Stem Cell Research (Mar 2017)

CD25 targeted therapy of chemotherapy resistant leukemic stem cells using DR5 specific TRAIL peptide

  • Jayaprakasam Madhumathi,
  • Surapally Sridevi,
  • Rama Shanker Verma

DOI
https://doi.org/10.1016/j.scr.2017.01.001
Journal volume & issue
Vol. 19
pp. 65 – 75

Abstract

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Chemotherapy resistant leukemic stem cells (LSCs) are being targeted as a modern therapeutic approach to prevent disease relapse. LSCs isolated from methotrexate resistant side population (SP) of leukemic cell lines HL60 and MOLT4 exhibited high levels of CD25 and TRAIL R2/DR5 which are potential targets. Recombinant immunotoxin conjugating IL2α with TRAIL peptide mimetic was constructed for DR5 receptor specific targeting of LSCs and were tested in total cell population and LSCs. IL2-TRAIL peptide induced apoptosis in drug resistant SP cells from cell lines and showed potent cytotoxicity in PBMCs derived from leukemic patients with an efficacy of 81.25% in AML and 100% in CML, ALL and CLL. IL2-TRAIL peptide showed cytotoxicity in relapsed patient samples and was more effective than TRAIL or IL2-TRAIL proteins. Additionally, DR5 specific IL2-TRAIL peptide was effective in targeting and killing LSCs purified from cell lines [IC50: 952 nM in HL60, 714 nM in MOLT4] and relapsed patient blood samples with higher efficacy (85%) than IL2-TRAIL protein (46%). Hence, CD25 and DR5 specific targeting by IL2-TRAIL peptide may be an effective strategy for targeting drug resistant leukemic cells and LSCs.

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