The current diagnostic biomarkers of acute myocardial infarction (AMI), troponins, lack specificity and exist as false positives in other non-cardiac diseases. Previous studies revealed that cuproptosis, ferroptosis, and immune infiltration are all involved in the development of AMI. We hypothesize that combining the analysis of cuproptosis, ferroptosis, and immune infiltration in AMI will help identify more precise diagnostic biomarkers. The results showed that a total of 19 cuproptosis- and ferroptosis-related genes (CFRGs) were differentially expressed between the healthy and AMI groups. Functional enrichment analysis showed that the differential CFRGs were mostly enriched in biological processes related to oxidative stress and the inflammatory response. The immune infiltration status analyzed by ssGSEA found elevated levels of macrophages, neutrophils, and CCR in AMI. Then, we screened 6 immune-related CFRGs (CXCL2, DDIT3, DUSP1, CDKN1A, TLR4, STAT3) to construct a nomogram for predicting AMI and validated it in the GSE109048 dataset. Moreover, we also identified 5 pivotal miRNAs and 10 candidate drugs that target the 6 feature genes. Finally, RT-qPCR analysis verified that all 6 feature genes were upregulated in both animals and patients. In conclusion, our study reveals the significance of immune-related CFRGs in AMI and provides new insights for AMI diagnosis and treatment.
Compound Kushen injection (CKI) is a type of traditional Chinese medicine that has previously been studied for the treatment of various types of cancer. Previous studies have reported that CKI regulates cell apoptosis by downregulating the PI3K/Akt pathway. The present study aimed to determine whether CKI alleviates heart failure (HF) by attenuating cardiomyocyte apoptosis via the inhibition of the PI3K/Akt pathway. Angiotensin II (Ang II) was used to elicit HF, and osmotic minipumps with either Ang II (2 µg/kg/day) or phosphate-buffered saline (PBS; 200 µl) were subcutaneously implanted into 6-week-old male C57BL/6 mice for 3 weeks. In addition, PBS or CKI (25 mg/kg/day) were subcutaneously infused once a day for 3 weeks. Echocardiography was used to examine hemodynamics. The myocardial injury biomarkers, cardiac troponin I and N-terminal (NT)-pro hormone B-type natriuretic peptide, were assessed using enzyme-linked immunosorbent assay. Transmission electron microscopy was used to determine the morphology of the myocardium. The rate of apoptosis was detected using TUNEL staining and flow cytometry (FCM), and the expression levels of apoptosis-related proteins were measured using western blot (WB) analysis. Moreover, H9C2 cells were treated with CKI (2 mg/ml) or LY294002 (an inhibitor of the PI3K/Akt pathway; 25 µmol/l) in combination with Ang II (1 µmol/l) for 48 h. Cell Counting Kit-8 assay, FCM and WB analysis were performed in the H9C2 cells to examine cell viability, cell cycle distribution and representative signaling proteins. It was found that CKI promoted healthy cardiac function, reduced myocardial structural damage and reduced the rate of cardiomyocyte apoptosis. CKI markedly attenuated the expression of apoptosis-related proteins in the PI3K/Akt pathway. The results of the in vitro experiments indicated that CKI promoted cardiomyocyte proliferation and inhibited apoptosis, similar to LY294002. On the whole, the present study demonstrates that CKI reduces cardiomyocyte apoptosis, promotes healthy cardiac function and attenuates Ang II-mediated HF. These ameliorative effects may be associated with the inhibition of the PI3K/Akt pathway.
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