Sm Vercauteren1, R Zapf, Hj Sutherland. 1. Terry Fox Laboratory, British Columbia Cancer Agency, Division of Hematology and Hematopathology, Vancouver General Hospital, Vancouver, Canada.
Abstract
BACKGROUND: AML blast populations are heterogeneous in their phenotype and functional properties, and contain a small subset of cells that regenerate leukemia in immunocompromised mice or produce clonogenic progeny in long-term cultures. This suggests the existence of a hierarchy of AML progenitor cells. CD33 is a myeloid marker absent on normal hematopoietic stem cells but expressed in about 75% of AML patients, and has been used for BM purging strategies and Ab-targeted therapies. These CD33 Ab therapies benefit only a minority of AML patients, suggesting that AML stem cells are heterogeneous in their CD33 expression. METHODS: In order to evaluate this question, we determined expression levels of CD34 and CD33 on AML progenitors with long-term in vitro proliferative ability and NOD/SCID engrafting ability. RESULTS: The CD34(+) CD33(-) subfraction contained the majority of progenitors detected in vitro and most often engrafted the mice. This proliferation was leukemic from the CD34(+) AML patients, however from the CD34(-) AML patients only normal progenitors were detected in this fraction in some cases. DISCUSSION: These data suggest that most leukemic progenitors of CD34(+) patients do not express CD33. In contrast, CD34(-) AML primitive leukemic progenitors may be CD33(+). CD34(-) AML patients could potentially benefit most from CD33-targeted therapies or purging.
BACKGROUND:AML blast populations are heterogeneous in their phenotype and functional properties, and contain a small subset of cells that regenerate leukemia in immunocompromised mice or produce clonogenic progeny in long-term cultures. This suggests the existence of a hierarchy of AML progenitor cells. CD33 is a myeloid marker absent on normal hematopoietic stem cells but expressed in about 75% of AMLpatients, and has been used for BM purging strategies and Ab-targeted therapies. These CD33 Ab therapies benefit only a minority of AMLpatients, suggesting that AML stem cells are heterogeneous in their CD33 expression. METHODS: In order to evaluate this question, we determined expression levels of CD34 and CD33 on AML progenitors with long-term in vitro proliferative ability and NOD/SCID engrafting ability. RESULTS: The CD34(+) CD33(-) subfraction contained the majority of progenitors detected in vitro and most often engrafted the mice. This proliferation was leukemic from the CD34(+) AMLpatients, however from the CD34(-) AMLpatients only normal progenitors were detected in this fraction in some cases. DISCUSSION: These data suggest that most leukemic progenitors of CD34(+) patients do not express CD33. In contrast, CD34(-) AML primitive leukemic progenitors may be CD33(+). CD34(-) AMLpatients could potentially benefit most from CD33-targeted therapies or purging.
Authors: Sahar Mohseni Nodehi; Roland Repp; Christian Kellner; Joachim Bräutigam; Matthias Staudinger; Natalie Schub; Matthias Peipp; Martin Gramatzki; Andreas Humpe Journal: PLoS One Date: 2012-08-03 Impact factor: 3.240
Authors: Theresa Weber; Sibylle Pscherer; Ulrike Gamerdinger; Andrea Teigler-Schlegel; Natalja Rutz; Wolfgang Blau; Mathias Rummel; Stefan Gattenlöhner; Mehmet Kemal Tur Journal: Mol Med Rep Date: 2021-09-07 Impact factor: 2.952