Research Article

Integrated Transcriptomic and Secretome Proteomic Analysis of Hyperglycemia-Stimulated Endothelial Cells and Screening of Target Compounds

DOI:

10.3791/69578

December 30th, 2025

In This Article

Summary

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This protocol establishes an integrated multi-omics pipeline (transcriptome and proteome) combined with network pharmacological screening to identify molecular drivers and therapeutic targets for endothelial dysfunction in diabetic complications.

Abstract

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Endothelial dysfunction is a key driver of diabetic kidney disease (DKD), but its systemic molecular mechanisms remain incompletely decoded. We hypothesized that integrated multi-omics analysis could map hyperglycemia-induced endothelial damage and identify reusable therapeutics. A reusable computational pipeline was applied to integrate transcriptomic/secretome profiles from hyperglycemic endothelial cells and diabetic kidneys. This identified 534 commonly upregulated genes/proteins. Functional enrichment revealed activation of extracellular matrix remodeling, intercellular communication, and inflammation pathways. Cross-database validation refined 278 high-confidence mediators, and protein-protein interaction network analysis pinpointed ten hub genes. Using network pharmacology, we screened an approved drug library, identifying several candidate compounds (e.g., bruceantin, idelalisib) that potentially target this network. Furthermore, transcription factor regulation and exemplary molecular docking simulations (e.g., idelalisib with CTCF/BRD4) provided mechanistic hypotheses for experimental validation. In conclusion, this study establishes a reusable multi-omics framework that delineates endothelial pathogenic mechanisms in DKD and nominates repurposable drug candidates, offering a strategic approach for mechanistic and therapeutic discovery.

Introduction

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Diabetes mellitus, as a global health challenge, affected 529 million people worldwide in 2021, with projections indicating it will impact 1.31 billion people by 20501. Beyond glycemic control, long-term complications are the primary source of morbidity, mortality, and reduced quality of life. These include microvascular complications (e.g., diabetic kidney disease (DKD), retinopathy, neuropathy) and macrovascular complications (e.g., accelerated atherosclerosis). Critically, DKD affects 30%-40% of diabetic patients, representing the leading cause of end-stage renal disease (ESRD) worldwide2. The profound burden of these....

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Protocol

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The animal experiments were conducted with the approval of the Committee on Animal Research and Ethics of the Hebei Yiling Medical Research Institute (approval number: N2024082). Check the Table of Materials for the experimental materials and instruments used in this study. Personnel must strictly wear appropriate personal protective equipment (PPE) when handling hazardous reagents such as TRIzol (skin/eye irritant, contains phenol) and protease inhibitors (potential respiratory/skin sensitizers). Segregate biological/liquid waste in autoclavable bags, and hazardous chemical waste in designated containers for institutional hazardous disposal. Decontam....

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Results

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Demonstration of the pathogenic impact of the hyperglycemic endothelial secretome on renal tubules

This study commenced with the validation of the pathogenic effect of the hyperglycemic endothelial secretome. Conditioned medium from hyperglycemic human glomerular endothelial cells (HG-CM) significantly impaired the viability of human proximal tubule epithelial cells (HK-2) compared to the control groups.

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Discussion

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This study establishes hyperglycemia-induced endothelial secretome dysfunction as a critical driver of diabetic kidney injury through integrated multi-omics and computational approaches. Demonstration that secretome-mediated cytotoxicity toward renal tubules coincides with systematic dysregulation of 534 endothelial-derived factors converging on matrix remodeling, oxidative stress, and inflammation-core pathways in DKD pathogenesis. Identification of 278 high-confidence mediators, including mechanistically validated hubs.......

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Disclosures

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The authors have nothing to disclose.

Acknowledgements

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This work was supported by the National Natural Science Foundation of China (32200644), the Science and Technology Program Project of Hebei (246W2501D, 252W7716D), and Yanzhao Golden Platform (A20240022).

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Materials

List of materials used in this article
NameCompanyCatalog NumberComments
CCL2 ELISA kitThermo Fisher Scientific#88-7399-88
CCR2 inhibitorMerck Millipore#227016
Cell Viability Assay KitSeven BiotechnologyCCK-8, SC119-01
DNA SequencerIlluminaNovaSeq 6000
High-Performance Liquid Chromatography SystemThermo Fisher ScientificUltiMate 3000 Binary RSLC
HRGECs Culture mediumShanghai Zhong Qiao Xin Zhou Biotechnology Co., Ltd.1001
Human Renal Glomerular Endothelial Cells (HRGECs)Shanghai Zhongqiao Xinzhou BiotechnologyPRI-H-00038
Human Renal Tubular Epithelial Cell Complete Medium ProcellCM-H193
Human Renal Tubular Epithelial Cells (HK2)ProcellCP-H193
Male db/db and db/m mice (4-week-old)Hangzhou Ziyuan Biotech Co., Ltd.SCXK 20190004
Mass SpectrometerThermo Fisher ScientificAstral
Microplate Absorbance ReaderMolecular DevicesSpectraMax iD5
Protease Inhibitor Cocktail (EDTA-free)RochecOmplete, #5056489001
RNA Extraction ReagentThermo Fisher ScientificTRIzol, #15596026
RNA Quality AnalyzerAgilent Technologies5300 Fragment Analyzer, M5311AA
RNA Quantification InstrumentThermo Fisher ScientificQubit 3.0, Q33216
ROS detection kitThermo Fisher Scientific#EEA019
Ultrafiltration Centrifugal Devices (3 kDa MWCO)Merck MilliporeAmicon Ultra-4

References

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  1. Tuttle, K. R., et al. Diabetic kidney disease: a report from an ADA Consensus Conference. Diabetes Care. 37 (10), 2864-2883 (2014).
  2. Gu, H. F. Genetic and Epigenetic Studies in Diabetic Kidney Disease. Front Genet. 10, 507(2019).
  3. Młynarska, E., ....

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Tags

Endothelial DysfunctionDiabetic Kidney DiseaseMulti Omics AnalysisTranscriptomic ProfilingSecretome ProteomicsHyperglycemic Endothelial CellsProtein Interaction NetworkDrug RepurposingNetwork PharmacologyMolecular Docking

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