Marodin Maria Susana Joya, Godoy Juliana A, Alves-Paiva Raquel M, Alvarez Kelen, Mitsugi Thiago Giove, Krepischi Ana Cristina Victorino, Hamerschlak Nelson, Bortolini Maria Augusta Tezelli, Castro Rodrigo, Kondo Andrea T, Kutner Jose Mauro, Okamoto Oswaldo Keith
Human Genome and Stem Cell Research Center, Department of Genetics and Evolutionary Biology, Institute of Biosciences, University of Sao Paulo, Sao Paulo, Brazil.
Department of Hemotherapy and Cellular Therapy, Albert Einstein Israelite Hospital, Sao Paulo, Brazil.
Stem Cells Int. 2022 Aug 19;2022:1613636. doi: 10.1155/2022/1613636. eCollection 2022.
Cytogenetic aberrations may emerge in human mesenchymal stromal cells (MSC) during ex vivo expansion for cell therapy. We have detected clonal trisomy 5 in two distinct autologous MSC products expanded from bone marrow which, based on the current quality control criteria, could not be released for clinical use. Although a safety concern, it is still unclear to what extent recurrent aneuploidies detected in MSC products may affect the threshold for neoplastic transformation or the medicinal properties of these cells. We have carried out an exploratory preclinical study to evaluate these MSC products with clonal trisomy 5, regarding their oncogenic and immunomodulatory potential. Cell population growth was reduced in MSC cultures with clonal trisomy 5 compared with the population growth of their euploid MSC counterparts, based on a lower cumulative population doubling level, reduced cell proliferation index, and increased senescence-associated beta-galactosidase activity. Subcutaneous injection of clinically relevant amount of MSC population, either with or without clonal trisomy 5, did not generate tumors in immunodeficient mice within a follow-up period of six months. Most importantly, MSC population with clonal trisomy 5 kept immunomodulatory properties upon interferon gamma (IFN) licensing, displaying overexpression of , , , and , in a similar fashion than that of IFN-licensed euploid MSC. Our findings suggest that bone marrow MSC products with clonal trisomy 5 may retain their therapeutic potential, based on poor tumor initiating capability and preserved immunomodulatory potency. This preclinical evidence may further support the definition of release criteria of autologous MSC products for cell therapy under critical clinical scenarios. This trial is registered with Clinical Study registration number: RBR-29x2pr.
在用于细胞治疗的体外扩增过程中,人间充质基质细胞(MSC)可能会出现细胞遗传学异常。我们在两种从骨髓中扩增出的不同自体MSC产品中检测到了5号染色体三体克隆,根据目前的质量控制标准,这两种产品不能放行用于临床。尽管这是一个安全问题,但目前仍不清楚在MSC产品中检测到的复发性非整倍体在多大程度上可能影响肿瘤转化阈值或这些细胞的药用特性。我们进行了一项探索性临床前研究,以评估这些具有5号染色体三体克隆的MSC产品的致癌和免疫调节潜力。与正常倍体MSC对应物的群体生长相比,具有5号染色体三体克隆的MSC培养物中的细胞群体生长减少,这基于较低的累积群体倍增水平、降低的细胞增殖指数和增加的衰老相关β-半乳糖苷酶活性。皮下注射临床相关剂量的MSC群体,无论有无5号染色体三体克隆,在六个月的随访期内均未在免疫缺陷小鼠中产生肿瘤。最重要的是,具有5号染色体三体克隆的MSC群体在干扰素γ(IFN)激活后保持免疫调节特性,以与IFN激活的正常倍体MSC相似的方式表现出 、 、 和 的过表达。我们的研究结果表明,具有5号染色体三体克隆的骨髓MSC产品可能保留其治疗潜力,这基于其较差的肿瘤起始能力和保留的免疫调节效力。这一临床前证据可能进一步支持在关键临床情况下细胞治疗自体MSC产品放行标准的定义。该试验已在临床研究注册编号:RBR-29x2pr下注册。
