Chirality is not only a natural phenomenon but also a bridge between chemistry and life sciences. An effective way to obtain a single enantiomer is through racemates resolution. Recent literature shows that chiral metal-organic frameworks (CMOFs) have many applications in various fields because of their diverse topologies and functionalities. This review outlines the design idea and summarizes the latest synthesis strategies and applications of CMOFs. It highlights key advances and issues in the separation domain. In conclusion, the review provides perspectives on the challenges and prospective advancements of CMOFs materials and CMOFs-based separation technologies.

OBJECTIVE To screen and obtain nanobodies with neutralizing activity against granulo-cyte-macrophage colony stimulating factor(GM-CSF)to contribute to investigations into the mecha-nism of inflammation interventions and the development new drugs.METHODS Recombinant human GM-CSF was subcutaneously injected to immunize camels.Peripheral blood was collected after five immunizations,and mononuclear cells were isolated.Total mRNA was extracted,and the variable domains of the heavy chain of heavy-chain antibody(VHH,also called nanobody)genes were obtained by PCR amplification after reverse transcription.The genes were cloned into the pADSCFV-S phage display vector and electrotransformed into TG1 competent cells to construct a nanobody immune library that was screened with recombinant human GM-CSF immobilized on a solid phase.The VHH genes specifi-cally binding to human GM-CSF were cloned into the pABG eukaryotic expression vector before VHH-Fc samples were prepared by using the human embryonic kidney 293 fibroblast expression system.The binding activity of candidate VHH-Fc molecules to GM-CSF was investigated through ELISA response curves,and binding colorimetric values with different antigens were detected to determine their specificity.The binding affinity between VHH-Fc candidates and GM-CSF was measured using biolayer interferom-etry(BLI).The inhibition rate curve of VHH-Fc candidates on GM-CSF was detected through cell prolif-eration assays to determine its neutralization activity.The Uncle system was used to investigate its thermal stability.100 μg of VHH-Fc was injected into mice via the tail vein,and the serum concentration of VHH-Fc was quantitatively detected by ELISA to examine its pharmacokinetic curve in mice.RESULTS The camel serum titer of anti-human GM-CSF antibodies was higher than 1:800 000 after the fifth immuni-zation,and the capacity of the constructed nanobody library was about 5.55×107.Following the screening process,five candidate VHH-Fc molecules specifically binding to human GM-CSF were obtained.Among these,22N10 effectively neutralized the cell proliferation-promoting activity of GM-CSF(the IC50 value was 17.23 nmol·L-1).Subsequent studies revealed that 22N10 interacted with human GM-CSF with an affinity of 1.97×10-8 mol·L-1,blocked the binding of GM-CSF to its receptor CSF2Rα,exhibited good thermal stability(Tm1=59.2℃),and showed favorable metabolic characteristics in mice.CONCLU-SION A new candidate nanobody molecule 22N10 targeting human GM-CSF is obtained which is expected to facilitate the drug development and mechanism investigations.

Chirality is not only a natural phenomenon but also a bridge between chemistry and life sciences.An effective way to obtain a single enantiomer is through racemates resolution.Recent literature shows that chiral metal-organic frameworks(CMOFs)have many applications in various fields because of their diverse topologies and functionalities.This review outlines the design idea and summarizes the latest synthesis strategies and applications of CMOFs.It highlights key advances and issues in the separation domain.In conclusion,the review provides perspectives on the challenges and prospective advance-ments of CMOFs materials and CMOFs-based separation technologies.

OBJECTIVE To screen and obtain nanobodies with neutralizing activity against granulo-cyte-macrophage colony stimulating factor(GM-CSF)to contribute to investigations into the mecha-nism of inflammation interventions and the development new drugs.METHODS Recombinant human GM-CSF was subcutaneously injected to immunize camels.Peripheral blood was collected after five immunizations,and mononuclear cells were isolated.Total mRNA was extracted,and the variable domains of the heavy chain of heavy-chain antibody(VHH,also called nanobody)genes were obtained by PCR amplification after reverse transcription.The genes were cloned into the pADSCFV-S phage display vector and electrotransformed into TG1 competent cells to construct a nanobody immune library that was screened with recombinant human GM-CSF immobilized on a solid phase.The VHH genes specifi-cally binding to human GM-CSF were cloned into the pABG eukaryotic expression vector before VHH-Fc samples were prepared by using the human embryonic kidney 293 fibroblast expression system.The binding activity of candidate VHH-Fc molecules to GM-CSF was investigated through ELISA response curves,and binding colorimetric values with different antigens were detected to determine their specificity.The binding affinity between VHH-Fc candidates and GM-CSF was measured using biolayer interferom-etry(BLI).The inhibition rate curve of VHH-Fc candidates on GM-CSF was detected through cell prolif-eration assays to determine its neutralization activity.The Uncle system was used to investigate its thermal stability.100 μg of VHH-Fc was injected into mice via the tail vein,and the serum concentration of VHH-Fc was quantitatively detected by ELISA to examine its pharmacokinetic curve in mice.RESULTS The camel serum titer of anti-human GM-CSF antibodies was higher than 1:800 000 after the fifth immuni-zation,and the capacity of the constructed nanobody library was about 5.55×107.Following the screening process,five candidate VHH-Fc molecules specifically binding to human GM-CSF were obtained.Among these,22N10 effectively neutralized the cell proliferation-promoting activity of GM-CSF(the IC50 value was 17.23 nmol·L-1).Subsequent studies revealed that 22N10 interacted with human GM-CSF with an affinity of 1.97×10-8 mol·L-1,blocked the binding of GM-CSF to its receptor CSF2Rα,exhibited good thermal stability(Tm1=59.2℃),and showed favorable metabolic characteristics in mice.CONCLU-SION A new candidate nanobody molecule 22N10 targeting human GM-CSF is obtained which is expected to facilitate the drug development and mechanism investigations.

