Abstract
Abstract 1495
Poster Board I-518
Recent studies have suggested a role for the intrinsic apoptosis pathway in megakaryocytic differentiation and platelet shedding. The intrinsic pathway is regulated by the Bcl-2 family of pro- and anti- cell death proteins. We recently demonstrated that platelet life span is controlled by an intrinsic cell death pathway, whereby the anti-apoptotic protein Bcl-xL constrains the pro-apoptotic activity of Bak to maintain platelet survival. As Bcl-xL is expressed in megakaryocytes, we investigated whether this protein is required for megakaryocyte survival, differentiation and/or platelet shedding. We specifically deleted the Bcl-x gene in the megakaryocyte lineage by crossing mice carrying a floxed allele of Bcl-x with mice carrying a platelet factor 4-regulated Cre transgene. Bcl-xfl/flCre+ mice were profoundly thrombocytopenic (26 ± 5 × 103/μl, n=14) compared with Bcl-xfl/flCre− animals (1157 ± 202 × 103/μl, n=13). Platelet life span in these mice was reduced to only 5 hours, as compared to 5 days in wild type littermates. This result confirmed that Bcl-xL is absolutely required for platelet survival. To determine whether Bcl-x deletion has an impact on platelet production, we analyzed the megakaryocyte compartment in Bcl-xfl/flCre+ and Bcl-xfl/flCre− mice. We observed that the number of megakaryocyte progenitors, and number of megakaryocytes in the bone marrow were increased in Bcl-xfl/flCre+ mice (23 ± 9 megakaryocyte progenitors vs 11 ± 5, and 51 ± 9 megakaryocytes vs 12 ± 1). This result suggested that Bcl-xL is not required for the survival of megakaryocytes or their progenitors. To determine whether Bcl-xL is required for the last step of megakaryocyte differentiation, i.e. platelet shedding, we cultured fetal liver cells with thrombopoietin. Large megakaryocytes were isolated after 3 days of differentiation on discontinuous bovine serum albumin gradient. They were cultured for 3 more days in the same media and the percentage of megakaryocytes displaying proplatelets was determined each day. Interestingly, Bcl-xfl/flCre+ megakaryocytes died much more quickly than Bcl-xfl/flCre− megakaryocytes, and almost none of those that survived were able to form proplatelets. Our study indicates that Bcl-xL is not only essential for platelet survival, but it is also required for the survival of mature megakaryocytes at the stage of platelet shedding.
No relevant conflicts of interest to declare.
Author notes
Asterisk with author names denotes non-ASH members.