Objective To understand the current situation of nutrition literacy of primary and secondary school students in Shijingshan District of Beijing, and analyze its influencing factors, and to put forward targeted suggestions for improving the students’ nutrition literacy and promoting their healthy growth. Methods A multi-stage stratified cluster sampling method was used to select 2480 primary and secondary school students and their parents from 5 primary schools, 3 middle schools and 1 high school in Shijingshan District. The multivariate logistic regression model was used to analyze the factors influencing the attainment rate of nutrition literacy. Results The median score of nutrition literacy of 2480 primary and secondary school students from grades 1 to 12 was 77.86 (in hundred-mark system), the quartile range (IQR) was 16.96, and the attainment rate of nutrition literacy was 42.46%. The cognitive level (45.12%) was higher than the skill level (41.20%) among students from grades 3 to 12. In terms of skills, the attainment rate of food preparation was the lowest, at 30.38%. The scores of nutrition literacy of girls were higher than those of boys, and the scores of primary school students were higher than those of secondary school students. Students with different levels of caregiver’s education, family income, and family food environment had different scores of nutrition literacy, and the differences were statistically significant (P<0.05). Multivariate logistic regression analysis showed that the attainment rate of nutrition literacy was closely related to student’s gender and study stage, caregiver’s education level, and family food environment. Conclusion The nutrition literacy of primary and secondary school students in Shijingshan District still needs to be improved, especially in the aspect of skills. Targeted nutrition education should be carried out.

Obesity is a significant risk factor for cancer and is associated with breast cancer metastasis. Nevertheless, the mechanism by which alterations in systemic metabolism affect tumor microenvironment (TME) and consequently influence tumor metastasis remains inadequately understood. Herein, we found that perturbations in circulating metabolites induced by obesity promote metastasis-like phenotypes in breast cancer. Oleoylcarnitine (OLCarn) concentrations were elevated in the serum of obese mice and humans. Administration of exogenous OLCarn induces metastasis-like characteristics in breast cancer cells. Mechanistically, OLCarn directly interacts with the Arg176 site of adenylate cyclase 10 (ADCY10), leading to the activation of ADCY10 and enhancement of cAMP production. Mutations at Arg176 prevent OLCarn from binding to ADCY10, disrupting the ADCY10-mediated activation of cyclic adenosine monophosphate (cAMP) signaling pathway. This activation promotes transcription factor 4 (TCF4)-dependent kinesin family member C1 (KIFC1) transcription, thereby driving breast cancer metastasis. Conversely, the neutralization of both ADCY10 and KIFC1 through knockdown or pharmacological inhibition abrogates the oncogenic effects mediated by OLCarn. Hence, obesity-induced systemic environmental changes lead to the aberrant accumulation of OLCarn within the TME, making it a potential therapeutic target and biomarker for breast cancer.

CRISPR/Cas9-based therapeutics face significant challenges in penetrating the dense microenvironment of solid tumors, resulting in insufficient gene editing and compromised treatment efficacy. Current nanostrategies, which mainly focus on the paracellular pathway attempted to improve gene editing performance, whereas their efficiency remains uneven in the heterogenous extracellular matrix. Here, the nanoCRISPR system is prepared with self-cascading mechanisms for gene editing-mediated robust apoptosis and transcellular penetration. NanoCRISPR unlocks its self-cascade capability within the matrix metallopeptidase 2-enriched tumor microenvironment, initiating the transcellular penetration. By facilitating cellular uptake, nanoCRISPR triggers robust apoptosis in edited malignancies, promoting further transcellular penetration and amplifying gene editing in neighboring tumor cells. Benefiting from self-cascade between robust apoptosis and transcellular penetration, nanoCRISPR demonstrates continuous gene transfection/tumor killing performance (transfection/apoptosis efficiency: 1st round: 85%/84.2%; 2nd round: 48%/27%) and homogeneous penetration. In xenograft tumor-bearing mice, nanoCRISPR treatment achieves remarkable anti-tumor efficacy (∼83%) and significant survival benefits with minimal toxicity. This strategy presents a promising paradigm emphasizing transcellular penetration to enhance the effectiveness of CRISPR-based antitumor therapeutics.

