Nature Communications (Nov 2023)

Tamoxifen for the treatment of myeloproliferative neoplasms: A Phase II clinical trial and exploratory analysis

  • Zijian Fang,
  • Giuditta Corbizi Fattori,
  • Thomas McKerrell,
  • Rebecca H. Boucher,
  • Aimee Jackson,
  • Rachel S. Fletcher,
  • Dorian Forte,
  • Jose-Ezequiel Martin,
  • Sonia Fox,
  • James Roberts,
  • Rachel Glover,
  • Erica Harris,
  • Hannah R. Bridges,
  • Luigi Grassi,
  • Alba Rodriguez-Meira,
  • Adam J. Mead,
  • Steven Knapper,
  • Joanne Ewing,
  • Nauman M. Butt,
  • Manish Jain,
  • Sebastian Francis,
  • Fiona J. Clark,
  • Jason Coppell,
  • Mary F. McMullin,
  • Frances Wadelin,
  • Srinivasan Narayanan,
  • Dragana Milojkovic,
  • Mark W. Drummond,
  • Mallika Sekhar,
  • Hesham ElDaly,
  • Judy Hirst,
  • Maike Paramor,
  • E. Joanna Baxter,
  • Anna L. Godfrey,
  • Claire N. Harrison,
  • Simón Méndez-Ferrer

DOI
https://doi.org/10.1038/s41467-023-43175-5
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 21

Abstract

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Abstract Current therapies for myeloproliferative neoplasms (MPNs) improve symptoms but have limited effect on tumor size. In preclinical studies, tamoxifen restored normal apoptosis in mutated hematopoietic stem/progenitor cells (HSPCs). TAMARIN Phase-II, multicenter, single-arm clinical trial assessed tamoxifen’s safety and activity in patients with stable MPNs, no prior thrombotic events and mutated JAK2 V617F , CALR ins5 or CALR del52 peripheral blood allele burden ≥20% (EudraCT 2015-005497-38). 38 patients were recruited over 112w and 32 completed 24w-treatment. The study’s A’herns success criteria were met as the primary outcome ( ≥ 50% reduction in mutant allele burden at 24w) was observed in 3/38 patients. Secondary outcomes included ≥25% reduction at 24w (5/38), ≥50% reduction at 12w (0/38), thrombotic events (2/38), toxicities, hematological response, proportion of patients in each IWG-MRT response category and ELN response criteria. As exploratory outcomes, baseline analysis of HSPC transcriptome segregates responders and non-responders, suggesting a predictive signature. In responder HSPCs, longitudinal analysis shows high baseline expression of JAK-STAT signaling and oxidative phosphorylation genes, which are downregulated by tamoxifen. We further demonstrate in preclinical studies that in JAK2V617F+ cells, 4-hydroxytamoxifen inhibits mitochondrial complex-I, activates integrated stress response and decreases pathogenic JAK2-signaling. These results warrant further investigation of tamoxifen in MPN, with careful consideration of thrombotic risk.