Department of Surgery, Hallym Sacred Heart Hospital, Hallym University College of Medicine, 22 Gwanpyeong-Ro 170 Beon-Gil, Pyeongan-Dong, Dongan-Gu, Anyang, Gyeonggi-Do, Republic of Korea.
Institute for Regenerative Medicine, Hallym Sacred Heart Hospital, Hallym University College of Medicine, Anyang, Republic of Korea.
Stem Cell Res Ther. 2024 Oct 12;15(1):360. doi: 10.1186/s13287-024-03978-9.
The efficacy of cell implantation via 3D-spheroids to treat basal tone in fecal incontinence remains unclear. To address this, in this study, we aimed to identify cell differentiation and assess the development of a contractile phenotype corresponding to smooth muscle cells (SMCs) following implantation of 3D-spheroid and 2D-cultured human adipose stem cells (hASCs) in an in vivo internal anal sphincter (IAS)-targeted mouse model.
We developed an IAS-targeted in vivo model via rapid freezing (at - 196 °C) of the dorsal layers of the region of interest (ROI) of the IAS ring posterior quarter, between the submucosal and muscular layers, following submucosal dissection (n = 60 rats). After implantation of tetramethylindocarbocyanine perchlorate (Dil)-stained 3D and 2D-cells into randomly allocated cryoinjured rats, the entire sphincter ring or only the cryoinjured ROI was harvested. Expression of SMC markers, RhoA/ROCKII and its downstream molecules, and fibrosis markers was analyzed. Dil, α-smooth muscle actin (α-SMA), and RhoA signals were used for cell tracking.
In vitro, 3D-spheroids exhibited higher levels of SMC markers and RhoA/ROCKII-downstream molecules than 2D-hASCs. The IAS-targeted cryoinjured model exhibited substantial loss of SMC layers of the squamous epithelium lining of the anal canal, as well as reduced expression of SMC markers and RhoA-related downstream molecules. In vivo, 3D-spheroid implantation induced SMC markers and contractile molecules weakly at 1 week. At 2 weeks, the mRNA expression of aSma, Sm22a, Smoothelin, RhoA, Mypt1, Mlc, Cpi17, and Pp1cd increased, whereas that of fibrosis markers reduced significantly in the 3D-spheroid implanted group compared to those in the sham, non-implanted, and 2D-hASC implanted groups. Protein levels of RhoA, p-MYPT1, and p-MLC were higher in the 3D-spheroid-implanted group than in the other groups. At 2 weeks, in the implanted groups, the cryoinjured tissues (which exhibited Dil, α-SMA, and RhoA signals) were restored, while they remained defective in the sham and non-implanted groups.
These findings demonstrate that, compared to 2D-cultured hASCs, 3D-spheroids more effectively induce a contractile phenotype that is initially weak but subsequently improves, inducing expression of RhoA/ROCKII-downstream molecules and SMC differentiation associated with IAS basal tone.
通过 3D 球体细胞植入治疗粪便失禁的基础张力的疗效尚不清楚。为了解决这个问题,在本研究中,我们旨在鉴定细胞分化,并评估在体内内肛门括约肌(IAS)靶向小鼠模型中植入 3D 球体和 2D 培养的人脂肪干细胞(hASC)后与平滑肌细胞(SMC)相应的收缩表型的发展。
我们通过快速冷冻(在 -196°C)在感兴趣区域(ROI)的背层的粘膜下层和肌肉层之间,在粘膜下层解剖后,开发了一个 IAS 靶向的体内模型(n = 60 只大鼠)。在将四甲基吲哚羰花青-perchlorate(Dil)标记的 3D 和 2D 细胞植入随机分配的冷冻损伤大鼠后,收获整个括约肌环或仅冷冻损伤 ROI。分析 SMC 标记物、RhoA/ROCKII 及其下游分子和纤维化标记物的表达。Dil、α-平滑肌肌动蛋白(α-SMA)和 RhoA 信号用于细胞跟踪。
在体外,3D 球体表现出比 2D-hASC 更高水平的 SMC 标记物和 RhoA/ROCKII 下游分子。IAS 靶向冷冻损伤模型表现出明显的肛管鳞状上皮衬里的 SMC 层丢失,以及 SMC 标记物和 RhoA 相关下游分子的表达减少。在体内,3D 球体植入在 1 周时弱诱导 SMC 标记物和收缩分子。在 2 周时,α-Sma、Sm22a、Smoothelin、RhoA、Mypt1、MLC、Cpi17 和 Pp1cd 的 mRNA 表达增加,而纤维化标记物的蛋白水平在 3D 球体植入组与假手术组、未植入组和 2D-hASC 植入组相比显著降低。与其他组相比,RhoA、p-MYPT1 和 p-MLC 的蛋白水平在 3D 球体植入组更高。在 2 周时,在植入组中,冷冻损伤组织(显示 Dil、α-SMA 和 RhoA 信号)得到了恢复,而在假手术组和未植入组中仍然存在缺陷。
这些发现表明,与 2D 培养的 hASC 相比,3D 球体更有效地诱导收缩表型,该表型最初较弱,但随后改善,诱导 RhoA/ROCKII 下游分子和与 IAS 基础张力相关的 SMC 分化的表达。