Hedgehog （Hh） signaling pathway plays an important regulatory role in the process of cell proliferation， differentiation and tissue formation. Proper intensity and action time of Hh signal are crucial for the normal development of various tissues of the body， and its abnormal activation will lead to the occurrence and development of most malignant tumors， including breast cancer， liver cancer， pancreatic cancer， and lung cancer， which makes Hh signaling pathway an ideal target for anti-tumor drug research and development. At present， the main targets of Hh signaling pathway inhibitors include Hh ligand， receptor Smoothened （Smo） and transcription factor Gli. Among them， the compounds that depend on the Hh ligand pathway still remain at the stage of laboratory research because they cannot act on the non-classical Hh signaling pathway. The special structure of Smo protein enables it to combine with drugs efficiently and selectively， which is a powerful and effective drug target. Therefore， Smo selective inhibitors have been an active field of related research， and many Smo inhibitors have entered the clinical use or trial stage. Gli can regulate multiple carcinogenic genes， promote abnormal cell proliferation and lead to tumor， and can also cause feedback inhibition to Hh signaling pathway. Therefore， the development of drugs that can inhibit the activity of Gli has broad prospects. In the future， a combination of multiple pathway inhibitors can be designed to avoid drug resistance and other side effects.

OBJECTIVE: To explore the clinical and genetic features of a child with autosomal dominant mental retardation type 40 (MRD40) due to variant of the CHAMP1 gene. METHODS: Clinical characteristics of the child were analyzed. Genetic testing was carried out by low-depth high-throughput and whole genome copy number variant sequencing (CNV-seq) and whole exome sequencing (WES). A literature review was also carried out for the clinical phenotype and genetic characteristics of patients with MRD40 due to CHAMP1 gene variants. RESULTS: The child, a 11-month-old girl, has presented with intellectual and motor developmental delay. CNV-seq revealed no definite pathogenic variants. WES has detected the presence of a heterozygous c.1908C>G (p.Y636*) variant in the CHAMP1 gene, which was carried by neither parent and predicted to be pathogenic. Literature review has identified 33 additional children from 12 previous reports. All children had presented with developmental delay and mental retardation, and most had dystonia (94.1%), delayed speech and/or walking (85.2%, 82.4%) and ocular abnormalities (79.4%). In total 26 variants of the CHAMP1 gene were detected, with all nonsense variants being of loss-of-function type, located in exon 3, and de novo in origin. CONCLUSION The heterozygous c.1908C>G (p.Y636*) variant of the CHAMP1 gene probably underlay the WRD40 in this child. Genetic testing should be considered for children featuring global developmental delay, mental retardation, hypertonia and facial dysmorphism.
Humans ; Intellectual Disability/genetics* ; Genetic Testing ; Phenotype ; Exome Sequencing ; Heterozygote ; Mutation ; Chromosomal Proteins, Non-Histone/genetics* ; Phosphoproteins/genetics*

OBJECTIVE: To assess the value of copy number variation sequencing (CNV-seq) for revealing the genetic etiology of fetuses with isolated ventricular septal defect (VSD). METHODS: From December 2017 to December 2020, 69 fetuses with isolated VSD were identified at the First Affiliated Hospital of Zhengzhou University. Meanwhile, 839 similar prenatal cases were selected from public databases including Wanfang data, Wanfang Medicine, and China National Knowledge Infrastructure (CNKI) by using keywords such as "Ventricular septal defect", "Copy number variation", and "Prenatal". A total of 908 fetuses with isolated VSD were analyzed. CNV-seq was carried out for 69 fetuses. RESULTS: Among the 908 fetuses, 33 (3.63%) were found to harbor pathogenic CNVs, which included 11 chromosomal aneuploidies (1.21%) and 22 pathogenic CNVs (2.42%). The pathogenic CNVs have involved 12 genetic syndromes, with those known to involve the heart development including 5 cases of 22q11.21 deletion syndrome, 2 cases of 4q terminal deletion syndrome, and 1 case of 9q subtelomere deletion syndrome. The outcome of pregnancies for 15 fetuses with pathogenic CNVs was known, of which 12 were terminated, and 3 had spontaneous closure of the ventricular septum after birth, but 1 of them had other abnormalities. CONCLUSION Fetuses with isolated VSD have a relatively high risk for chromosomal abnormalities, for which CNV-seq should be recommended.
Female ; Pregnancy ; Humans ; DNA Copy Number Variations ; Heart Septal Defects, Ventricular/genetics* ; 22q11 Deletion Syndrome ; Fetus

