Traditional methods for single-nucleotide variants based on the amplification and the fluorescent signals require expensive reagents and cumbersome instruments, and they are time-consuming for each trial. Here, a porous anodised...
Sorafenib is the first-line therapeutic option for advanced hepatocellular carcinoma (HCC). Many patients exhibit a primary resistance (PR) response after initial treatment. In previous studies, compared to acquired resistance, the mechanism of PR is unclear. The present study aimed to evaluate the response of patient samples to sorafenib by patient-derived xenograft (PDX) models, and the differences at the transcriptome level between the sorafenib PR group and the sorafenib sensitive group were analyzed by single-cell sequencing technology. A specific cell cluster may be differentiated by the liver bud hepatic cells, and the JUN transcription factors in this cell cluster were highly activated. The albumin is secreted by other cell clusters, and the cluster stimulates the FcRn complex receptor to activate the HIF pathway and cell proliferation, resulting in a poor response to sorafenib. These findings are validated by both cell communication analysis and experiments. Thus, the current studies provided a novel approach for the treatment of sorafenib-resistant HCC.
Background: The concurrent of chronic lymphocytic leukemia (CLL) and acute myeloid leukemia (AML) in a patient is a rare situation, and has caused obstacles in clinical management. Case presentation: In the current study, we described a 64-year old female who was characterized by intermittent fatigue, edema of both lower limbs, dyspnea, and occasionally fever up to 39°C. The admission blood routine detections and the flow cytometry showed the patient was impaired by both CLL and AML. In RT-qPCR molecular detection, KMT2A-ELL fusion gene t (11:10) (q23:p13.1) was detected, which was verified by FISH detections. The next-generation sequencing (NGS) revealed a missense mutation of p.V157F in the coding sequence of TP53 gene, and frameshift mutations of p.V220fs and p.A382fs in the coding sequence of WT1. Conclusions: Collectively, the patient reported in this case was simultaneously impaired by CLL and AML. Our findings also inferred that the concurrent of CLL and AML might be attributed to the fusion mutation in KMT2A-ELL gene.
Three marketed anti-PD-L1 antibodies almost have severe immune-mediated side effects. The therapeutic effects of anti-PD-L1 chemical inhibitors are not satisfied in the clinical trials. Here we constructed human-derived protein scaffolds library and screened scaffolds with a shape complementary to the PD-1 binding domain of PD-L1. The RNA binding domain of U1 snRNPA was selected as one of potential binders because it had the most favorable binding energies with PD-L1 and conformed to pre-established biological criteria for the screening of candidates. The recombinant U1 snRNPA (rU1 snRNPA) in Escherichia coli exhibits anti-cancer activity in melanoma and breast cancer by reactivating tumor-suppressed T cells in vitro and anti-melanoma activity in vivo. Considering hydrophobic and electrostatic interactions, three residues were mutated on the interface of U1 snRNPA and PD-L1 complex, and the ranked variants by PatchDock and A32D showed an increased active phenotype. The screening of human-derived protein scaffolds may become the potential development of therapeutic agents.
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