1. Academic Validation
  2. Development of JNK2-selective peptide inhibitors that inhibit breast cancer cell migration

Development of JNK2-selective peptide inhibitors that inhibit breast cancer cell migration

  • ACS Chem Biol. 2011 Jun 17;6(6):658-66. doi: 10.1021/cb200017n.
Tamer S Kaoud 1 Shreya Mitra Sunbae Lee Juliana Taliaferro Michael Cantrell Klaus D Linse Carla L Van Den Berg Kevin N Dalby
Affiliations

Affiliation

  • 1 Division of Medicinal Chemistry, College of Pharmacy, The University of Texas at Austin, TX 78712, United States.
Abstract

Despite their lack of selectivity toward c-Jun N-terminal kinase (JNK) isoforms, Peptides derived from the JIP (JNK Interacting Protein) scaffolds linked to the cell-penetrating peptide TAT are widely used to investigate JNK-mediated signaling events. To engineer an isoform-selective peptide inhibitor, several JIP-based peptide sequences were designed and tested. A JIP sequence connected through a flexible linker to either the N-terminus of an inverted TAT sequence (JIP(10)-Δ-TAT(i)) or to a poly arginine sequence (JIP(10)-Δ-R(9)) enabled the potent inhibition of JNK2 (IC(50) ≈ 90 nM) and exhibited 10-fold selectivity for JNK2 over JNK1 and JNK3. Examination of both Peptides in HEK293 cells revealed a potent ability to inhibit the induction of both JNK activation and c-Jun phosphorylation in cells treated with anisomycin. Notably, Western blot analysis indicates that only a fraction of total JNK must be activated to elicit robust c-Jun phosphorylation. To examine the potential of each peptide to selectively modulate JNK2 signaling in vivo, their ability to inhibit the migration of Polyoma Middle-T Antigen Mammary Tumor (PyVMT) cells was assessed. PyVMTjnk2-/- cells exhibit a lower migration potential compared to PyVMTjnk2+/+ cells, and this migration potential is restored through the overexpression of GFP-JNK2α. Both JIP(10)-Δ-TAT(i) and JIP(10)-Δ-R(9) inhibit the migration of PyVMTjnk2+/+ cells and PyVMTjnk2-/- cells expressing GFP-JNK2α. However, neither peptide inhibits the migration of PyVMTjnk2-/- cells. A control form of JIP(10)-Δ-TAT(i) containing a single leucine to arginine mutation lacks ability to inhibit JNK2 in vitro cell-free and cell-based assays and does not inhibit the migration of PyVMTjnk2+/+ cells. Together, these data suggest that JIP(10)-Δ-TAT(i) and JIP(10)-Δ-R(9) inhibit the migration of PyVMT cells through the selective inhibition of JNK2. Finally, the mechanism of inhibition of a D-retro-inverso JIP peptide, previously reported to inhibit JNK, was examined and found to inhibit p38MAPKα in an in vitro cell-free assay with little propensity to inhibit JNK isoforms.

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