Abstract
Musculoskeletal disorders, such as osteoarthritis and intervertebral disc degeneration are causes of morbidity, which concomitantly burdens the health and social care systems worldwide, with massive costs. Link N peptide has recently been described as a novel anabolic stimulator for intervertebral disc repair. In this study, we analyzed the influence on anabolic response, by delivering synthetic Link N encoding mRNA into primary human chondrocytes and mesenchymal stromal cells (SCP1 cells). Furthermore, both cell types were seeded on knitted titanium scaffolds, and the influence of Link N peptide mRNA for possible tissue engineering applications was investigated. Synthetic modified Link N mRNA was efficiently delivered into both cell types and cell transfection resulted in an enhanced expression of aggrecan, Sox 9, and type II collagen with a decreased expression of type X collagen. Interestingly, despite increased expression of BMP2 and BMP7, BMP signaling was repressed and TGFβ signaling was boosted by Link N transfection in mesenchymal stromal cells, suggesting possible regulatory mechanisms. Thus, the exogenous delivery of Link N peptide mRNA into cells augmented an anabolic response and thereby increased extracellular matrix synthesis. Considering these findings, we suppose that the cultivation of cells on knitted titanium scaffolds and the exogenous delivery of Link N peptide mRNA into cells could mechanically support the stability of tissue-engineered constructs and improve the synthesis of extracellular matrix by seeded cells. This method can provide a potent strategy for articular cartilage and intervertebral disc regeneration.
Highlights
Osteoarthritis (OA) and intervertebral disc (IVD) degeneration are primarily caused by an imbalance between the synthesis and degradation of extracellular matrix (ECM) [1]
We examined the influence of the exogenous delivery of synthetic messenger RNA (mRNA) encoding Link protein (Link N) peptide on the anabolic response in human primary chondrocytes and bone marrow-derived mesenchymal stromal cells (SCP1 cells)
The synthetic modified Link N mRNA was successfully generated, and its delivery into chondrocytes and SCP1 cells resulted in an anabolic response augmentation
Summary
Osteoarthritis (OA) and intervertebral disc (IVD) degeneration are primarily caused by an imbalance between the synthesis and degradation of extracellular matrix (ECM) [1]. They belong to musculoskeletal disorders with the world’s largest socioeconomic impact, which are certainly accompanied by joint pain and lower-back pain (LBP) [2], affecting the quality of life [3]. The treatment of OA and IVD degeneration remains a challenge [6], due to lack of structural and biomechanical restoration [7,8,9]. Alternative treatments are required to restore the functionality of damaged tissue. There are substantial differences regarding the anatomy and embryonic origin between human IVDs and articular joints, there are great similarities in terms of matrix-degrading factors and the response to mechanical loading in both types of joints [10]
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