The aim of this study is to identify the cause of death of a South China tiger cub at the Meihuashan breeding institute of Fujian Province.Pathogenic bacteria were isolated and cultured from liver,spleen,lung and other tissue samples of the dead South China tiger aseptically.The iso-lated bacteria were identified through morphological observation,biochemical characterization,sequence analysis of housekeeping gene gyrB,virulence gene detection,animal pathogenicity test and drug sensitivity test.A pathogenic Aeromonas hydrophila strain,designated FJ/Tiger-201809 was successfully isolated from the trachea of dead South China tiger.The nucleotide sequence ho-mology between the isolate and 11 strains of Aeromonas gyrB ranged from 91.2％to 99.1％,with the highest homology of 99.1％observed with Aeromonas hydrophila(AF208251.1).Genetic evo-lution analysis showed that the isolated strain FJ/Tiger-201809 was in the same evolutionary branch as other reference strains of Aeromonas hydrophila and was closely related.The pathoge-nicity test in mice showed artificial infection of mice with the strain resulted in varying degrees of lesions in several organs of the mice,and the median lethal dose(LD50)was 1 × 107.8 CFU/mL.Virulence gene test results showed that the isolate FJ/Tiger-201809 carried two virulence genes,aer and act.The results of drug sensitivity test showed that FJ/Tiger-201809 was highly sensitive to enrofloxacin and ampicillin among 18 commonly used antibiotics,relatively sensitive to penicil-lin G and doxycycline,and resistant to the other 14 antibiotics.In conclusion,this study isolated and identified a strain of Aeromonas hydrophila from a dead South China tiger with multiple drug resistance and strong pathogenicity,which provided an important reference for the prevention and control of bacterial diseases in South China tiger.

BACKGROUND:Photoresponsive nanomaterials offer the combined advantages of nanomaterials and the unique benefits of light responsiveness.They find extensive applications in biomedical fields like tissue regeneration,biological imaging,disease diagnosis,drug delivery,and targeted therapy,making them a research hotspot in the field of functional materials.OBJECTIVE:To summarize the advantages and research progress of photoresponsive nanomaterials in bone tissue regeneration.METHODS:CNKI and PubMed databases were searched using the main English search terms"light-responsive,photoresponsive,nanomaterials,bone defect,bone regeneration,osteogenesis,osseointegration"and main Chinese search terms"light-responsive,nanomaterials,bone defect,bone regeneration,osseointegration."Relevant literature was selected based on inclusion and exclusion criteria,resulting in the inclusion of 59 articles for review.RESULTS AND CONCLUSION:The surface morphology of photoresponsive nanomaterials can promote bone tissue regeneration by directly modulating the gene expression and biological behavior of osteoblasts and indirectly regulating immune-related cells behavior.Photoresponsive nanomaterials can be utilized for photothermal and photodynamic antibacterial purposes to facilitate the repair of infectious bone defects.Mild photothermal stimulation generated by photoresponsive nanomaterials can effectively enhance osteogenesis by upregulating the expression and functionality of osteogenic-related genes and proteins.Photoresponsive nanomaterials can produce electrons under light exposure,thereby achieving non-invasive promotion of bone tissue regeneration by modulating local cellular potential changes.Drug release systems based on photoresponsive nanomaterials can undergo structural changes under specific light sources to promote drug release,providing targeted therapeutic strategies for bone tissue regeneration.

BACKGROUND:Photoresponsive nanomaterials offer the combined advantages of nanomaterials and the unique benefits of light responsiveness.They find extensive applications in biomedical fields like tissue regeneration,biological imaging,disease diagnosis,drug delivery,and targeted therapy,making them a research hotspot in the field of functional materials.OBJECTIVE:To summarize the advantages and research progress of photoresponsive nanomaterials in bone tissue regeneration.METHODS:CNKI and PubMed databases were searched using the main English search terms"light-responsive,photoresponsive,nanomaterials,bone defect,bone regeneration,osteogenesis,osseointegration"and main Chinese search terms"light-responsive,nanomaterials,bone defect,bone regeneration,osseointegration."Relevant literature was selected based on inclusion and exclusion criteria,resulting in the inclusion of 59 articles for review.RESULTS AND CONCLUSION:The surface morphology of photoresponsive nanomaterials can promote bone tissue regeneration by directly modulating the gene expression and biological behavior of osteoblasts and indirectly regulating immune-related cells behavior.Photoresponsive nanomaterials can be utilized for photothermal and photodynamic antibacterial purposes to facilitate the repair of infectious bone defects.Mild photothermal stimulation generated by photoresponsive nanomaterials can effectively enhance osteogenesis by upregulating the expression and functionality of osteogenic-related genes and proteins.Photoresponsive nanomaterials can produce electrons under light exposure,thereby achieving non-invasive promotion of bone tissue regeneration by modulating local cellular potential changes.Drug release systems based on photoresponsive nanomaterials can undergo structural changes under specific light sources to promote drug release,providing targeted therapeutic strategies for bone tissue regeneration.