Objective:To explore the association between aldehyde dehydrogenase 2 (ALDH2) gene polymorphisms and abnormal liver function-induced by acetaminophen (APAP) drugs.Methods:An ALDH2 gene knockout mouse model was constructed using CRISPR/Cas9 gene editing technology. The obtained heterozygous mice were mated with opposite sex of heterozygotes. Genomic DNA was extracted from the tail of the offspring mouse. The polymerase chain reaction (PCR) method was used to determine the ALDH2 genotype. APAP was further used to induce acute drug-induced liver injury models in wild-type and ALDH2 knockout mice. Blood and liver tissues of mice were collected for liver function index, HE staining, F4/80 immunohistochemistry, and other detections. The intergroup mean was compared using a one-way ANOVA. The LSD-? t test was used for pairwise comparison. Results:ALDH2 knockout mice were bred successfully. The genotyping of the offspring was segregated into the wild-type (ALDH2 +/+), heterozygous mutant (ALDH2 +/-), and homozygous mutant (ALDH2 -/-), respectively. Biochemical and histological results after APAP modeling showed that the level of alanine aminotransferase (ALT), aspartate aminotransferase (AST), alkaline phosphatase (ALP), and total bilirubin (TBil) was not significantly increased in the blank control group ( P ?

Humans ; Consanguinity ; Exome Sequencing ; Mutation/genetics* ; Sequence Analysis, DNA ; Ciliary Motility Disorders ; Axonemal Dyneins/genetics*

Objective To observe the effect of deglycerolized red blood cells suspended in MAP on preservation and ex-plore the most effective preservation method.Methods Concentrated red blood cells were prepared by centrifuging 400 mL of whole blood on the third day after collection.40%compound glycerol solution was added using the ACP 215 automatic blood cell analyzer,and the resulting mixture was stored in an ultra-low temperature refrigerator at-65℃for 30 days.After thawing and washing,it was equally separated into two bags.The control group received 0.9%sodium chloride solution,while the experimental group received MAP.Both groups were stored at 2-6℃.Hematological parameters,hemolysis inde-xes and cell metabolism indexes were measured on day 0,1,3,5,7 and 14 after storage.The quality changes of both groups were observed during the 14-day storage period.Results The quality of red blood cells in both groups was assessed through a panel of quality tests,including volume,hemoglobin content,free hemoglobin content,white blood cell residue,glycerin residue and sterility.These results met the Quality Requirements outlined in the"Quality Requirements of Whole Blood and Component Blood"(GB18469-2012),Hematocrit,red blood cell count,Hb recovery rate after washing and MCV meet the detection limit outlined in the"Expert Consensus on Quality Evaluation Indicators for Frozen Red Blood Cells",and the residual amount of platelets exceeds the detection limit(≤1%).There were no significant differences in RBC,Hct,MCV and hemoglobin between the two groups during the 14 day storage period.The level of free hemoglobin,hemolysis rate and K+value increased in both groups over time.Significant differences in free hemoglobin were found on day 3,5,7 and 14 between the two groups(P<0.05).Hemolysis rate was significantly different on days 3,5,7 and 14,while K+value was significantly different only on day 14(P<0.05).On day 14,the osmotic fragility of red blood cells was higher in the control group than in the experimental group(P<0.05);The ATP and pH values of both groups decreased as storage time in-creased,and significant differences in ATP and pH value were found on day 3,5,7 and on day 1,3,5,7 and 14,respec-tively(P<0.05).Conclusion Deglycerolized red blood cells suspended in MAP additive solution can extend the storage period of blood to 7 days.This study provides a reference for the formulation of relevant standards.