Cequier Alina, Vázquez Francisco José, Romero Antonio, Vitoria Arantza, Bernad Elvira, García-Martínez Mirta, Gascón Isabel, Barrachina Laura, Rodellar Clementina
Laboratorio de Genética Bioquímica LAGENBIO, Instituto de Investigación Sanitaria de Aragón (IIS), Instituto Agroalimentario de Aragón-IA2 (Universidad de Zaragoza-CITA), Zaragoza, Spain.
Servicio de Cirugía y Medicina Equina, Hospital Veterinario, Universidad de Zaragoza, Zaragoza, Spain.
Front Vet Sci. 2022 Oct 20;9:957153. doi: 10.3389/fvets.2022.957153. eCollection 2022.
The immunomodulatory properties of equine mesenchymal stem cells (MSCs) are important for their therapeutic potential and for their facilitating role in their escape from immune recognition, which may also be influenced by donor-recipient major histocompatibility complex (MHC) matching/mismatching and MHC expression level. Factors such as inflammation can modify the balance between regulatory and immunogenic profiles of equine MSCs, but little is known about how the exposure to the immune system can affect these properties in equine MSCs. In this study, we analyzed the gene expression and secretion of molecules related to the immunomodulation and immunogenicity of equine MSCs, either non-manipulated (MSC-naive) or stimulated by pro-inflammatory cytokines (MSC-primed), before and after their exposure to autologous or allogeneic MHC-matched/-mismatched lymphocytes, either activated or resting. Cytokine priming induced the immunomodulatory profile of MSCs at the baseline (MSCs cultured alone), and the exposure to activated lymphocytes further increased the expression of , and , and IL6 secretion. Activated lymphocytes were also able to upregulate the regulatory profile of MSC-naive to levels comparable to cytokine priming. On the contrary, resting lymphocytes did not upregulate the immunomodulatory profile of equine MSCs, but interestingly, MSC-primed exposed to MHC-mismatched lymphocytes showed the highest expression and secretion of these mediators, which may be potentially linked to the activation of lymphocytes upon recognition of foreign MHC molecules. Cytokine priming alone did not upregulate the immunogenic genes, but MSC-primed exposed to activated or resting lymphocytes increased their and expression, regardless of the MHC-compatibility. The upregulation of immunogenic markers including in the MHC-mismatched co-culture might have activated lymphocytes, which, at the same time, could have promoted the immune regulatory profile aforementioned. In conclusion, activated lymphocytes are able to induce the equine MSC regulatory profile, and their effects seem to be additive to the priming action. Importantly, our results suggest that the lymphocyte response against MHC-mismatched MSC-primed would promote further activation of their immunomodulatory ability, which eventually might help them evade this reaction. Further studies are needed to clarify how these findings might have clinical implications , which will help developing safer and more effective therapies.
马间充质干细胞(MSCs)的免疫调节特性对其治疗潜力以及在逃避免疫识别过程中的促进作用至关重要,而这也可能受到供体 - 受体主要组织相容性复合体(MHC)匹配/不匹配以及MHC表达水平的影响。诸如炎症等因素可改变马MSCs调节性和免疫原性特征之间的平衡,但对于暴露于免疫系统如何影响马MSCs的这些特性却知之甚少。在本研究中,我们分析了未处理(未接触过其他因素的MSCs,即MSC - naive)或经促炎细胞因子刺激(预处理的MSCs,即MSC - primed)的马MSCs在暴露于自体或异体MHC匹配/不匹配的活化或静息淋巴细胞之前和之后,与免疫调节和免疫原性相关分子的基因表达及分泌情况。细胞因子预处理在基线时(单独培养的MSCs)诱导了MSCs的免疫调节特征,而暴露于活化淋巴细胞进一步增加了 、 和 的表达以及IL6的分泌。活化淋巴细胞还能够将未处理的MSCs的调节性特征上调至与细胞因子预处理相当的水平。相反,静息淋巴细胞并未上调马MSCs的免疫调节特征,但有趣的是,暴露于MHC不匹配淋巴细胞的预处理MSCs显示出这些介质的最高表达和分泌,这可能与识别外来MHC分子后淋巴细胞的活化潜在相关。单独的细胞因子预处理并未上调免疫原性基因,但暴露于活化或静息淋巴细胞的预处理MSCs增加了它们的 和 表达,而与MHC相容性无关。MHC不匹配共培养中包括 在内的免疫原性标志物的上调可能激活了淋巴细胞,而淋巴细胞同时可能促进了上述免疫调节特征。总之,活化淋巴细胞能够诱导马MSCs的调节性特征,且它们的作用似乎与预处理作用具有相加性。重要的是,我们的结果表明,淋巴细胞针对MHC不匹配的预处理MSCs的反应会促进其免疫调节能力的进一步激活,这最终可能有助于它们逃避这种反应。需要进一步研究来阐明这些发现如何具有临床意义,这将有助于开发更安全、更有效的治疗方法。
