the incidence of NTDs from 2003 to 2022 were analyzed based on the birth defects surveil-lance system.Results A total of 1 106 483 perinatal infants in Shaanxi province from 2003 to 2022 were surveyed,among which NTDs occurred in 848 perinatal infants,with an incidence of 7.66/10 000.The incidence was the highest(48.02/10 000)in 2005 and the lowest(0.57/10 000)in 2022.The NTDs in Shaanxi province were mainly spina bifida(55.90％),which was followed by anencephaly(25.71％)and encephalocele(18.40％).The incidences of the three declined with fluctuations(P＜0.001).The results of the Joinpoint analysis showed that the incidence of NTDs decreased slowly with the annual percentage change of-4.04 from 2003 to 2014 and declined rapidly with the annual percentage change of-28.05 from 2014 to 2022.From 2003 to 2022,the aver-age proportion of prenatal diagnosis of NTDs in Shaanxi province was 72.88％.Dead fetus(61.91％)was the main birth outcome,followed by live birth(26.77％),stillbirth(8.73％),and death within seven days after birth(2.59％).The incidence of NTDs in Shaanxi province from 2023 to 2025 were predicted by the GM(1,1)model as 0.49/10 000,0.41/10 000,and 0.35/10 000,respectively.Conclusions The incidence of NTDs in Shaanxi province declined significantly during 2003-2022,especially in a rapid manner after 2014.Dead fetus was the primary outcome of perinatal infants with NTDs,followed by live birth.

Objective:To investigate the correlation between RYR1 gene and the development of gastric cancer,as well as the mechanism of RYR1 in promoting the progression of gastric cancer.Methods:We analyzed gastric cancer data from TCGA and conducted high-throughput targeted sequencing and transcriptome sequencing on 81 gastric cancer tissue samples at Tianjin Medical University Cancer Institute&Hos-pital(TJMUCH)from December 2010 to December 2012.We collected clinicopathological data,compared the correlation between RYR1 mutations and expression levels,and analyzed the impact of RYR1 on the prognosis of patients with gastric cancer.Additionally,we explored the underlying molecular mechanism to study its role in promoting the development of gastric cancer by generating stable cell lines overex-pressing RYR1.Results:In TCGA gastric cancer patients,the mutation rate of RYR1 in Asian population was higher than that in others popula-tion(12.68%vs.8.13%).In gastric cancer patients from TJMUCH,RYR1 mutations ranked ninth in frequency,with a mutation rate of 33.33%.Mutations in RYR1 were negatively correlated with RYR1 expression(P=0.006 9,P<0.000 1).Patients with high RYR1 expression had significantly worse overall survival than those with low RYR1 expression(P=0.009 0,P=0.042 0).Overexpression of RYR1 promoted prolifera-tion,migration,invasion and reduced apoptosis of gastric cancer cell lines.Moreover,RYR1 overexpression was associated with decreased sensitivity to chemotherapeutic drugs in gastric cancer cells.Inhibiting RYR1-mediated calcium over-release could suppress malignant beha-viors and reverse chemoresistance.Conclusions:RYR1 had a high mutation rate in Asian gastric cancer patients and a significantly negative correlation with RYR1 mRNA levels.High RYR1 expression serves as a novel prognostic predictive marker for gastric cancer.RYR1 overex-pression promoted malignant progression of gastric cancer and chemoresistance by increasing the release of calcium ions from the endo-plasmic reticulum.Thus,RYR1 inhibition can reduce the proliferation,migration,and invasion of gastric cancer cells and reverse chemores-istance,which highlights potential combination therapies for gastric cancer.

The pursuit of cosmetic effects in post-surgical wounds has led to the development of ultra-minimally invasive techniques in surgery. Minimal invasive surgery has replaced open surgery and has become the new gold-standard for treating diseases. One such technique is the single incision triangulated umbilicus surgery (SITUS), which offers several advantages over traditional laparoscopic and other scarless surgeries, including reduced trauma, faster recovery, and better cosmetic outcomes. SITUS also has a short learning curve, aligns with conventional instrumentation operating habits, and can be used for whole abdominal surgeries. Chinese scholars have made further improvements to the SITUS technology, including expanding its applicability in intra-abdominal surgery and refining its incision closure methods to achieve superior cosmetic results. Currently, SITUS technology is experiencing rapid development in urology applications and has demonstrated satisfactory results in both domestic and international reports. This review aims to discuss the effectiveness and development of the SITUS technique in urology.

