Cell-based therapies reverse the heart failure-altered right ventricular proteome towards a pre-disease state.

IF 7.1 2区 医学 Q1 CELL & TISSUE ENGINEERING Stem Cell Research & Therapy Pub Date : 2024-11-13 DOI:10.1186/s13287-024-04009-3
Nour Makkaoui, Vidhya Prasad, Pritha Bagchi, Tiffany Carmona, Ke Li, Olivia L Latham, Yuanyuan Zhang, Jingyun Lee, Cristina M Furdui, Joshua T Maxwell
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Abstract

Background: Congenital heart defects can lead to right ventricular (RV) pressure-overload and heart failure. Cell-based therapies, including mesenchymal stromal cells (MSCs) and c-kit positive cells (CPCs) have been studied clinically as options to restore heart function in disease states. Many studies have indicated these cells act through paracrine mechanisms to prevent apoptosis, promote cellular function, and regulate gene/protein expression. We aimed to determine the proteomic response of diseased hearts to cell therapy.

Methods: We utilized a juvenile rat model of RV pressure overload created by banding the pulmonary artery (PAB). Two weeks post-banding, bone marrow-derived mesenchymal stromal cells (MSCs) and 3 populations of CPCs (nCPCs, cCPCs, ES-CPCs) were delivered to the RV free wall. RV function and cellular retention were measured for four weeks post-injection, at which point hearts were extracted and the RV was excised for liquid chromatography and tandem mass spectrometry. Resulting RV proteomes were compared and analyzed using systems biology and bioinformatics.

Results: Proteomic profiling identified 1156 total proteins from the RV, of which 5.97% were significantly changed after PAB. This disease-altered proteome was responsive to cellular therapy, with 72% of the PAB-altered proteome being fully or partially reversed by MSC therapy. This was followed by nCPCs (54%), ES-CPCs (52%), and cCPCs (39%). Systems biology and bioinformatics analysis showed MSC, nCPC, or ES-CPC cell therapy is associated with a decrease in predicted adverse cardiac effects. We also observed an effect of cell therapy on the non-altered RV proteome, however, this was associated with minor predicted pathological endpoints.

Conclusions: Our data indicate MSCs, ES-CPCs, and nCPCs significantly reverse the PAB-altered proteome towards a pre-disease state in our animal model. These results indicate cell-based therapies show promise in improving RV function after pressure overload through partial restoration of the disease-altered cardiac proteome.

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基于细胞的疗法可将心力衰竭改变的右心室蛋白质组逆转至疾病前状态。
背景:先天性心脏缺陷可导致右心室(RV)压力过载和心力衰竭。临床研究已将间充质基质细胞(MSCs)和 c-kit 阳性细胞(CPCs)等细胞疗法作为在疾病状态下恢复心脏功能的选择。许多研究表明,这些细胞通过旁分泌机制防止细胞凋亡、促进细胞功能和调节基因/蛋白表达。我们旨在确定病变心脏对细胞疗法的蛋白质组反应:方法:我们利用一种幼年大鼠模型,通过捆绑肺动脉(PAB)造成 RV 压力超载。绑扎两周后,将骨髓间充质基质细胞(MSCs)和 3 种 CPCs 群体(nCPCs、cCPCs、ES-CPCs)输送到 RV 游离壁。注射后四周测量 RV 功能和细胞存留,然后提取心脏并切除 RV 进行液相色谱和串联质谱分析。使用系统生物学和生物信息学方法比较和分析了所得到的 RV 蛋白质组:结果:蛋白质组分析鉴定出了1156个RV蛋白质,其中5.97%在PAB后发生了显著变化。这种疾病改变的蛋白质组对细胞疗法有反应,间充质干细胞疗法完全或部分逆转了72%的PAB改变的蛋白质组。其次是nCPCs(54%)、ES-CPCs(52%)和cCPCs(39%)。系统生物学和生物信息学分析表明,间充质干细胞、nCPC 或 ES-CPC 细胞疗法与预测的心脏不良反应减少有关。我们还观察到细胞疗法对未改变的 RV 蛋白质组的影响,但这与较小的预测病理终点有关:我们的数据表明,间充质干细胞、ES-CPCs 和 nCPCs 能显著逆转动物模型中 PAB 改变的蛋白质组,使其恢复到疾病前状态。这些结果表明,基于细胞的疗法有望通过部分恢复疾病改变的心脏蛋白质组来改善压力过载后的 RV 功能。
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来源期刊
Stem Cell Research & Therapy
Stem Cell Research & Therapy CELL BIOLOGY-MEDICINE, RESEARCH & EXPERIMENTAL
CiteScore
13.20
自引率
8.00%
发文量
525
审稿时长
1 months
期刊介绍: Stem Cell Research & Therapy serves as a leading platform for translational research in stem cell therapies. This international, peer-reviewed journal publishes high-quality open-access research articles, with a focus on basic, translational, and clinical research in stem cell therapeutics and regenerative therapies. Coverage includes animal models and clinical trials. Additionally, the journal offers reviews, viewpoints, commentaries, and reports.
期刊最新文献
Epithelial differentiation of gingival mesenchymal stem cells enhances re-epithelialization for full-thickness cutaneous wound healing. Highly efficient generation of mature megakaryocytes and functional platelets from human embryonic stem cells. Impact of mesenchymal stem cell size and adhesion modulation on in vivo distribution: insights from quantitative PET imaging. Mechanism and prospects of mitochondrial transplantation for spinal cord injury treatment. Correction: Multi-omics evaluation of clinical-grade human umbilical cord-derived mesenchymal stem cells in synergistic improvement of aging related disorders in a senescence-accelerated mouse model.
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