[PDF][PDF] Targeting RSPO3-LGR4 signaling for leukemia stem cell eradication in acute myeloid leukemia
Cancer cell, 2020•cell.com
Signals driving aberrant self-renewal in the heterogeneous leukemia stem cell (LSC) pool
determine aggressiveness of acute myeloid leukemia (AML). We report that a positive
modulator of canonical WNT signaling pathway, RSPO-LGR4, upregulates key self-renewal
genes and is essential for LSC self-renewal in a subset of AML. RSPO2/3 serve as stem cell
growth factors to block differentiation and promote proliferation of primary AML patient
blasts. RSPO receptor, LGR4, is epigenetically upregulated and works through cooperation …
determine aggressiveness of acute myeloid leukemia (AML). We report that a positive
modulator of canonical WNT signaling pathway, RSPO-LGR4, upregulates key self-renewal
genes and is essential for LSC self-renewal in a subset of AML. RSPO2/3 serve as stem cell
growth factors to block differentiation and promote proliferation of primary AML patient
blasts. RSPO receptor, LGR4, is epigenetically upregulated and works through cooperation …
Summary
Signals driving aberrant self-renewal in the heterogeneous leukemia stem cell (LSC) pool determine aggressiveness of acute myeloid leukemia (AML). We report that a positive modulator of canonical WNT signaling pathway, RSPO-LGR4, upregulates key self-renewal genes and is essential for LSC self-renewal in a subset of AML. RSPO2/3 serve as stem cell growth factors to block differentiation and promote proliferation of primary AML patient blasts. RSPO receptor, LGR4, is epigenetically upregulated and works through cooperation with HOXA9, a poor prognostic predictor. Blocking the RSPO3-LGR4 interaction by clinical-grade anti-RSPO3 antibody (OMP-131R10/rosmantuzumab) impairs self-renewal and induces differentiation in AML patient-derived xenografts but does not affect normal hematopoietic stem cells, providing a therapeutic opportunity for HOXA9-dependent leukemia.
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