The aim of this study is to identify the cause of death of a South China tiger cub at the Meihuashan breeding institute of Fujian Province.Pathogenic bacteria were isolated and cultured from liver,spleen,lung and other tissue samples of the dead South China tiger aseptically.The iso-lated bacteria were identified through morphological observation,biochemical characterization,sequence analysis of housekeeping gene gyrB,virulence gene detection,animal pathogenicity test and drug sensitivity test.A pathogenic Aeromonas hydrophila strain,designated FJ/Tiger-201809 was successfully isolated from the trachea of dead South China tiger.The nucleotide sequence ho-mology between the isolate and 11 strains of Aeromonas gyrB ranged from 91.2％to 99.1％,with the highest homology of 99.1％observed with Aeromonas hydrophila(AF208251.1).Genetic evo-lution analysis showed that the isolated strain FJ/Tiger-201809 was in the same evolutionary branch as other reference strains of Aeromonas hydrophila and was closely related.The pathoge-nicity test in mice showed artificial infection of mice with the strain resulted in varying degrees of lesions in several organs of the mice,and the median lethal dose(LD50)was 1 × 107.8 CFU/mL.Virulence gene test results showed that the isolate FJ/Tiger-201809 carried two virulence genes,aer and act.The results of drug sensitivity test showed that FJ/Tiger-201809 was highly sensitive to enrofloxacin and ampicillin among 18 commonly used antibiotics,relatively sensitive to penicil-lin G and doxycycline,and resistant to the other 14 antibiotics.In conclusion,this study isolated and identified a strain of Aeromonas hydrophila from a dead South China tiger with multiple drug resistance and strong pathogenicity,which provided an important reference for the prevention and control of bacterial diseases in South China tiger.

Objective To systematically evaluate the effect of speech and language therapies and educational interventions on chil-dren with intellectual and developmental disabilities(IDD). Methods A systematic review was conducted by searching relevant literature in PubMed,PsycINFO,ERIC,Cochrane Library and Web of Science databases,ranging from January,2018 to May,2024. Results A total of eight English articles were included,from six countries including the United States,France,Italy,Nor-way,Poland and New Zealand,involving 610 children with IDD,from journals about speech language pathology,Down syndrome research and speech language hearing research.The publication time was mainly from 2018 to 2023.The age of the subjects was two to twelve years,and the main health conditions included intellectual dis-ability,autism and Down syndrome.The intervention methods included routine speech therapy(individualized therapy and group therapy),augmentative and alternative communication(device-assisted and sign language and picture cards),family-involved language training programs(parent training and family interaction),computer-as-sisted language learning(language learning software and telehealth),and play-based interventions(interactive games and structured games);15 to 150 minutes a time,one to ten times a week,for ten to 144 weeks.The out-comes were reflected in five aspects:increasing the vocabulary in speaking;improving the language comprehen-sion,symbol recognition and vocabulary comprehension;improving both expressive and receptive language skills;improving participation in game diversity and game participation levels,communication,social interaction and interaction skills;and improving overall language and non-verbal communication skills. Conclusion Combining a variety of methods,such as individualized therapy,family participation,technologic assistance and interactive games,speech and language therapies and education are effective on spoken language production,language comprehension,speech production,social interaction and communication skills for children with IDD.

Circular RNA (circRNA) is widely expressed in eukaryotes. Abnormal expression of specific circRNA was found in both animal models with cognitive decline and patients with cognitive dysfunction.However, the role of circRNA in cognitive dysfunction related diseases is still unclear. By introducing the expression of circRNA in cognitive function related brain regions and its impact on brain structure and function, as well as the relevant research progress on the pathological mechanism of circRNA involvement in cognitive dysfunction related diseases, this review provides theoretical basis for revealing the pathological mechanism of circRNA in cognitive dysfunction related diseases and discovering specific circRNA targets for preventing and treating cognitive dysfunction.

OBJECTIVE: To explore the genetic basis for two patients from a family with BCL11A-related intellectual disability (BCL11A-ID). METHODS: Clinical data of the proband and her family members was analyzed. Chromosomal karyotyping analysis, trio-whole exome sequencing (trio-WES) and copy number variation sequencing (CNV-seq) were carried out. For the suspected genetic variants, Sanger sequencing was used to verify, and pathogenicity assessment was conducted. RESULTS: The proband and her mother both had intellectual and language impairment, and their fetal hemoglobin (HbF) was significantly elevated. A heterozygous c.1327_c.1328delTC (p.Ser443Hisfs*128) variant was found in exon 4 of the BCL11A gene by WES, which has resulted in truncated expression of the encoded protein, and Sanger sequencing has verified that the variant was inherited from the mother. The variant was not found in related databases. The variant was predicted as pathogenic according to the guidelines from the American College of Medical Genetics and Genomics (ACMG) (PVS1+PM2+PP1). No karyotypic abnormality was found in the proband, her parents and brother, and no pathogenic CNVs was found in the proband and her parents. CONCLUSION The c.1327_c.1328delTC (p.Ser443Hisfs*128) variant may underlay the BCL11A-ID in the proband and her mother. This de novo variant has expanded the mutational spectrum of the BCL11A gene.
Humans ; Male ; Female ; Intellectual Disability/genetics* ; DNA Copy Number Variations ; Pedigree ; Mutation ; Transcription Factors/genetics* ; Mothers ; Repressor Proteins/genetics*

