Endometrial mesenchymal stem/stromal cell modulation of T cell proliferation

Author:

Yang Xiaoqing1,Devianti Meivita2,Yang Yuan H3,Ong Yih Rue4,Tan Ker Sin5,Gurung Shanti6,Tan Jean7,Zhu Dandan8,Lim Rebecca9,Gargett Caroline E10,Deane James11

Affiliation:

1. X Yang, The Ritchie Centre, Hudson Institute of Medical Research, Clayton, Australia

2. M Devianti, The Ritchie Centre, Hudson Institute of Medical Research, Clayton, Australia

3. Y Yang, Centre for Inflammatory Diseases, Monash University Department of Medicine, Monash University, Clayton, Australia

4. Y Ong, The Ritchie Centre, Hudson Institute of Medical Research, Clayton, Australia

5. K Tan, The Ritchie Centre, Hudson Institute of Medical Research, Clayton, Australia

6. S Gurung, Centre for Reproductive Health, Hudson Institute of Medical Research, Clayton, Australia

7. J Tan, The Ritchie Centre, Hudson Institute of Medical Research, Clayton, Australia

8. D Zhu, The Ritchie Centre, Hudson Institute of Medical Research, Clayton, Australia

9. R Lim, The Ritchie Centre, Hudson Institute of Medical Research, Clayton, Australia

10. C Gargett, The Ritchie Centre, Hudson Institute of Medical Research, Clayton, Australia

11. J Deane, The Ritchie Centre, Hudson Institute of Medical Research, Clayton, Australia

Abstract

Perivascular mesenchymal stem/stromal cells can be isolated from the human endometrium using the surface marker SUSD2, and are being investigated for use in tissue repair. Mesenchymal stem/stromal cells from other tissues modulate T cell responses via mechanisms including interleukin-10, prostaglandin E2, TGF-β1 and regulatory T cells. Animal studies demonstrate that endometrial mesenchymal stem/stromal cells can also modify immune responses to implanted mesh, but the mechanism/s they employ have not been explored. We examined the immunomodulatory properties of human endometrial mesenchymal stem/stromal cells on lymphocyte proliferation using mouse splenocyte cultures. Endometrial mesenchymal stem/stromal cells inhibited mitogen-induced lymphocyte proliferation in vitro in a dose-dependent manner. Inhibition of lymphocyte proliferation was not affected by blocking the mouse interleukin-10 receptor or inhibiting prostaglandin production. Endometrial mesenchymal stem/stromal cells continued to restrain lymphocyte proliferation in the presence of an inhibitor of TGF-β receptors, despite a reduction in regulatory T cells. Thus the in vitro inhibition of mitogen-induced lymphocyte proliferation by endometrial mesenchymal stem/stromal cells occurs by a mechanism distinct from the interleukin-10, prostaglandin E2, TGF-β1, and regulatory T cell-mediated mechanisms employed by MSC from other tissues. eMSC were shown to produce interleukin-17A and Dickkopf-1 which may contribute to their immunomodulatory properties. In contrast to MSC from other sources, systemic administration of endometrial mesenchymal stem/stromal cells did not inhibit swelling in a T cell-mediated model of skin inflammation. We conclude that, while endometrial mesenchymal stem/stromal cells can modify immune responses, their immunomodulatory repertoire may not be sufficient to restrain some T cell-mediated inflammatory events.

Publisher

Bioscientifica

Subject

Cell Biology,Obstetrics and Gynaecology,Endocrinology,Embryology,Reproductive Medicine

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