Figure 1
Figure 1. Activation and targeting of prosurvival pathways mediating FLT3 resistance. (A) The downstream effectors pERK, pAKt, pS6K, and pSTAT are not sufficiently inhibited despite FLT3 signaling blockade in sorafenib-resistant FLT3 cell lines harboring acquired point mutations in the tyrosine kinase domains. The MEK/ERK pathway likely plays a central role in this feedback modulation with smaller contributions from the PI3K/AKT and STAT5 pathways. Circulating blasts are dependent on FLT3 signaling for activation of the MEK/ERK pathways. Stromal cytokines may activate the MEK/ERK pathway in stromal leukemia blasts independent of FLT3-ITD signaling, such as through CXCL12/CXCR4 interactions, conferring resistance to the clinically available FLT3 inhibitors. (B) Concomitant inhibition of CXCR4 (plerixafor), Pi3K (Pi3K inhibitors: BKM-120, IPI-145, BYL-719), MEK/ERK (PD0325901, trametinib, MEK-162, E6201), AKT/mTOR (mTOR inhibitors: CCI-779, everolimus), NF-κB inhibitors (early clinical trials), PiM-kinase inhibitors (early clinical trials), and FLT3 produces a synergistic effect in sorafenib-resistant cell lines.

Activation and targeting of prosurvival pathways mediating FLT3 resistance. (A) The downstream effectors pERK, pAKt, pS6K, and pSTAT are not sufficiently inhibited despite FLT3 signaling blockade in sorafenib-resistant FLT3 cell lines harboring acquired point mutations in the tyrosine kinase domains. The MEK/ERK pathway likely plays a central role in this feedback modulation with smaller contributions from the PI3K/AKT and STAT5 pathways. Circulating blasts are dependent on FLT3 signaling for activation of the MEK/ERK pathways. Stromal cytokines may activate the MEK/ERK pathway in stromal leukemia blasts independent of FLT3-ITD signaling, such as through CXCL12/CXCR4 interactions, conferring resistance to the clinically available FLT3 inhibitors. (B) Concomitant inhibition of CXCR4 (plerixafor), Pi3K (Pi3K inhibitors: BKM-120, IPI-145, BYL-719), MEK/ERK (PD0325901, trametinib, MEK-162, E6201), AKT/mTOR (mTOR inhibitors: CCI-779, everolimus), NF-κB inhibitors (early clinical trials), PiM-kinase inhibitors (early clinical trials), and FLT3 produces a synergistic effect in sorafenib-resistant cell lines.

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