Pharmaceutics (Apr 2022)

3,6′- and 1,6′-Dithiopomalidomide Mitigate Ischemic Stroke in Rats and Blunt Inflammation

  • Yan-Rou Tsai,
  • Dong Seok Kim,
  • Shih-Chang Hsueh,
  • Kai-Yun Chen,
  • John Chung-Che Wu,
  • Jia-Yi Wang,
  • Yi-Syue Tsou,
  • Inho Hwang,
  • Yukyung Kim,
  • Dayeon Gil,
  • Eui Jung Jo,
  • Baek-Soo Han,
  • David Tweedie,
  • Daniela Lecca,
  • Michael T. Scerba,
  • Warren R. Selman,
  • Barry J. Hoffer,
  • Nigel H. Greig,
  • Yung-Hsiao Chiang

DOI
https://doi.org/10.3390/pharmaceutics14050950
Journal volume & issue
Vol. 14, no. 5
p. 950

Abstract

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(1) Background: An important concomitant of stroke is neuroinflammation. Pomalidomide, a clinically available immunomodulatory imide drug (IMiD) used in cancer therapy, lowers TNF-α generation and thus has potent anti-inflammatory actions. Well-tolerated analogs may provide a stroke treatment and allow evaluation of the role of neuroinflammation in the ischemic brain. (2) Methods: Two novel pomalidomide derivatives, 3,6′-dithiopomalidomide (3,6′-DP) and 1,6′-dithiopomalidomide (1,6′-DP), were evaluated alongside pomalidomide in a rat middle cerebral artery occlusion (MCAo) stroke model, and their anti-inflammatory actions were characterized. (3) Results: Post-MCAo administration of all drugs lowered pro-inflammatory TNF-α and IL1-β levels, and reduced stroke-induced postural asymmetry and infarct size. Whereas 3,6′- and 1,6′-DP, like pomalidomide, potently bound to cereblon in cellular studies, 3,6′-DP did not lower Ikaros, Aiolos or SALL4 levels—critical intermediates mediating the anticancer/teratogenic actions of pomalidomide and IMiDs. 3,6′-DP and 1,6′-DP lacked activity in mammalian chromosome aberration, AMES and hERG channel assays –critical FDA regulatory tests. Finally, 3,6′- and 1,6′-DP mitigated inflammation across rat primary dopaminergic neuron and microglia mixed cultures challenged with α-synuclein and mouse LPS-challenged RAW 264.7 cells. (4) Conclusion: Neuroinflammation mediated via TNF-α plays a key role in stroke outcome, and 3,6′-DP and 1,6′-DP may prove valuable as stroke therapies and thus warrant further preclinical development.

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