Screening and identification of NOTCH1, CDKN2A, and NOS3 as differentially expressed autophagy-related genes in erectile dysfunction

Luo, Chao; Zhou, Xiongcai; Wang, Li; Zeng, Qinyu; Fan, Junhong; He, Shuhua; Zhang, Haibo; Wei, Anyang

doi:10.7717/peerj.11986

PeerJ

2021

DOI: 10.7717/peerj.11986

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Screening and identification of NOTCH1, CDKN2A, and NOS3 as differentially expressed autophagy-related genes in erectile dysfunction

Chao Luo

Xiongcai Zhou

Li Wang

et al.

Abstract: Background Loss of function of key autophagy genes are associated with a variety of diseases. However specific role of autophagy-related genes in erectile dysfunction ED remains unclear. This study explores the autophagy-related differentially expressed genes (ARGs) profiles and related molecular mechanisms in Corpus Cavernosum endothelial dysfunction, which is a leading cause of ED. Methods The Gene Expression Omnibus (GEO) database was us… Show more

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Cited by 2 publications

References 54 publications

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Novel oxidative stress- and ferroptosis-related gene prognostic signature for erectile dysfunction

Liu,

Yu,

et al. 2024

Egypt J Med Hum Genet

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Background Studies have suggested that Guizhi Jia Longgu Muli decoction (GuiZhiJiaLongGuMuLiTang) has a therapeutic effect on erectile dysfunction (ED), even though how it works is still not fully understood. Methods In this research, transcriptome data related to ED were extracted from the GEO database. The candidate target genes were obtained by intersecting the differentially expressed genes (DEGs) screened using the software package limma, oxidative stress-related genes (OSRGs), ferroptosis-related genes (FRGs), and the target genes of the chemically active ingredients of GuiZhiJiaLongGuMuLiTang. Enrichment analyses of these candidate target genes were conducted using ClusterProfiler, and the key chemically active ingredient-candidate target gene-KEGG pathway network was constructed using Cytoscape. Then, the key target genes of ED were identified through an analysis of protein–protein interactions (PPIs). Additionally, a gene set enrichment analysis (GSEA) was performed to investigate the functions of the key target genes, and the mRNA-miRNA and TF-mRNA regulatory networks were developed to explore the potential regulation of these key genes. Furthermore, the intermolecular interactions between key target genes and key chemically active ingredients of GuiZhiJiaLongGuMuLiTang were studied using molecular docking analysis. Results Fifteen candidate target genes were associated with the HIF-1 signaling pathway, of which EGFR, PPARG, SLC2A1, and SRC were screened as the key target genes for ED. Notably, these key target genes were associated with oxidative phosphorylation, focal adhesion, and ECM–receptor interaction. The miRNA-mRNA and TF-mRNA regulatory networks were constructed, and it was observed that EGR1 could regulate EGFR and PPARG, TP53 could regulate EGFR and SLC2A1, and SP1 could regulate EGFR and SRC simultaneously. The miRNAs hsa-miR-1-3p, hsa-miR-218-5p, hsa-miR-138-5p, and hsa-miR-27a-3p were the common miRNAs of EGFR and PPARG. Furthermore, quercetin was the key chemically active ingredient of GuiZhiJiaLongGuMuLiTang, with the docking affinity between SLC2A1 and quercetin being the highest. Conclusion This study identified four key target genes related to oxidative stress and ferroptosis in ED: EGFR, PPARG, SLC2A1, and SRC, along with quercetin, an active compound in GuiZhiJiaLongGuMuLiTang. These results enrich the research on the mechanism of Guizhi Jia Longgu Muli decoction in treating erectile dysfunction.

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Novel oxidative stress- and ferroptosis-related gene prognostic signature for erectile dysfunction

Liu,

Yu,

et al. 2024

Egypt J Med Hum Genet

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NLRP3 downregulation enhances engraftment and functionality of adipose-derived stem cells to alleviate erectile dysfunction in diabetic rats

et al. 2022

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BackgroundThe transplantation of adipose-derived stem cells (ASCs) is a most promising treatment for diabetic erectile dysfunction (DMED). However, the effect of high glucose on the post-transplantation survival of stem cells limits the efficacy of ASCs transplantation. Prolonging the survival time of ASCs in vivo after transplantation is a key issue in the utilization of ASCs for DMED. Herein, we aimed to investigate the therapeutic effect of ASCs by downregulating NOD-, LRR-, and pyrin domain-containing protein 3 (NLRP3) as well as its mechanism of action in DMED.MethodsASCs were obtained by isolating subcutaneous fat from SD rats and were identified using lipogenic and osteogenic differentiation assays, as well as flow cytometric analysis. The shNLRP3 lentivirus with the best downregulating effect was screened, and shNLRP3 lentivirus (LV-shNLRP3) was transfected into ASCs (ASCsshNLRP3) to detect apoptosis and the reactive oxygen species (ROS) levels in each group under high glucose conditions. In DMED rats, ASCsLV-shNLRP3, ASCsLV-control, or phosphate buffered saline (PBS) were administrated via intra-cavernous injection, and normal rats served as normal controls. One week post-injection, animal imaging was performed to track the ASCs. Four weeks post-injection, erectile function was evaluated by measuring the intra-cavernosal pressure and mean arterial pressure. Corpus cavernosum pyroptosis and endothelial function were examined by western blotting and immunofluorescence.ResultsNLRP3-mediated pyroptosis might be a pathogenic mechanism of ED and DMED. ASCs were isolated successfully. Thereafter, the LV-shNLRP3 with the highest transfection efficiency was selected and used to modify ASCs successfully. LV-shNLRP3 could protect ASCs paracrine function under hyperglycemia through anti-apoptosis and anti-ROS deposition mechanisms. Furthermore, ASCsLV-shNLRP3 showed an advantage in the suppression of pyroptosis compared to ASCsLV-control. The ASCsLV-shNLRP3 group had improved cavernous endothelial function and smooth muscle injury, thus reversing erectile function, and was superior to the ASCsLV-control group.ConclusionsNLRP3 Inflammasome-mediated pyroptosis might be involved in DMED formation. Intra-cavernous injection of ASCsLV-shNLRP3 could suppress cavernosal pyroptosis, contributing to improved erectile function in DMED rats.

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Screening and identification of NOTCH1, CDKN2A, and NOS3 as differentially expressed autophagy-related genes in erectile dysfunction

Cited by 2 publications

References 54 publications

Novel oxidative stress- and ferroptosis-related gene prognostic signature for erectile dysfunction

Novel oxidative stress- and ferroptosis-related gene prognostic signature for erectile dysfunction

NLRP3 downregulation enhances engraftment and functionality of adipose-derived stem cells to alleviate erectile dysfunction in diabetic rats

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