OBJECTIVE: To assess the diagnostic value of copy number variation sequencing (CNV-seq) in the genetic etiology of fetuses with nasal bone dysplasia (NBD). METHODS: A total of 217 fetuses discovered with NBD from December 2017 to December 2020 were divided into the isolated NBD group and NBD combined with other anomalies group, for which copy number variations (CNVs) were analyzed. RESULTS: A total of 40 fetal abnormalities were detected in 217 cases, with an overall abnormal rate of 18.4%. These included 31 cases with aneuploidies (14.3%, 31/217) and 9 cases with genomic CNVs (4.1%, 9/217). Five cases of trisomy 21 (3.5%, 5/144) and two CNVs cases with unknown clinical significance (1.4%, 2/144) were detected in the isolated group. As for the combined NBD group, 26 aneuploidies (35.6%, 26/73), including 19 cases with trisomy 21, 6 cases with trisomy 18, 1 case with trisomy 13, 5 cases with pathogenic CNVs (6.8%, 5/73), and 2 cases with CNVs of unknown clinical significance (2.7%, 2/73) were detected. A significant difference was detected between the two groups (P < 0.01). CONCLUSION The detection rate of CNV-seq is high for chromosomal aneuploidies and pathogenic CNVs in fetuses with NBD, particularly in those combined with other ultrasonic abnormalities.
Aneuploidy ; Bone Diseases, Developmental ; Chromosome Aberrations ; DNA Copy Number Variations ; Down Syndrome/genetics* ; Female ; Fetus/abnormalities* ; Humans ; Pregnancy ; Prenatal Diagnosis ; Trisomy

Objective:To observe the efficacy and safety of albumin paclitaxel in patients with advanced breast cancer.Methods:A retrospective analysis was performed on 138 patients with advanced breast cancer admitted to Xiangyang Central Hospital from June 2018 to June 2021. The patients were divided into groups according to molecular type, number of treatment lines for albumin paclitaxel, number of metastatic sites, specific metastatic sites, past use of docetaxel and paclitaxel and combination therapy of albumin paclitaxel. Median progression-free survival (mPFS) and treatment-related adverse reactions in different subgroups treated with albumin paclitaxel were investigated. Survival curves were plotted by Kaplan-Meier method and log-rank test was performed, and multivariate analysis was performed by Cox model.Results:The mPFS of the overall population was 8.2 months. The mPFS of triple negative breast cancer, human epidermal growth factor receptor-2 (HER-2) positive breast cancer and Luminal breast cancer were 6.4 months, 11.2 months and 8.1 months respectively, with a statistically significant difference (χ 2=7.42, P=0.025) . The mPFS of patients treated with first- and second-line albumin paclitaxel was 9.5 months, and the mPFS of patients treated with third- to seventh-line was 6.3 months (χ 2=3.86, P=0.049) . The mPFS of patients with ≤3 metastatic sites was 8.1 months, and the mPFS of patients with >3 metastatic sites was 7.0 months (χ 2=0.38, P=0.535) . The mPFS of patients with liver and brain metastases was 6.8 months, and the mPFS of patients with extrahepatic and extracerebral metastases was 9.6 months (χ 2=7.53, P=0.006) . The mPFS of patients who had previously treated with docetaxel and paclitaxel was 8.2 months, and the mPFS of patients who had not previously received docetaxel or paclitaxel was 9.6 months (χ 2=0.03, P=0.862) . The mPFS of patients with albumin paclitaxel combined with targeted therapy, combined with immunotherapy, combined with chemotherapy and monotherapy were 12.1, 7.8, 9.0 and 7.1 months respectively, with a statistically significant difference (χ 2=8.96, P=0.030) . Multivariate analysis showed that molecular type (triple negative breast cancer RR=1.87, 95% CI: 1.24-4.22, P=0.008; HER-2 positive breast cancer RR=0.63, 95% CI: 0.52-0.94, P=0.042) , number of treatment lines ( RR=0.67, 95% CI: 0.32-0.86, P=0.011) , specific metastatic sites ( RR=1.26, 95% CI: 1.12-2.75, P=0.014) and combination therapy (combined with targeted therapy RR=0.74, 95% CI: 0.16-0.86, P=0.021; combined with chemotherapy RR=0.93, 95% CI: 0.48-0.96, P=0.045; combined with immunotherapy RR=0.81, 95% CI: 0.17-0.78, P=0.032) were independent factors for prognosis. The main adverse reactions were alopecia, neutropenia, peripheral neurotoxicity and rash, and there was no death caused by adverse reactions. Conclusion:Albumin paclitaxel is effective in the treatment of advanced breast cancer with controllable adverse reactions.