Amati Eliana, Sella Sabrina, Perbellini Omar, Alghisi Alberta, Bernardi Martina, Chieregato Katia, Lievore Chiara, Peserico Denise, Rigno Manuela, Zilio Anna, Ruggeri Marco, Rodeghiero Francesco, Astori Giuseppe
Advanced Cellular Therapy Laboratory - Hematology Unit, S. Bortolo Hospital - ULSS 6, Contra' San Francesco 41, 36100, Vicenza, Italy.
Transfusion Medicine, S. Bortolo Hospital, Vicenza, Italy.
Stem Cell Res Ther. 2017 Jan 24;8(1):14. doi: 10.1186/s13287-016-0465-2.
Increasing evidence suggests the safety and efficacy of mesenchymal stromal cells (MSC) as advanced therapy medicinal products because of their immunomodulatory properties and supportive role in hematopoiesis. Although bone marrow remains the most common source for obtaining off-the-shelf MSC, cord blood (CB) represents an alternative source, which can be collected noninvasively and without major ethical concerns. However, the low estimated frequency and inconsistency of successful isolation represent open challenges for the use of CB-derived MSC in clinical trials. This study explores whether CB may represent a suitable source of MSC for clinical use and analyzes several in vitro parameters useful to better define the quality of CB-derived MSC prior to clinical application.
CB units (n = 50) selected according to quality criteria (CB volume ≥ 20 ml, time from collection ≤ 24 h) were cultured using a standardized procedure for CB-MSC generation. MSC were analyzed for their growth potential and secondary colony-forming capacity. Immunophenotype and multilineage differentiation potential of culture-expanded CB-MSC were assessed to verify MSC identity. The immunomodulatory activity at resting conditions and after inflammatory priming (IFN-γ-1b and TNF-α for 48 hours) was explored to assess the in vitro potency of CB-MSC prior to clinical application. Molecular karyotyping was used to assess the genetic stability after prolonged MSC expansion.
We were able to isolate MSC colonies from 44% of the processed units. Our results do not support a role of CB volume in determining the outcome of the cultures, in terms of both isolation and proliferative capacity of CB-MSC. Particularly, we have confirmed the existence of two different CB-MSC populations named short- and long-living (SL- and LL-) CBMSC, clearly diverging in their growth capacity and secondary colony-forming efficiency. Only LL-CBMSC were able to expand consistently and to survive for longer periods in vitro, while preserving genetic stability. Therefore, they may represent interesting candidates for therapeutic applications. We have also observed that LL-CBMSC were not equally immunosuppressive, particularly after inflammatory priming and despite upregulating priming-inducible markers.
This work supports the use of CB as a potential MSC source for clinical applications, remaining more readily available compared to conventional sources. We have provided evidence that not all LL-CBMSC are equally immunosuppressive in an inflammatory environment, suggesting the need to include the assessment of potency among the release criteria for each CB-MSC batch intended for clinical use, at least for the treatment of immune disorders as GvHD.
越来越多的证据表明,间充质基质细胞(MSC)作为先进治疗药品具有安全性和有效性,这归因于其免疫调节特性以及在造血过程中的支持作用。尽管骨髓仍是获取现成MSC最常见的来源,但脐带血(CB)是另一种来源,它可以通过非侵入性方式采集,且不存在重大伦理问题。然而,据估计,成功分离的频率较低且不一致,这对在临床试验中使用CB来源的MSC构成了挑战。本研究探讨CB是否可能是适合临床使用的MSC来源,并分析了几个体外参数,有助于在临床应用前更好地界定CB来源的MSC的质量。
根据质量标准(CB体积≥20ml,采集时间≤24小时)选择CB样本(n = 50),采用标准化程序培养以生成CB - MSC。分析MSC的生长潜力和二次集落形成能力。评估培养扩增后的CB - MSC的免疫表型和多向分化潜能,以验证MSC的身份。探索静息条件下以及炎症激发(用IFN - γ - 1b和TNF - α处理48小时)后的免疫调节活性,以评估临床应用前CB - MSC的体外效力。使用分子核型分析评估MSC长期扩增后的遗传稳定性。
我们能够从44%的处理样本中分离出MSC集落。我们的结果不支持CB体积在决定培养结果方面的作用,无论是在CB - MSC的分离还是增殖能力方面。特别是,我们证实了存在两种不同的CB - MSC群体,分别命名为短寿命和长寿命(SL - 和LL - )CBMSC,它们在生长能力和二次集落形成效率方面明显不同。只有LL - CBMSC能够持续扩增并在体外存活更长时间,同时保持遗传稳定性。因此,它们可能是有吸引力的治疗应用候选者。我们还观察到,LL - CBMSC的免疫抑制作用并不相同,特别是在炎症激发后,尽管上调了激发诱导标记物。
这项工作支持将CB用作临床应用中潜在的MSC来源,与传统来源相比,CB更容易获得。我们提供的证据表明,并非所有LL - CBMSC在炎症环境中的免疫抑制作用都相同,这表明在用于临床的每个CB - MSC批次的放行标准中,至少对于治疗移植物抗宿主病等免疫疾病,需要纳入效力评估。
