Joint Institute for Regenerative Medicine, Kyungpook National University, Daegu, Republic of Korea.
BioMedical Research Institute, Kyungpook National University Hospital, Daegu, Republic of Korea.
Biomed Res Int. 2022 Jan 28;2022:2220641. doi: 10.1155/2022/2220641. eCollection 2022.
Human renal proximal tubular epithelial (RPTE) cell is a very useful tool for kidney-related experiments in vitro/ex vivo. However, only a few primary RPTE cells can be obtained through kidney biopsy, the proliferation rate of primary cell is very low, and the cultured cell properties are easily altered in artificial conditions. Thus, RPTE cell usage is very tricky; we applied porcine kidney-derived extracellular matrix (renal ECM) as coating, hydrogel, and scaffold material to increase cell proliferation and maintain cellular properties providing three-dimensional (3D) niche, which can be a valuable cell delivery vehicle.
Porcine renal ECM was prepared by decellularization using 1% Triton X-100, solubilized with 0.5 M acetic acid. The final protein concentration was adjusted to 10 g/L (pH 7.0). The efficacies as coating, hydrogel, and scaffold materials were analyzed through cell morphology, proliferation rate, renal-associated gene expressions, chemical composition, and microstructure evaluation. The efficacies as a coating material were compared with Matrigel, collagen type 1 (col1), gelatin, fibrinogen, and thrombin. After confirmation of coating effects, the effective concentration range was decided. The efficacies as hydrogel and scaffold materials were compared with hyaluronic acid (HA) and col1, respectively.
As the coating material, renal ECM showed a higher cell proliferation rate compared to other materials, except for Matrigel. Renal-associated gene expressions were significantly enhanced in the renal ECM than other materials. Coating effect on cell proliferation was dependent on the renal ECM concentration, and the effective concentration ranged from 30 to 100 g. As the hydrogel material, renal ECM showed a distinct inner cell network morphology and significantly increased renal-associated gene expressions, compared to HA hydrogel. As the scaffold material, renal ECM showed specific amide peaks, enhanced internal porosity, cell proliferation rate, and renal-associated gene expression compared to the col1 scaffold.
We concluded that renal ECM can be a suitable material for RPTE cell culture and usage. More practically, the coated renal ECM stimulates RPTE cell proliferation, and the hydrogel and scaffold of renal ECM provide useful 3D culture niche and cell delivery vehicles maintaining renal cell properties.
人肾近端管状上皮(RPTE)细胞是一种非常有用的体外/离体肾相关实验工具。然而,通过肾活检只能获得少量的原代 RPTE 细胞,原代细胞的增殖率非常低,并且在人工条件下培养的细胞特性容易改变。因此,RPTE 细胞的使用非常棘手;我们应用猪肾源性细胞外基质(肾 ECM)作为涂层、水凝胶和支架材料,以增加细胞增殖并维持提供三维(3D)小生境的细胞特性,这可以作为有价值的细胞输送载体。
通过使用 1% Triton X-100 进行去细胞化来制备猪肾 ECM,并用 0.5M 乙酸溶解。将最终蛋白浓度调整至 10g/L(pH7.0)。通过细胞形态、增殖率、肾脏相关基因表达、化学成分和微观结构评估来分析作为涂层、水凝胶和支架材料的功效。将作为涂层材料的功效与 Matrigel、胶原 1(col1)、明胶、纤维蛋白原和凝血酶进行比较。在确认涂层效果后,确定有效浓度范围。将作为水凝胶和支架材料的功效分别与透明质酸(HA)和 col1 进行比较。
作为涂层材料,与其他材料相比,肾 ECM 显示出更高的细胞增殖率,除了 Matrigel。与其他材料相比,肾 ECM 中的肾脏相关基因表达显著增强。细胞增殖的涂层效果取决于肾 ECM 浓度,有效浓度范围为 30 至 100g。作为水凝胶材料,与 HA 水凝胶相比,肾 ECM 显示出明显的细胞内网络形态和显著增加的肾脏相关基因表达。作为支架材料,与 col1 支架相比,肾 ECM 显示出特定的酰胺峰、增强的内部孔隙率、细胞增殖率和肾脏相关基因表达。
我们得出结论,肾 ECM 可以成为 RPTE 细胞培养和使用的合适材料。更实际地说,涂层肾 ECM 刺激 RPTE 细胞增殖,而肾 ECM 的水凝胶和支架为维持肾细胞特性提供了有用的 3D 培养小生境和细胞输送载体。
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