Decoding the Cytogenetic Features of Natural Killer Cells from Peripheral Blood of Severe Acute Pancreatitis
Description
This data includes results of Flow cytometry, Cell cycle analysis, Cell apoptosis detection, Cytotoxicity assessment of eHC-NKs and eSAP-NKs, RNA‑SEQ (RNA-sequencing) , differentially expressed genes and bioinformatics analyses. Research hypothesis: The cytogenetic characteristics of natural killer cells during severe acute pancreatitis (SAP) remain unclear. By analyzing cell phenotypes and multi-omics features, we hope to provide a reference for further elucidating the pathogenesis of NK cell-mediated SAP and contribute to the future development of NK cell-based targeted therapies. In this study, we conduct systematic and detailed dissection of the cellular and transcriptomic characterization of the landscape of resident and expanded SAP-NKs from peripheral blood of SAP patients, particularly the multifaceted alterations in NK cell subpopulations and the cellular viability, together with the DEGs-related bioprocesses and signaling pathways. Collectively, these data provided useful reference for underlying the NK cell-based pathogenesis and benefiting the development of NK cell-based noninvasive diagnosis for SAP in future. The study subjects included 19 patients with acute severe pancreatitis and 19 age- and gender-matched healthy controls (HCs). PBMCs were isolated from 5-10 mL fresh and sterile peripheral blood of HCs and patients with SAP. After that, the cells were cryopreserved or used for further analyses such as cell counting and flow cytometry (FCM) analysis of the resident NK cells in PBMCs (rHC-NKs, rSAP-NKs). FCM was performed at the indicated time points (day 0, day 14). Cell cycle of HC-NKs and SAP-NKs was detected by FCM assay. The cytotoxicity of eHC-NKs and eSAP-NKs was evaluated using a co-culture model with specified tumor cell lines (K562, U937, Nalm6) at an effector-to-target (E: T) ratio of 1:5. Total mRNAs were extracted from eHC-NKs and eSAP-NKs by utilizing the TRIZol reagent (ThermoFisher, USA) according to the manufacturer’s instructions. For RNA-SEQ analysis, we turned to Lianchuan (Hangzhou, China) for detection and the online Omicstudio platform (https://www.omicstudio.cn/home) for further bioinformatics analyses such as Venn Map, Gene Set Enrichment Analysis (GSEA), Volcano plots, Gene Ontology Biological Processes (GOBP), Principal Component Analysis (PCA), and Kyoto Encyclopedia of Genes and Genomes (KEGG).
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The diagnosis of patients with severe acute pancreatitis (SAP) was based on the revised Atlanta Classification criteria (2012). All participants met the diagnostic requirements for SAP, and the study was evaluated by combining the APACHE-II and Ranson scoring systems. The study subjects included 19 patients with acute severe pancreatitis and 19 age- and gender-matched healthy controls (HCs). Peripheral blood sample collection and temporary storage: a sterile vacuum blood collection tube is used to collect 5-8 mL of peripheral venous blood samples (anticoagulant recommended EDTA or heparin sodium). Immediately after collection, gently invert and mix 8-10 times to avoid coagulation. Place the anticoagulant blood collection tube vertically in a 4 ℃ freezer for temporary storage. PBMCs were isolated by performing the density gradient centrifugation according to the Ficoll-Paque solution (Sigma-Aldrich, USA)-based procedure. After that, the cells were cryopreserved or used for further analyses such as cell counting and flow cytometry (FCM) analysis of the resident NK cells in PBMCs (rHC-NKs, rSAP-NKs). PBMCs (HC-MNCs or SAP-MNCs) were seeded at a density of 2×106 cells/mL in NK MACS Basal Medium (Miltenyi Biotech, Germany) supplemented with the indicated cytokines, including 1000 U/mL rhIL-2 (PeproTech Inc, USA), 10 ng/mL rhIL-15 (PeproTech Inc, USA), and 50 ng/mL rhIL-18 (R&D Systems) at 37 ℃ and 5% CO2. The complete medium was half changed twice a week for the first 7 days and every day for the following week. Living cell counting and cellular phenotype analyses were conducted by utilizing trypan blue staining and flow cytometry (FCM) at the indicated time points of NK cell induction (day 0, day 14), respectively. In Flow cytometry assay, cells were collected by centrifugation at 300g for 5 min at room temperature (RT), followed by twice resuspension with 1× phosphate-buffered saline (PBS, Solarbio, China). Subsequently, the cells were incubated with fluorescence-conjugated antibodies (CD3, CD4, CD8, CD56, CD16, CD25, NKp44, NKp46, NKG2D, Annexin Ⅴ, 7-AAD, and CD107a) in dark for 30 minutes. Finally, the cells were washed with 1× PBS (Solarbio, China), and transferred to a FACS Canto II flow cytometer (BD Biosciences, USA) for detection. The FCM data were analyzed using FlowJo software (Tree Star, USA). For cell apoptosis analysis, cells were processed using the commercial Annexin V Apoptosis Detection Kit according to the manufacturer’s instructions. Total mRNAs were extracted from eHC-NKs and eSAP-NKs by utilizing the TRIZol reagent (ThermoFisher, USA) according to the manufacturer’s instructions. For RNA-SEQ analysis, we turned to Lianchuan (Hangzhou, China) for detection and the online Omicstudio platform (https://www.omicstudio.cn/home) for further bioinformatics analyses.
Institutions
- Fujian Medical UniversityFujian, Fuzhou