Open Access

OR40. Human umbilical cord blood-mesenchymal stem cell-derived secretome in combination with atorvastatin enhances endothelial progenitor cells proliferation and migration: an insight for new coronary artery disease therapeutic

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Date: 23 November 2021
Journal: European Heart Journal Supplements , Volume 23 , Issue Supplement_F
Authors: S. Hutomo , Y. Oktaviono , F. Sandra , D. Soemantri

ESC Journals

AbstractAims

Human umbilical cord blood-mesenchymal stem cell (hUCB-MSC)-derived secretome is known to be able to promote neovascularization and angiogenesis, so it is also thought to have a capability to modulate endothelial progenitor cell (EPC) functions. Atorvastatin is the cornerstone of coronary artery disease (CAD) treatment which can enhance EPCs proliferation and migration. This study aims to analyze the effect of the hUCB-MSC-derived secretome and its combination with atorvastatin toward EPCs proliferation and migration.

Methods

EPCs were isolated from a CAD patient’s peripheral blood. Cultured EPCs were divided into a control group and treatment group of 2.5 µM atorvastatin, hUCB-MSC-derived secretome (2%, 10%, and 20% concentration) and its combination. EPCs proliferation was evaluated using an MTT cell proliferation assay, and EPC migration was evaluated using a Transwell migration assay kit.

Results

This research showed that hUCB-MSC-derived secretomes significantly increase EPC proliferation and migration in a dose-dependent manner. The high concentration of hUCB-MSC-derived secretome were shown to be superior to atorvastatin in inducing EPC proliferation (OD, 1.585±0.029 vs 0.738±0.025; p < 0.001) and migration (51.00±5.15 vs 34.40±3.05, p < 0.001). Combination of the hUCB-MSC-derived secretome and atorvastatin shown to improve EPCs proliferation and migration compared to hUCB-MSC-derived secretome treatment or atorvastatin alone (p < 0.001).

Conclusions

This study concluded that the hUCB-MSC-derived secretome work synergistically with atorvastatin treatment in improving CAD patient-derived EPCs proliferation and migration. Hence, it could be the basis for secretome as the new CAD treatment modality.

About the contributors

S A Hutomo

Role: Author

Y H Oktaviono

Role: Author

F Sandra

Role: Author