CD200 Is a Marker of LSC Activity in Acute Myeloid Leukemia

Abstract: Acute myeloid leukemia (AML) is a hierarchical disease in which the bulk blast population is sustained by a minority population of leukemia stem cells (LSC). Evidence of functional heterogeneity in the LSC compartment, including variable responses to chemotherapy, underscores the importance of examining the entire stem cell compartment in studies of LSC biology. However, there are currently no phenotypic markers that can consistently segregate LSCs within the leukemic blast population. Although LSC activity is… Show more

“…Consequently, the use of monoclonal antibodies (mAbs) to block checkpoint signaling from the associated receptor has been pursued in immunotherapy with remarkable results in some cancers, [42][43][44] but such systemic blockade with mAbs globally targets the immune system and is often associated with severe autoimmune toxicities. 45,46 Our study focused on optimizing an IFP to target the inhibitory molecule, CD200, which is frequently upregulated on cancer cells, particularly AML and leukemia stem cells, 18,19,47 and known to suppress human T-cell immune responses. 20 Our results show that genetic engineering of tumor-specific T cells with CD200R-CD28 IFP can efficiently convert an inhibitory signal delivered by leukemic cells to a costimulatory one in a cell-intrinsic fashion, thus obviating the requirement to globally block this inhibitory receptor with the associated risk of promoting activation of endogenous autoreactive T cells.…”

“…[13][14][15] Importantly for targeted therapy, increased CD200 expression has been detected in cancer stem cells and leukemia stem cells, the small subpopulation with high proliferative capacity that initiates and maintains disease and is resistant to radiation and chemotherapy. [16][17][18][19] CD200R signaling inhibits the function of T cells 20,21 and other immune cells, including natural killer cells, 22 and high CD200 expression has been linked with poor outcomes in AML. 17 Synthetic biology affords the opportunity to engineer T cells not just with tumor-reactive receptors, but also with molecules that abrogate negative signals and provide missing activating signals.…”

A CD200R-CD28 fusion protein appropriates an inhibitory signal to enhance T-cell function and therapy of murine leukemia

“…Consequently, the use of monoclonal antibodies (mAbs) to block checkpoint signaling from the associated receptor has been pursued in immunotherapy with remarkable results in some cancers, [42][43][44] but such systemic blockade with mAbs globally targets the immune system and is often associated with severe autoimmune toxicities. 45,46 Our study focused on optimizing an IFP to target the inhibitory molecule, CD200, which is frequently upregulated on cancer cells, particularly AML and leukemia stem cells, 18,19,47 and known to suppress human T-cell immune responses. 20 Our results show that genetic engineering of tumor-specific T cells with CD200R-CD28 IFP can efficiently convert an inhibitory signal delivered by leukemic cells to a costimulatory one in a cell-intrinsic fashion, thus obviating the requirement to globally block this inhibitory receptor with the associated risk of promoting activation of endogenous autoreactive T cells.…”

“…[13][14][15] Importantly for targeted therapy, increased CD200 expression has been detected in cancer stem cells and leukemia stem cells, the small subpopulation with high proliferative capacity that initiates and maintains disease and is resistant to radiation and chemotherapy. [16][17][18][19] CD200R signaling inhibits the function of T cells 20,21 and other immune cells, including natural killer cells, 22 and high CD200 expression has been linked with poor outcomes in AML. 17 Synthetic biology affords the opportunity to engineer T cells not just with tumor-reactive receptors, but also with molecules that abrogate negative signals and provide missing activating signals.…”

A CD200R-CD28 fusion protein appropriates an inhibitory signal to enhance T-cell function and therapy of murine leukemia