BACKGROUND: Pancreatic β-cells elevate insulin production and secretion through a compensatory mechanism to override insulin resistance under metabolic stress conditions. Deficits in β-cell compensatory capacity result in hyperglycemia and type 2 diabetes (T2D). However, the mechanism in the regulation of β-cell compensative capacity remains elusive. Nuclear factor-Y (NF-Y) is critical for pancreatic islets' homeostasis under physiological conditions, but its role in β-cell compensatory response to insulin resistance in obesity is unclear. METHODS: In this study, using obese ( ob/ob ) mice with an absence of NF-Y subunit A (NF-YA) in β-cells ( ob , Nf-ya βKO) as well as rat insulinoma cell line (INS1)-based models, we determined whether NF-Y-mediated apoptosis makes an essential contribution to β-cell compensation upon metabolic stress. RESULTS: Obese animals had markedly augmented NF-Y expression in pancreatic islets. Deletion of β-cell Nf-ya in obese mice worsened glucose intolerance and resulted in β-cell dysfunction, which was attributable to augmented β-cell apoptosis and reactive oxygen species (ROS). Furthermore, primary pancreatic islets from Nf-ya βKO mice were sensitive to palmitate-induced β-cell apoptosis due to mitochondrial impairment and the attenuated antioxidant response, which resulted in the aggravation of phosphorylated c-Jun N-terminal kinase (JNK) and cleaved caspase-3. These detrimental effects were completely relieved by ROS scavenger. Ultimately, forced overexpression of NF-Y in INS1 β-cell line could rescue palmitate-induced β-cell apoptosis, dysfunction, and mitochondrial impairment. CONCLUSION Pancreatic NF-Y might be an essential regulator of β-cell compensation under metabolic stress.
Rats ; Mice ; Animals ; Reactive Oxygen Species/metabolism* ; Diabetes Mellitus, Type 2/metabolism* ; Insulin Resistance ; Insulin ; Insulin-Secreting Cells/metabolism* ; Apoptosis ; Stress, Physiological ; Transcription Factors/metabolism* ; Palmitates/pharmacology* ; Obesity/metabolism*

Loofah seeds ribosome inactivating protein luffin-α was fused with a tumor-targeting peptide NGR to create a recombinant protein, and its inhibitory activity on tumor cells and angiogenesis were assessed. luffin-α-NGR fusion gene was obtained by PCR amplification. The fusion gene was ligated with pGEX-6p-1 vector to create a recombinant plasmid pGEX-6p-1/luffin-α-NGR. The plasmid was transformed into E. coli BL21, and the target protein was isolated and purified by GST affinity chromatography. The luffin-α-NGR fusion gene with a full length of 849 bp was successfully obtained, and the optimal soluble expression of the target protein was achieved under the conditions of 16 ℃, 0.5 mmol/L IPTG after 16 h induction. SDS-PAGE and Western blotting confirmed the recombinant protein has an expected molecular weight of 56.6 kDa. Subsequently, the recombinant protein was de-tagged by precision protease digestion. The inhibitory effects of the recombinant protein on liver tumor cells HepG2 and breast cancer cells MDA-MB-231 were significantly stronger than that of luffin-α. The Transwell and CAM experiment proved that the recombinant protein luffin-α-NGR also had a significant inhibitory effect on tumor cells migration and neovascularization. The inhibitory activity on tumor cells and angiogenesis of the recombinant luffin-α-NGR protein lays a foundation for the development of subsequent recombinant tumor-targeting drugs.
Electrophoresis, Polyacrylamide Gel ; Escherichia coli/metabolism* ; Plasmids ; Recombinant Proteins/pharmacology* ; Saporins/metabolism*