<p>Regulatory T (Treg) cells are pivotal in maintaining immune homeostasis through suppression of effector T (Teff) cells, making their therapeutic modulation a promising strategy for treating autoimmune and inflammatory diseases. CDK8/19 inhibitors promote Treg cell differentiation by upregulating Foxp3 expression in both naive and memory/effector T cells. In this study we identified a novel dual CDK8/19 inhibitor RO8323 and systematically dissected the mechanism of CDK8/19-mediated immunoregulation. RO8323 inhibited CDK8 and CDK19 with IC<sub>50</sub> values of 2 nM and 3 nM, respectively, displaying &gt;100-fold kinome selectivity. In the in vitro and in vivo experimental settings, we demonstrated that RO8323 selectively enhanced Treg differentiation while suppressing Teff. Furthermore, RO8323 exerted anti-inflammatory effects on myeloid cells by selectively upregulating IL-10 production but not proinflammatory cytokines (TNF-α, IL-6, and IL-12) following TLR agonist activation. In the DBA/2 → BALB/c cGVHD model, administration of RO8323 (3 mg·kg<sup>−1</sup>·d<sup>−</sup><sup>1</sup>, i.g.) from day 7 to day 49 displayed significant therapeutic potential by reducing clinical severity scores and enhancing immune reconstitution —a finding reported for the first time in this context. Complementary studies using an ear-heart transplantation model revealed that administration of RO8323 (3, 10 mg·kg<sup>−</sup><sup>1</sup>·d<sup>−1</sup>, i.g.) dose-dependently prolonged cardiac allograft survival accompanied by increased Treg frequencies. These results not only elucidate the immunomodulatory mechanisms of CDK8/19 inhibition but also highlight its translational value for managing alloimmune responses such as GVHD and transplant rejection.</p><p></p>

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A novel CDK8/19 inhibitor RO8323 mitigates allograft rejection through dual mechanisms of action to modulate regulatory T cell and myeloid cell

  • Fang Shen,
  • Rou Xie,
  • Ye Gan,
  • Ping Ren,
  • Ran-ran Wu,
  • Jia-wei Yan,
  • Yu-ying Bian,
  • Cheng-cheng Liu,
  • Song Yang,
  • Xin-chun Han,
  • Chen-gang Zhou,
  • Yao Wu,
  • Yang Tang,
  • Zhi-heng Xu,
  • Jun Yang,
  • Hong-xia Qiu,
  • Ju-hao Yang,
  • Xue-yan Pu,
  • Li Li,
  • Yue Gui,
  • Gu-liang Xia,
  • Kara G. Lassen,
  • Hong C. Shen,
  • Hao-chu Huang,
  • Lue Dai

摘要

Regulatory T (Treg) cells are pivotal in maintaining immune homeostasis through suppression of effector T (Teff) cells, making their therapeutic modulation a promising strategy for treating autoimmune and inflammatory diseases. CDK8/19 inhibitors promote Treg cell differentiation by upregulating Foxp3 expression in both naive and memory/effector T cells. In this study we identified a novel dual CDK8/19 inhibitor RO8323 and systematically dissected the mechanism of CDK8/19-mediated immunoregulation. RO8323 inhibited CDK8 and CDK19 with IC50 values of 2 nM and 3 nM, respectively, displaying >100-fold kinome selectivity. In the in vitro and in vivo experimental settings, we demonstrated that RO8323 selectively enhanced Treg differentiation while suppressing Teff. Furthermore, RO8323 exerted anti-inflammatory effects on myeloid cells by selectively upregulating IL-10 production but not proinflammatory cytokines (TNF-α, IL-6, and IL-12) following TLR agonist activation. In the DBA/2 → BALB/c cGVHD model, administration of RO8323 (3 mg·kg−1·d1, i.g.) from day 7 to day 49 displayed significant therapeutic potential by reducing clinical severity scores and enhancing immune reconstitution —a finding reported for the first time in this context. Complementary studies using an ear-heart transplantation model revealed that administration of RO8323 (3, 10 mg·kg1·d−1, i.g.) dose-dependently prolonged cardiac allograft survival accompanied by increased Treg frequencies. These results not only elucidate the immunomodulatory mechanisms of CDK8/19 inhibition but also highlight its translational value for managing alloimmune responses such as GVHD and transplant rejection.