Objective:To explore the genotype and clinical phenotype characteristics of patients with pancreatic agenesis caused by GATA6 gene mutations and to improve the clinical understanding of pancreatic agenesis.Methods:The clinical data of a newborn with pancreatic agenesis admitted to the Second Hospital of Shandong University were retrospectively analyzed. Relevant literature published until October 31, 2022, were retrieved from China National Knowledge Infrastructure, Wanfang Database, VIP Database, Chinese Medical Journal Full Text Database, PubMed, Embase and SCI Database with the terms of "pancreatic agenesis", "GATA6", "pancreatic agenesis/hypoplasia" and "GATA6 Translation Factor". The characteristics of gene variants and clinical manifestations of patients diagnosed with pancreatic agenesis caused by GATA6 gene mutation were retrieved and summarized.Results:This case was a full-term male infant who developed insulin dependent hyperglycemia and fatty diarrhea 2 d after birth, accompanied by intrauterine growth restriction, congenital heart disease, and cryptorchidism. Genetic testing showed a novel heterozygous mutation of GATA6 (c.1366C>T) which was consistent with the autosomal dominant inheritance pattern. The phenotype and genotype between the proband and his parents were consistent with the cosegregation. The ACMG mutation was rated as pathogenic variant. Intravenous infusion of insulin, subcutaneous injection of insulin, or long-acting insulin were not effective. After continuous subcutaneous pumping of aspartic insulin combined with oral pancreatic enzyme replacement therapy, the infant's condition was improved and discharged. Follow up to age of 15 months, the patient still relied on continuously subcutaneous pump to control blood glucose, pancreatic exocrine function was back to normal, and the development was generally normal. A total of 59 cases were reported in 22 articles, with the case from our hospital, there were 60 patients in total. Among them, 47 were probands and 13 were family members, about 61.7% (29/47) of which were de novo mutations. There were 39 variants, of which 28.2% (11/39) were missense mutations and 71.8% (28/39) were functional deletion variations. Mutations of GATA6 gene had a broad phenotype spectrum. The phenotypes mainly included neonatal diabetes mellitus ( n=39) and pancreatic exocrine insufficiency ( n=39). Other extra-pancreatic features included different types of congenital heart disease ( n=54), congenital biliary abnormalities ( n=23), intestinal developmental disorders ( n=16), neurocognitive disorders ( n=18) and endocrine abnormalities ( n=15). Conclusions:The heterozygous variations of GATA6 gene lead to pancreatic hypoplasia and a broad phenotype spectrum. The pancreatic phenotypes mainly include neonatal diabetes mellitus and pancreatic exocrine insufficiency, and extra-pancreatic phenotypes include congenital heart disease and other developmental abnormalities.

Steroid hormones, including progestagens, estrogens, androgens, corticosteroids, and their precursor cholesterol, perform essential functions in the successful establishment and maintenance of pregnancy and normal fetal development. As the core endocrine organ at the prenatal stage, the human placenta is involved in the biosynthesis, metabolism, and delivery of steroid hormones. Steroidogenic pathways are tightly regulated by placenta-intrinsic cytochrome P450 and hydroxysteroid dehydrogenase. However, the relationship between placental steroidogenic enzyme expression and adverse pregnancy outcomes is controversial. In this review, we summarize the possible upstream regulatory mechanisms of placental steroidogenic enzymes in physiologic and pathophysiologic states. We also describe the human placental barrier model and examine the potential of single-cell sequencing for evaluating the primary functions and cellular origin of steroidogenic enzymes. Finally, we examine the existing evidence for the association between placental steroidogenic enzyme dysregulation and adverse pregnancy outcomes.

Steroid hormones, including progestagens, estrogens, androgens, corticosteroids, and their precursor cholesterol, perform essential functions in the successful establishment and maintenance of pregnancy and normal fetal development. As the core endocrine organ at the prenatal stage, the human placenta is involved in the biosynthesis, metabolism, and delivery of steroid hormones. Steroidogenic pathways are tightly regulated by placenta-intrinsic cytochrome P450 and hydroxysteroid dehydrogenase. However, the relationship between placental steroidogenic enzyme expression and adverse pregnancy outcomes is controversial. In this review, we summarize the possible upstream regulatory mechanisms of placental steroidogenic enzymes in physiologic and pathophysiologic states. We also describe the human placental barrier model and examine the potential of single-cell sequencing for evaluating the primary functions and cellular origin of steroidogenic enzymes. Finally, we examine the existing evidence for the association between placental steroidogenic enzyme dysregulation and adverse pregnancy outcomes.